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Consider a simple dataset, split into a training and testing set:

dat <- data.frame(x=1:5, y=c("a", "b", "c", "d", "e"), z=c(0, 0, 1, 0, 1))
train <- dat[1:4,]
#   x y z
# 1 1 a 0
# 2 2 b 0
# 3 3 c 1
# 4 4 d 0
test <- dat[5,]
#   x y z
# 5 5 e 1

When I train a logistic regression model to predict z using x and obtain test-set predictions, all is well:

mod <- glm(z~x, data=train, family="binomial")
predict(mod, newdata=test, type="response")
#         5 
# 0.5546394 

However, this fails on an equivalent-looking logistic regression model with a "Factor has new levels" error:

mod2 <- glm(z~.-y, data=train, family="binomial")
predict(mod2, newdata=test, type="response")
# Error in model.frame.default(Terms, newdata, na.action = na.action, xlev = object$xlevels) : 
#   factor y has new level e

Since I removed y from my model equation, I'm surprised to see this error message. In my application, dat is very wide, so z~.-y is the most convenient model specification. The simplest workaround I can think of is removing the y variable from my data frame and then training the model with the z~. syntax, but I was hoping for a way to use the original dataset without the need to remove columns.

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1 Answer 1

up vote 12 down vote accepted

You could try updating mod2$xlevels[["y"]] in the model object

mod2 <- glm(z~.-y, data=train, family="binomial")
mod2$xlevels[["y"]] <- union(mod2$xlevels[["y"]], levels(test$y))

predict(mod2, newdata=test, type="response")
#        5 

Another option would be to exclude (but not remove) "y" from the training data

mod2 <- glm(z~., data=train[,!colnames(train) %in% c("y")], family="binomial")
predict(mod2, newdata=test, type="response")
#        5 
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These are both good options -- thanks! The behavior described in the post almost seems like a bug (I don't see why I should have to remove y from my dataframe with the second model specification), but these are sensible workarounds. –  josilber Mar 11 '14 at 14:26
If you run debug on glm you can see where it's creating the model terms mt <- attr(mf, "terms"). I think y is being treated as if it's in the model because when you use z~.-y the formula expands to z ~ (x + y) - y, so y is technically in the model, but I don't have any other insight (just a work around :)) –  matt_k Mar 12 '14 at 2:53

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