I used caret for logistic regression in R:

  ctrl <- trainControl(method = "repeatedcv", number = 10, repeats = 10, 
                       savePredictions = TRUE)

  mod_fit <- train(Y ~ .,  data=df, method="glm", family="binomial",
                   trControl = ctrl)


The default metric printed is accuracy and Cohen kappa. I want to extract the matching metrics like sensitivity, specificity, positive predictive value etc. but I cannot find an easy way to do it. The final model is provided but it is trained on all the data (as far as I can tell from documentation), so I cannot use it for predicting anew.

Confusion matrix calculates all required parameters, but passing it as a summary function doesn't work:

  ctrl <- trainControl(method = "repeatedcv", number = 10, repeats = 10, 
                       savePredictions = TRUE, summaryFunction = confusionMatrix)

  mod_fit <- train(Y ~ .,  data=df, method="glm", family="binomial",
                   trControl = ctrl)

Error: `data` and `reference` should be factors with the same levels. 
stop("`data` and `reference` should be factors with the same levels.", 
    call. = FALSE) 
confusionMatrix.default(testOutput, lev, method) 
ctrl$summaryFunction(testOutput, lev, method) 

Is there a way to extract this information in addition to accuracy and kappa, or somehow find it in the train_object returned by the caret train?

Thanks in advance!

  • Hello Cindy. Are you splitting your data into training and test groups before using caret::train()? – Len Greski Oct 7 '18 at 22:55
  • No, I am not. I assumed that caret does it for me when I specify cross-validation. Is that not correct? – Cindy Almighty Oct 8 '18 at 7:16

Caret already has summary functions to output all the metrics you mention:

defaultSummary outputs Accuracy and Kappa
twoClassSummary outputs AUC (area under the ROC curve - see last line of answer), sensitivity and specificity
prSummary outputs precision and recall

in order to get combined metrics you can write your own summary function which combines the outputs of these three:

MySummary  <- function(data, lev = NULL, model = NULL){
  a1 <- defaultSummary(data, lev, model)
  b1 <- twoClassSummary(data, lev, model)
  c1 <- prSummary(data, lev, model)
  out <- c(a1, b1, c1)

lets try on the Sonar data set:


when defining the train control it is important to set classProbs = TRUE since some of these metrics (ROC and prAUC) can not be calculated based on predicted class but based on the predicted probabilities.

ctrl <- trainControl(method = "repeatedcv",
                     number = 10,
                     savePredictions = TRUE,
                     summaryFunction = MySummary,
                     classProbs = TRUE)

Now fit the model of your choice:

mod_fit <- train(Class ~.,
                 data = Sonar,
                 method = "rf",
                 trControl = ctrl)

  mtry  Accuracy     Kappa       ROC      Sens      Spec       AUC Precision    Recall         F AccuracySD   KappaSD
1    2 0.8364069 0.6666364 0.9454798 0.9280303 0.7333333 0.8683726 0.8121087 0.9280303 0.8621526 0.10570484 0.2162077
2   31 0.8179870 0.6307880 0.9208081 0.8840909 0.7411111 0.8450612 0.8074942 0.8840909 0.8374326 0.06076222 0.1221844
3   60 0.8034632 0.6017979 0.9049242 0.8659091 0.7311111 0.8332068 0.7966889 0.8659091 0.8229330 0.06795824 0.1369086
       ROCSD     SensSD    SpecSD      AUCSD PrecisionSD   RecallSD        FSD
1 0.04393947 0.05727927 0.1948585 0.03410854  0.12717667 0.05727927 0.08482963
2 0.04995650 0.11053858 0.1398657 0.04694993  0.09075782 0.11053858 0.05772388
3 0.04965178 0.12047598 0.1387580 0.04820979  0.08951728 0.12047598 0.06715206

in this output ROC is in fact the area under the ROC curve - usually called AUC
and AUC is the area under the precision-recall curve across all cutoffs.

| improve this answer | |
  • Thanks for an excellent answer. Which of these can not be calculated based on predicted class but based on the predicted probabilities? – Cindy Almighty Oct 8 '18 at 9:13
  • Glad to help. ROC and prAUC require probabilities since they are measures that take into account all possible decision thresholds and not just the 0.5 mark which is usually used. Therefore they are much better measures of model performance when you are dealing with unbalanced classes. – missuse Oct 8 '18 at 9:19
  • Perfect! In trying to fix this I got an error: Error: At least one of the class levels is not a valid R variable name; This will cause errors when class probabilities are generated because the variables names will be converted to X0, X1 . Please use factor levels that can be used as valid R variable names (see ?make.names for help). I suppose this is due to my "0" and "1" factor naming for most variables. Is there an easy way around this? This is only a problem when classprobs = True – Cindy Almighty Oct 8 '18 at 9:46
  • Convert class level names to words and not numbers prior training - for instance zero and one instead of 0 and 1. class <- ifelse(class == "0", "zero", "one). It should work after that. – missuse Oct 8 '18 at 10:05
  • Can you show how to write the custom function MySummary? If I have data=htn_data, Class=affirmatory and Class=negatory and model=rf_model how do I utilize the function? I tried MySummary(htn_data, htn_data$Class, rf_model) only to get the undefined columns selected error message. – PleaseHelp May 16 at 19:44

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.