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I have three data matrices MatZ, MatX, and MatY, where each column of matrix Z, Y, X corresponds to a set of observations for the same expression probe. For every column i, I want to regress Z against X and Y, i.e.


by looping over all i columns. The problem with this is that some columns of MatX are all NA's. Therefore, I need some argument in lm that performs a linear regression of MatZ[,i] just against MatY[,i] when all elements of MatX[,i] are NA (i.e. leaving MatX[,i] out of the regression), while using both in the linear model when there are defined observations for X. As it stands, I get an error 0 (non-NA) cases in the lm call.

share|improve this question
I'm concerned that you are seem to be using lm.fit via a formula interface, and also that you seem to be unaware of the na.action argument to lm. Can you explain a bit? – joran Jun 10 '13 at 21:43
na.action=na.omit resolves the problem as long as some elements in the column are not na. If the entire column consists of na's, then the error message listed above appears. So basically, I need lm to ignore one of the predictor variables entirely in this instance. – user1815498 Jun 10 '13 at 21:50
Ok, but that doesn't explain why you're attempting to use lm.fit via a formula when it does not support formulas. Or why you're using lm.fit at all, really. – joran Jun 10 '13 at 21:51
Unfortunately, I was confusing two different function, I meant to just have lm – user1815498 Jun 10 '13 at 21:56

Here's a solution without using if. This combines the two predictor columns into a single matrix, and then only selects those columns that aren't all NA.

lapply(seq_len(ncol(MatZ)), function(i) {
    m <- cbind(MatX[, i], MatY[, i])
    keep <- colSums(matrix(!is.na(m), ncol=2)) > 0
    lm(MatZ[, i] ~ m[, keep])
share|improve this answer
MatZ <- matrix(rnorm(1000),nrow=100)
MatX <- matrix(rnorm(1000),nrow=100)
MatY <- matrix(rnorm(1000),nrow=100)

MatX[,2] <- NA
MatY[,4] <- NA

condlm <- function(i){
        lm <- lm(MatZ[,i]~MatY[,i])
    else if(sum(is.na(MatY[,i]))==dim(MatZ)[1])
        lm <- lm(MatZ[,i]~MatX[,i])
        lm <- lm(MatZ[,i]~MatX[,i]+MatY[,i])

lms <- lapply(1:dim(MatZ)[2], condlm)
share|improve this answer
Thanks. I was hoping that there would be some argument within the lm function that would automatically skip over missing variables, so that I could avoid doing this via if-else. – user1815498 Jun 10 '13 at 22:13
I'm not sure why that would exist. It should remove variables due to colinearity, so you could preprocess your data by replacing anything that's a column of NAs with a column of 1s, but that will give you basically the same result and use about the same amount of code. – Thomas Jun 11 '13 at 6:39

Here is a non-robust alternate solution via mapply as a start (works if 1 of the matrices is incomplete). I too think there's no harm in if () else, however.

MatW <- matrix(rnorm(16),nrow=4)
MatY <- matrix(rnorm(16),nrow=4)
MatZ <- matrix(rnorm(16),nrow=4)
MatW[ , 3] <- NA
is.na(MatW[ ,3]) # True
lm.help2 <- function (x, y, z){
  if (is.na(all(x))) lm(z ~ y)[1] else lm(z ~ x + y)[1]}
       split(MatW, col(MatW)), split(MatY, row(MatY)), split(MatZ, row(MatZ)))
# $`1.coefficients`
# (Intercept)           x           y 
# 0.5736469  -0.4142749  -0.6161875 
# $`2.coefficients`
# (Intercept)           x           y 
# -0.3755538   0.1491310  -1.0966652 
# $`3.coefficients` 
# (Intercept)           y # Only 1 variable in regression equation!
# 0.6374279  -0.8962027 
# $`4.coefficients`
# (Intercept)           x           y 
# -1.1016562  -0.7240938  -0.5976613 
share|improve this answer
... what happens if x is fine, but y is all NA? – Hong Ooi Jun 12 '13 at 13:47

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