So I am having some issues with some NA values in the residuals of a lm cross sectional regression in R.

The issue isn't the NA values themselves, it's the way R presents them.

For example:

#          1          2          4          5 
#  0.2757677 -0.5772193 -5.3061303  4.5102816 
#        4 
# -5.30613 

In this simple example a NA value will make one of the residuals go missing. When I extract the residuals I can clearly see the third index missing. So far so good, no complaints here. The problem is that the corresponding numeric vector is now one item shorter so the third index is actually the fourth. How can I make R return these residuals instead, i.e., explicitly showing NA instead of skipping an index?

#          1          2          3          4          5 
#  0.2757677 -0.5772193         NA -5.3061303  4.5102816

I need to keep track of all individual residuals so it would make my life much easier if I could extract them this way instead.


I just found this googling around a bit deeper. The resid function on a lm with na.action=na.exclude is the way to go.


Yet another idea is to take advantage of the row names associated with the data frame provided as input to lm. In that case, the residuals should retain the names from the source data. Accessing the residuals from your example would give a value of -5.3061303 for test$residuals["4"] and NA for test$residuals["3"].

However, this does not exactly answer your question. One approach to doing exactly what you asked for in terms of getting the NA values back into the residuals is illustrated below:

> D<-data.frame(x=c(NA,2,3,4,5,6),y=c(2.1,3.2,4.9,5,6,7),residual=NA)
> Z<-lm(y~x,data=D)
> D[names(Z$residuals),"residual"]<-Z$residuals
> D
   x   y residual
1 NA 2.1       NA
2  2 3.2    -0.28
3  3 4.9     0.55
4  4 5.0    -0.22
5  5 6.0    -0.09
6  6 7.0     0.04

If you are doing predictions based on the regression results, you may want to specify na.action=na.exclude in lm. See the help results for na.omit for a discussion. Note that simply specifying na.exclude does not actually put the NA values back into the residuals vector itself.

As noted in a prior answer, resid (synonym for residuals) provides a generic access function in which the residuals will contain the desired NA values if na.exclude was specified in lm. Using resid is probably more general and a cleaner approach. In that case, the code for the above example would be changed to:

> D<-data.frame(x=c(NA,2,3,4,5,6),y=c(2.1,3.2,4.9,5,6,7),residual=NA)
> Z<-lm(y~x,data=D,na.action=na.exclude)
> D$residuals<-residuals(Z)

Here an illustrated strategy using a slightly modified example on the lm help page. This is a direct application of the definition of residual:

## Annette Dobson (1990) "An Introduction to Generalized Linear Models".
## Page 9: Plant Weight Data.
# Two NA's introduced
weight <- c(4.17,5.58,NA,6.11,4.50,4.61,5.17,4.53,5.33,5.14,
group <- gl(2,10,20, labels=c("Ctl","Trt"))
lm.D9 <- lm(weight ~ group)
rr2 <- weight- predict(lm.D9, na.action=na.pass)
Warning message:
In weight - predict(lm.D9, na.action = na.pass) :
  longer object length is not a multiple of shorter object length
> rr2
 [1] -0.8455556  0.5644444         NA  1.0944444 -0.5155556 -0.4055556  0.1544444
 [8] -0.4855556  0.3144444  0.5044444  0.1744444 -0.4655556 -0.2255556 -1.0455556
[15]  1.2344444 -0.8055556  1.3944444         NA -0.6955556 -0.3255556

I think it would be dangerous to directly modify an lm object so that lm.D9$residual would return that result.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.