I'm new to R and I'm currently trying to supply the enumeration-like argument to the R function (or the RC/R6 class method), I currently use character vector plus match.arg similar to the following:

EnumTest = function(enum = c("BLUE", "RED", "BLACK")) {
  enumArg <-
      match.arg(enum), "BLUE" = 0L, "RED" = 1L, "BLACK" = 2L
         # do something

Is there are better/more concise way to imitate enum-like behavior in R? E.g. one big problem that user has to know the set of possible values for the argument and manually type it as a string - without any suggestion or auto-completion...

If there is no other better way, one thing that could improve above approach - it'd be nice to make it more concise by say predefining enums globally or say as private members of R6 class:

Color <- c("BLUE", "RED", "BLACK")

Then one could (re)use it in one or more function definitions, e.g.:

EnumTest = function(enum = Color) { 

However, I'm not sure how to use this Color vector in match.arg function. It'd be nice if I could define Color as a map with keys being actual color values and values being integer representation - but I'm not sure how sensible that is.. Anyways, maybe there are more common neat approaches exist.

The main goal would be to provide an easy-to-use intuitive interface to the user of my package and functions (e.g. easy way to find the set of possible values, tab-completion, auto-suggestion, etc..), followed by standardized development of such functions using enum-like arguments

  • 4
    What about factors? THey are basically built-in enums – Severin Pappadeux Nov 21 '15 at 0:49
  • 1
    @SeverinPappadeux Could you please expand or provide example if possible? I've looked at factors briefly but didn't noticed how they can be better in above arguments task.. there is a huge chance that I missed something – Oleg Shirokikh Nov 21 '15 at 0:51
  • 1
    Yes, I understand this. My question is how to properly use them for argument passing... If I define say func <- function(enum = factor(c("a", "b", "c")) and user calls func(enum = "a"), then inside the function enum argument is just a character.. I'm not sure if it's even possible to get the int representation of it – Oleg Shirokikh Nov 21 '15 at 1:19
  • @OlegShirokikh and how it is worse than what you have now with array of chars? It is clearly better, factors have levels and order, and you could convert from underlying integer to string and back, etc. – Severin Pappadeux Nov 21 '15 at 1:23
  • I'm not saying that it's worse :) Just trying to understand... how to properly use them in this particular case – Oleg Shirokikh Nov 21 '15 at 1:24

How about using a function that defines the enum by returning list(a= "a", ...)? You can then either assign the returned vector to a variable and use it in context, or use the function directly. Either a name or an integer reference will work as an index, although you have to use the unlist version of the index lookup, [[, otherwise you get a list with one element.

colorEnum <- function() {
    list(BLUE = "BLUE", RED = "RED", BLACK = "BLACK")

#> [1] "BLUE"
#> [1] "BLUE"
#> $BLUE
#> [1] "BLUE"

col <- colorEnum()
#> [1] "BLUE"
#> [1] "BLUE"
#> Error in col[[5]] : subscript out of bounds

You can get the list of names for use in a match, i.e. your function parameter could be

EnumTest = function( enum = names(colorEnum()) { ...

You can actually abbreviate too, but it must be unique. (If you use RStudio, since col is a list, it will suggest completions!)

#> [1] "BLACK"

If you want more sophisticated enum handling, you could assign S3 classes to the thing returned by your enum constructor function and write a small collection of functions to dispatch on class "enum" and allow case-insensitive indexing. You could also add special functions to work with a specific class, e.g. "colorEnum"; I have not done that here. Inheritance means the list access methods all still work.

colorEnum2 <- function() {
        list(BLUE = "BLUE", RED = "RED", BLACK = "BLACK"),
        class= c("colorEnum2", "enum", "list")

# Note, changed example to allow multiple returned values.
`[.enum` <- function(x, i) {
    if ( is.character( i ))
        i <- toupper(i)
    class(x) <- "list"

`[[.enum` <- function(x, i, exact= FALSE) {
    if ( is.character( i ))
        i <- toupper(i)
    class(x) <- "list"
    as.list(x)[[i, exact=exact]]

`$.enum` <- function(x, name) {

col <- colorEnum2()
# All these return [1] "RED"

col[c("red", "BLUE")]
#> [1] "RED" "BLUE"

[1] NA   # R does not matches partial strings with "["

These override the built in [, [[ and $ functions when the thing being indexed is of class "enum", for any "enum" classed objects. If you need another one, you just need to define it.

 directionEnum <- function() {
        list(LEFT = "LEFT", RIGHT = "RIGHT"),
        class= c("directionEnum", "enum", "list")

#> [1] "LEFT"

If you need several enum objects, you could add a factory function enum that takes a vector of strings and a name and returns an enum object. Most of this is just validation.

enum <- function(enums, name= NULL) {
    if (length(enums) < 1)
        stop ("Enums may not be empty." )
    enums <- toupper(as.character(enums))
    uniqueEnums <- unique(enums)
    if ( ! identical( enums, uniqueEnums ))
        stop ("Enums must be unique (ignoring case)." )
    validNames <- make.names(enums)
    if ( ! identical( enums, validNames ))
       stop( "Enums must be valid R identifiers." )

    enumClass <- c(name, "enum", "list")
    obj <- as.list(enums)
    names(obj) <- enums
    structure( obj, class= enumClass)

col <- enum(c("BLUE", "red", "Black"), name = "TheColors")
#> [1] "RED"
#> [1] "TheColors" "enum"      "list"

side <- enum(c("left", "right"))
#> [1] "LEFT"
#> [1] "enum" "list"

But now this is starting to look like a package...


I like to use environments as replacement for enums because you can lock them to prevent any changes after creation. I define my creation function like this:

Enum <- function(...) {

  ## EDIT: use solution provided in comments to capture the arguments
  values <- sapply(match.call(expand.dots = TRUE)[-1L], deparse)

  stopifnot(identical(unique(values), values))

  res <- setNames(seq_along(values), values)
  res <- as.environment(as.list(res))
  lockEnvironment(res, bindings = TRUE)

Create a new enum like this:


We can the access the values:


But we cannot modify them or create new ones:

FRUITS$APPLE <- 99  # gives error
FRUITS$NEW <- 88  # gives error
  • 1
    You can replace your hack with this: values <- sapply(match.call(expand.dots = TRUE)[-1L], deparse) – Zelazny7 Jun 5 '18 at 0:02
  • Indeed, that is much better! Thank you for your comment. I have included your solution in the answer. – AEF Jun 5 '18 at 10:24

I just faced this exact problem and could only find this SO question. The objectProperties package mention by Paul seems abandoned (it produces several warnings) and has lots of overhead for such a simple (in principle) problem. I came up with the following lightweight solution (depends only on the stringi package), which reproduces the feel of Enums in C languages. Maybe this helps someone.

EnumTest <- function(colorEnum = ColorEnum$BLUE) {
  enumArg <- as.character(match.call()[2])
  match.arg(enumArg, stringi::stri_c("ColorEnum$", names(ColorEnum)))
  sprintf("%s: %i",enumArg,colorEnum)

ColorEnum <- list(BLUE = 0L, RED = 1L, BLACK = 2L)
  • Is this introspecting the actual invocation of the method to ensure that the integer supplied is from ColorEnum and not just a raw integer? – qwwqwwq Nov 3 '16 at 20:51

Here is a simple method which supports enums with assigned values or which use the name as the value by default:

makeEnum <- function(inputList) {
  myEnum <- as.list(inputList)
  enumNames <- names(myEnum)
  if (is.null(enumNames)) {
    names(myEnum) <- myEnum
  } else if ("" %in% enumNames) {
    stop("The inputList has some but not all names assigned. They must be all assigned or none assigned")

If you are simply trying to make a defined list of names and don't care about the values you can use like this:

colors <- makeEnum(c("red", "green", "blue"))

If you wish, you can specify the values:

hexColors <- makeEnum(c(red="#FF0000", green="#00FF00", blue="#0000FF"))

In either case it is easy to access the enum names because of code completion:

> hexColors$green
[1] "#00FF00"

To check if a variable is a value in your enum you can check like this:

> param <- hexColors$green
> param %in% hexColors

Update 07/21/2017: I have created a package for enumerations in R:


If you want to use self-defined enum-alike data types as arguments of R functions that support

  • automatic translation of enum item names to the corresponding integer values
  • code auto completion (e. g. in RStudio)
  • clear documentation in the function signature which values are allowed as actual function parameters
  • easy validation of the actual function parameter against the allowed (integer) enum item values

you can define your own match.enum.arg function, e. g.:

match.enum.arg <- function(arg, choices) {
  if (missing(choices)) {
    formal.args <- formals(sys.function(sys.parent()))
    choices <- eval(formal.args[[as.character(substitute(arg))]])

  if(identical(arg, choices))
    arg <- choices[[1]][1]    # choose the first value of the first list item

  allowed.values <- sapply(choices,function(item) {item[1]})   # extract the integer values of the enum items

  if(!is.element(arg, allowed.values))
    stop(paste("'arg' must be one of the values in the 'choices' list:", paste(allowed.values, collapse = ", ")))



You can then define and use your own enums like this:

ColorEnum <- list(BLUE = 1L, RED = 2L, BLACK = 3L)

color2code = function(enum = ColorEnum) { 
  i <- match.enum.arg(enum)

Example calls:

> color2code(ColorEnum$RED) # use a value from the enum (with auto completion support)
[1] 2
> color2code()              # takes the first color of the ColorEnum
[1] 1
> color2code(3)             # an integer enum value (dirty, just for demonstration)
[1] 3
> color2code(4)             # an invalid number
Error in match.enum.arg(enum) : 
  'arg' must be one of the values in the 'choices' list: 1, 2, 3 
  • 1
    What I don't understand is why do this at all? How does a python like enum differ in practice from an R factor? They seem like they're the same, though I'm sure I'm missing something. – Ben G Sep 20 '19 at 16:45
  • @BenG R has no such thing like an "enum", only factors which offer numeric to string translations and other simple things. If you want to know more about the differences I suggest you open a new question (if non already exists for this topic) to avoid "highjacking" this question. BTW: For a good spec on Python enums see the PEP document: python.org/dev/peps/pep-0435 – R Yoda Sep 26 '19 at 16:31

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.