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I have a glm based on data A and I'd like to score data B to do validation, but some records in B have missing data.

Instead of these ending up without a score (na.omit) or being removed (na.exclude) I'd like them to end up with an outputted prediction that uses the model to determine a value based only on the data with values.

A reproducible example...

NAins <-  NAinsert <- function(df, prop = .1){
  n <- nrow(df)
  m <- ncol(df) <- ceiling(prop*n*m)
  id <- sample(0:(m*n-1),, replace = FALSE)
  rows <- id %/% m + 1
  cols <- id %% m + 1
  sapply(seq(, function(x){
    df[rows[x], cols[x]] <<- NA

Where I need the last line to return a result (non-NA) for all records. Can you point me in the direction of the code needed?

share|improve this question
Sounds like you need to do imputation. I think there might be packages called (??) mi/mice, or try library("sos"); findFn("imputation") – Ben Bolker Jun 5 '13 at 14:58
Will take a look now, but to be clear I don't want to impute the missing values in the predictors and then get a score - I want to use only available data and use only the relevant coefficients, which could result in a lower score but fits the requirements I've been given – Steph Locke Jun 5 '13 at 15:02
So do you want to fill in zeros for the missing data? If y=a+b*x1+c*x2 and x2 is missing, what do you want y-hat to be? a+b*x1 or something else? I would normally suggest y=a+b*x1+c*x2bar where x2bar is the mean of x2 across non-missing cases, which is a (VERY) crude form of imputation ... – Ben Bolker Jun 5 '13 at 15:17
it should be a+b*x1 – Steph Locke Jun 5 '13 at 15:18
This doesn't make any sense. You should replace $x_2$ with $\bar{x}_2$. Mean is the probabilistically weighted estimate of $x_2$. But since you actually have a generalized linear model, you really need to do the following. Suppose your prediction function is $f(x_1, x_2, \ldots, x_n)$. Then the correct prediction with missing values $x_{n_1}, x_{n_2},\ldots x_{n_k}$ is $\int \ldots \int f(x_1, x_2, \ldots, x_n) p(x_{n_1}, \ldots , x_{n_k}) dx_{n_1}\ldots dx{n_k}$, where $p$ is the probability density. Replace integral with sum and density with probability for discrete outcomes. – SMeznaric Jun 15 '14 at 10:51

1 Answer 1

up vote 2 down vote accepted

Based on the conversation in the comments, you want to replace NA values with zero before predicting. This seems dangerous/dubious to me -- use at your own risk.

naZero <- function(x) { x[] <- 0; x }
mtcarszero <- lapply(mtcarsNA,naZero)

should be what you want.

For categorical variables, if you are using default treatment contrasts, then I think the consistent thing to do is something like this:

naZero <- function(x) { if (is.numeric(x)) {
                            repVal <- 0
                        } else {
                           if (is.factor(x)) {
                               repVal <- levels(x)[1]
                           } else stop("uh-oh")
                        x[] <- repVal
                        x }
share|improve this answer
I might phrase my similar concern by saying that this is in no way "ignoring" or "not using" the missing values. You're including them but assuming they are all 0. Assuming all missing values have a value of pi wouldn't be ignoring them either. – joran Jun 5 '13 at 15:26
Great idea - elegantly simple. I have to work on it a bit for categorical variables but the concept is sound - thank you very much. – Steph Locke Jun 5 '13 at 15:27

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