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I have a pretty simply logistic regression model based solely on two categorical predictors in Race and Sex. Firstly, since I have some missing values, to make sure all the missing data comes in as NA, I import the data frame using the following:

> mydata <- read.csv("~/Desktop/R/mydata.csv", sep=",", strip.white = TRUE,
+                    na.strings= c("999", "NA", " ", ""))

Here's the summary of the predictors to see how many NAs there are:

> # Define variables 
> Y <- cbind(Support)
> X <- cbind(Race, Sex)
> summary(X) 
      Race               Sex          
 Min.   :1.000000   Min.   :1.000000  
 1st Qu.:1.000000   1st Qu.:1.000000  
 Median :2.000000   Median :1.000000  
 Mean   :1.608696   Mean   :1.318245  
 3rd Qu.:2.000000   3rd Qu.:2.000000  
 Max.   :3.000000   Max.   :3.000000  
 NA's   :420        NA's   :42 

The model seems to do what it's supposed to with no problems due to the missing values:

> # Logit model coefficients 
> logit<- glm(Y ~ X, family=binomial (link = "logit")) 
> summary(logit) 

glm(formula = Y ~ X, family = binomial(link = "logit"))

Deviance Residuals: 
       Min          1Q      Median          3Q         Max  
-2.0826825  -1.0911146   0.6473451   1.0190080   1.7457212  

              Estimate Std. Error  z value   Pr(>|z|)    
(Intercept)  1.3457629  0.2884629  4.66529 3.0818e-06 ***
XRace       -1.0716191  0.1339177 -8.00207 1.2235e-15 ***
XSex         0.5910812  0.1420270  4.16175 3.1581e-05 ***
Signif. codes:  0 ‘***’ 0.001 ‘**’ 0.01 ‘*’ 0.05 ‘.’ 0.1 ‘ ’ 1

(Dispersion parameter for binomial family taken to be 1)

    Null deviance: 1434.5361  on 1057  degrees of freedom
Residual deviance: 1347.5684  on 1055  degrees of freedom
  (420 observations deleted due to missingness)
AIC: 1353.5684

Number of Fisher Scoring iterations: 4

Question 1: When I don't have any NAs, this code seems to work well. But I get an error message whenever there are missing values. Is there a way to still see how many correctly predicted values I have, regardless of missing data or not?

> table(true = Y, pred = round(fitted(logit))) 
Error in table(true = Y, pred = round(fitted(logit))) : 
all arguments must have the same length

Edit: After adding na.action = na.exclude to the model definition, the table now works perfectly:


true   0    1

  0   259  178 

  1   208  413

Something that does still work, regardless of missing data, is loading the predictions onto the original data frame when I use this code. It correctly adds a 'pred' column at the end of the data frame with each row's probability (and simply adds an NA instead if one of the predictors does not exist):

> predictions = cbind(mydata, pred = predict(logit, newdata = mydata, type = "response"))
> write.csv(predictions, "~/Desktop/R/predictions.csv", row.names = F)

Question 2: However, when I try to predict into a new data frame -- even though it has the same variables of interest -- it seems like something about the missing values cause an error message as well. Is there code to get around this, or am I doing something incorrectly?

> newpredictions = cbind(newdata, pred = predict(logit, newdata = newdata, type = "response"))
Error in data.frame(..., check.names = FALSE) : 
  arguments imply differing number of rows: 1475, 1478
In addition: Warning message:
'newdata' had 1475 rows but variables found have 1478 rows 

As you can see above, the number of rows in mydata is 1,478 and the number of rows in newdata is 1,475.

Thanks for the help!

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1 Answer 1

up vote 2 down vote accepted

If you have missing data, NAs, R will strip these when the modelling functions does formula -> model.frame -> model.matrix() etc., because the default in all these functions is to have na.action = na.omit. In other words, rows with NAs are deleted before the actual computations are performed. This deletion propagates through to the fitted values, residuals etc that are accessed from the model object

Realising this is an issue, R has other na.action functions, including na.exclude(). Hence if you add

na.action = na.exclude

to your call to glm(), fitted(), resid(), etc would return as many fitted values as you have rows in your put data.

You do seem to be going about modelling in a peculiar way. Why are you creating X and Y, presumably from your mydata object? It would be far better to do

mod <- glm(Support ~ Race + Sex, data = mydata family = binomial,
           na.action = na.exclude)

where now instead of the anonymous X and Y we have variables that mean something, and you haven't had to create duplicate data.

share|improve this answer
Thanks so much! Three things: (1) Adding na.action = na.exclude totally solved my first question, so now my table works perfectly. I'll edit my question above to reflect that. (2) Though it doesn't fix my second question outright for predicting newdata. Is that because the newdata data frame has NAs still? (3) Finally, I use generic X and Y with mydata, etc., so I can easily type in new variables at the top of my script and have everything easily change below. Should I avoid this? Thanks again! –  Ryan Apr 21 '14 at 23:21
It's difficult to tell until you edit the question and show what is failing. As for 3) your approach is going to cause more problems than it is worth - you will have to work against a lot of R's modelling conveniences, so good luck to you... in other words, avoid this. It also sounds a lot like data dredging. –  Gavin Simpson Apr 21 '14 at 23:27
I think 2) arises because you don't have variables named X in newdata. Is this the case? –  Gavin Simpson Apr 21 '14 at 23:30
Ah, you're absolutely right. Exactly what you were just warning me about coming back to bite me. Seems to work now -- thanks a lot! –  Ryan Apr 21 '14 at 23:39

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