# How to assign NA's using IF statement?

I want to categorize a vector of values between 0 and 1. Values below .001, and values higher than .10 or of no interest. Therefore I want values in these ranges to be NA.

When I run the code below I get a warning:

Error in if (x[i] > 0.001 & x[i] <= 0.01) x[i] = 0.01 :  missing value where TRUE/FALSE needed

How do I fix my code?

for (i in 1:length(x))
{
if (x[i] <= .001)
x[i] = NA
if (x[i] > .001 & x[i] <= .01)
x[i] = .01
if (x[i] > .01 & x[i] <= .02)
x[i] = .02
if (x[i] > .02 & x[i] <= .03)
x[i] = .03
if (x[i] > .03 & x[i] <= .04)
x[i] = .04
if (x[i] > .04 & x[i] <= .05)
x[i] = .05
if (x[i] > .05 & x[i] <= .06)
x[i] = .06
if (x[i] > .06 & x[i] <= .07)
x[i] = .07
if (x[i] > .07 & x[i] <= .08)
x[i] = .08
if (x[i] > .08 & x[i] <= .09)
x[i] = .09
if (x[i] > .09 & x[i] <= .10)
x[i] = .10
if (x[i] > .10 & x[i] <= 1)
x[i] = NA
}
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You might be better off recoding your variables using subsetting. –  Ananda Mahto Jun 23 '12 at 12:56
What do you mean by subsetting? –  mats Jun 23 '12 at 12:58
I'd actually use cut for this one. –  Tyler Rinker Jun 23 '12 at 13:06
Ah, got it. The subset() function might indeed be useful. Still curious why I got the error in the above code.. –  mats Jun 23 '12 at 13:09
Your code should work, but doesn't handle NA as a TRUE/FALSE condition. Index what you want to set as NA, remove the NA conditions from your for loop, run the for loop, and use the indexes to set the indexed x values to NA. –  Ananda Mahto Jun 23 '12 at 14:02

First, some test data:

set.seed(1); x = dnorm(rnorm(100))/(sample(1:100, 100, replace=TRUE))

Subsetting can be done in the following way:

x[x < .001] = NA
x[x > .1] = NA

Or, you can combine it in one statement:

x[x < .001 | x > .1] = NA

You're running into problems if it does find an NA in there, so remove them from your for loop, but index them before you run the loop so you can remove them later.

temp = which(x < .001 | x > .1) # Index the values you want to set as NA

Remove the following conditions from your for loop:

if (x[i] > .10 & x[i] <= 1)
x[i] = NA
if (x[i] <= .001)
x[i] = NA

Run your for loop, and then use temp to set the values to NA that should be NA.

x[temp] = NA

Hope this helps!

## Update 2: Two lines

x[x < .001 | x > .1] = NA
out <- ceiling(x*100)/100

Pretty much the same as AKE's suggestion using floor.

This should get you the same results as your loop.

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+1 for the two lines... It was pretty much exactly what I was about to post. –  John Jun 23 '12 at 20:46

Instead of using an explicit for loop, you should try to use a vectorized function, such as the very handy ifelse. Here is how to recode the NAs in your example:

> x <- ifelse(x <= 0.001 | x > 0.1, NA, x)

To recode the other values, you could try some "clever" use of cut:

> x <- (cut(x, breaks=seq(0.01, 0.09, 0.01), labels=FALSE) / 100) + 0.01

though there are likely better (and more transparent) ways. The reason for avoiding explicit for loops in R is that they are very inefficient when compared to vectorized alternatives. The R Inferno provides a good discussion of this and other R tricks and tips.

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ifelse is handy and easy to read, but it is quite a bit slower than x[x <= 0.001 | x > 0.1] <- NA; x –  GSee Jun 23 '12 at 15:14

While your solution works conceptually, it is "brute force", which means a lot of typing, won't scale to a slightly different problem, and is also slow to execute.

R allows working with vectors so if your logic works for an arbitrary number between 0 and 1, then it should work with a vector of values between 0 and 1.

Try something like the following:

y=((floor(100*x))       # all values < 0.01 map to 0
if y>10 then y=0        # force values > 0.1 to 0
if y>0, then (y+1)/100  # for non-zero values, map to the upper interval, then return to original scale.

The first line squashes all values less than 0.01 to 0. The second line squashes all values greater than 0.1 to 0. The third line lifts the remaining non zero values to the top value of the range (round up) and returns them to the original scale.

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With the subset function mentioned by @mrdwab, all you have left to do is bin the continuous values into discrete values: x=floor(100*x+1)/100 –  Assad Ebrahim Jun 23 '12 at 13:15

The findInterval function can be used productively in this very structured choice problem. It produces an index that can "lookup" or select the desired result for values in particular intervals:

x <- rnorm(1000)
x <- c(NA, seq(0.1, 1, by=0.1), NA)[
1+ findInterval(x, c(0.001, seq(0.1, 1, by=0.1)) ,rightmost.closed=TRUE) ]
#---------------
table(x)
x
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9   1
34  38  48  44  29  30  26  20  17  31
> table(is.na(x))

FALSE  TRUE
317   683

The rightmost.closed argument shift the usual leftmost closure of intervals, although in this example it didn't matter, since none of the random draws were on boundaries. It's generally not a good idea to destroy your input data, though. I hope x was a copy of your original data. The other way of doing this would be to omit the 1+ and instead use intervals in the findInterval second argument like c(-Inf, 0.001, seq(0.1, 1, by=0.1) , Inf)

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