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I have a data.frame like this:

(t=structure(list(count = c(NA, 2, NA, NA, NA, 8, NA, NA, NA)), .Names = "count", row.names = c(NA,-9L), class = "data.frame"))
1    NA
2     2
3    NA
4    NA
5    NA
6     8
7    NA
8    NA
9    NA

It is great that R has the NA value but sometimes it bites me. I often forget about it and try to do subsetting like this

> t[t$count>=1,]
[1] NA  2 NA NA NA  8 NA NA NA

And the output includes all NA rows. (which I don't like)

After an hour of bug searching I change the code to this and that is what I want (imagine large dataframe a lots of non-NA resuls and only few "well-hidden" NAs):

> t[t$count>=1&!$count),]
[1] 2 8

1. Is there a feature of the "as.integer" function so that I could do something like this:


I would want to use such feature in other as.xxxx functions as well. Basically force R to stop think like a statistician and treat NA differently (e.g., like NULL (I am not sure NULL would solve my issue) (this did not work: t$count[3]<-NULL for some reason)

2. or how would I run

transform(t, replace all NAs from count columns with 0)

or even better

transform(t, replace all NA from all numeric columns with 0 in t)

3. any generic comments on making R forget about NAs are welcomed?

share|improve this question
I see the value of NAs, but there are data sets where NAs are not welcomed. – userJT Mar 2 '12 at 18:54
But how do you want to handle them -- Drop each NA? Drop each row where there are any NAs? Impute them? It's a substantive decision. – Ari B. Friedman Mar 2 '12 at 19:51
up vote 6 down vote accepted

I do not like the choices that were made at the time of designing how "[" handles NA values either. The approach I take when I want to extract values using a logical test is to wrap the logical expression in which. This converts the result to a set of numbers and indexing succeeds without dragging along the unwanted NA's:

> t[ which(t$count >= 1), ]
[1] 2 8
# Or if you still want a dataframe result
> t[ which(t$count >= 1), , drop=FALSE]
2     2
6     8

I also use subset since it handles NA's in the same manner as which(logical). The one gotcha is when which is used with a "-" sign to retrieve the complement set. If there are no elements in the set satisfying the logical-condition, there will also be no elements in the -which(logical)-form. So I just do not use the -which combo:

> t[ -which(t$count < 1), , drop=FALSE]
[1] count
<0 rows> (or 0-length row.names)
> t[ which(t$count < 1), , drop=FALSE]
[1] count
<0 rows> (or 0-length row.names)
share|improve this answer
I used subset() and then switched to [] since it was faster. But your answers makes a great point to go back to subset() in some cases – userJT Mar 2 '12 at 18:59

In data.table it works as you'd like it to w.r.t. NA, if I understand correctly. Also, you don't need to use $ and it doesn't mind if you forget the comma, either.

dt =
t[count>=1]   # NA's are treated as FALSE

The list of differences between data.table and data.frame is in FAQ 2.17 here.

If you're thinking all these differences break compatibility, they don't. You can still pass a data.table to any package and when those packages use standard R syntax on the data.table, it still works.

Since you said large data.frame, data.table may be worth a look anyway.

These are the 3 points from FAQ 2.17 (where DT means data.table and DF means data.frame) :

  • DT[NA] returns 1 row of NA, but DF[NA] returns a copy of the whole of DF containing NA throughout. The symbol NA is type logical in R, and is therefore recycled by [.data.frame. Intention was probably DF[NA_integer_]. [.data.table does this automatically for convenience.

  • DT[c(TRUE,NA,FALSE)] treats the NA as FALSE, but DF[c(TRUE,NA,FALSE),] returns an NA row for each NA

  • DT[ColA==ColB] is simpler than DF[! & ! & ColA==ColB,]

share|improve this answer
Thx. Yet another impulse to look into data.table – userJT Mar 2 '12 at 18:56

Easy enough to do (2) on the list (replace all NAs):

t$count[$count)] <- something.else

The question is, of course, what do you put in for something.else. NAs exist to solve a problem. If you want to blanket ban them from your use of R, you'll need to figure out what you want to do with missing observations other than treat them as missing.

The beauty of NA is it generally propagates through, indicating to you at the end of your analysis that somewhere in there you had some missingness which you'd better go think hard about. There's no substitute for thinking hard about missingness.

share|improve this answer
+1 for your explanation, and for being able to see beauty in NAs :) – Josh O'Brien Mar 2 '12 at 17:29
If the first step on the path to enlightenment is being glad of the existence of error messages, and the second step is seeing the beauty in NAs, what's the third step? – Ari B. Friedman Mar 2 '12 at 18:03
Aha! An R koan. Thanks! – Josh O'Brien Mar 2 '12 at 18:24

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