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In statistical language R, mean() and median() are standard functions which do what you'd expect. mode() tells you the internal storage mode of the R object, not the value that occurs the most in its argument. But surely there is a standard library function that implements mode for a vector (or list).

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You need to clarify whether your data is integer, numeric, factor...? Mode estimation for numerics will be different, and uses intervals. See modeest –  smci May 10 '12 at 23:56

16 Answers 16

up vote 61 down vote accepted

One more solution, which works for both numeric & character/factor data:

Mode <- function(x) {
  ux <- unique(x)
  ux[which.max(tabulate(match(x, ux)))]

On my dinky little machine, that can generate & find the mode of a 10M-integer vector in about half a second.

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Also works for logicals! Preserves data type for all types of vectors (unlike some implementations in other answers). –  DavidC Dec 18 '13 at 19:09
This does not return all the modes in case of multi-modal dataset (e.g. c(1,1,2,2)). You should change your last line with : tab <- tabulate(match(x, ux)); ux[tab == max(tab)] –  digEmAll Oct 12 at 13:21

There is package modeest which provide estimators of the mode of univariate unimodal (and sometimes multimodal) data and values of the modes of usual probability distributions.

mySamples <- c(19, 4, 5, 7, 29, 19, 29, 13, 25, 19)

mlv(mySamples, method = "mfv")

Mode (most likely value): 19 
Bickel's modal skewness: -0.1 
Call: mlv.default(x = mySamples, method = "mfv")

For more information see this page

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So to just get the mode value, mfv(mySamples)[1]. The 1 being important as it actually returns the most frequent values. –  atomicules Sep 20 '11 at 13:05

found this on the r mailing list, hope it's helpful. It is also what I was thinking anyways. You'll want to table() the data, sort and then pick the first name. It's hackish but should work.

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That's a clever work around as well. It has a few drawbacks: the sort algorithm can be more space and time consuming than max() based approaches (=> to be avoided for bigger sample lists). Also the ouput is of mode (pardon the pun/ambiguity) "character" not "numeric". And, of course, the need to test for multi-modal distribution would typically require the storing of the sorted table to avoid crunching it anew. –  mjv Mar 30 '10 at 19:02

Here, another solution:

freq <- tapply(mySamples,mySamples,length)
#or freq <- table(mySamples)
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You can replace the first line with table. –  Jonathan Chang Mar 30 '10 at 21:32
I was thinking that 'tapply' is more efficient than 'table', but they both use a for loop. I think the solution with table is equivalent. I update the answer. –  teucer Mar 31 '10 at 6:44

A quick and dirty way of estimating the mode of a vector of numbers you believe come from a continous univariate distribution (e.g. a normal distribution) is defining and using the following function:

estimate_mode <- function(x) {
  d <- density(x)

Then to get the mode estimate:

x <- c(5.8, 5.6, 6.2, 4.1, 4.9, 2.4, 3.9, 1.8, 5.7, 3.2)
## 5.439788
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Just a note on this one: you can get a "mode" of any group of continuous numbers this way. The data don't need to come from a normal distribution to work. Here is an example taking numbers from a uniform distribution. set.seed(1); a<-runif(100); mode<-density(a)$x[which.max(density(a)$y)]; abline(v=mode) –  Frank Jan 22 at 4:36

I can't vote yet but Rasmus Bååth's answer is what I was looking for. However, I would modify it a bit allowing to contrain the distribution for example fro values only between 0 and 1.

estimate_mode <- function(x,from=min(x), to=max(x)) {
  d <- density(x, from=from, to=to)

We aware that you may not want to constrain at all your distribution, then set from=-"BIG NUMBER", to="BIG NUMBER"

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The following function comes in three forms:

method = "mode" [default]: calculates the mode for a unimodal vector, else returns an NA
method = "nmodes": calculates the number of modes in the vector
method = "modes": lists all the modes for a unimodal or polymodal vector

modeav <- function (x, method = "mode", na.rm = FALSE)
    x <- unlist(x)
    if (na.rm)
    x <- x[!is.na(x)]
    u <- unique(x)
    n <- length(u)
#get frequencies of each of the unique values in the vector
    frequencies <- rep(0, n)
    for (i in seq_len(n)) {
        if (is.na(u[i])) {
            frequencies[i] <- sum(is.na(x))
        else {
            frequencies[i] <- sum(x == u[i], na.rm = TRUE)
#mode if a unimodal vector, else NA
    if (method == "mode" | is.na(method) | method == "")
#number of modes
    if (method == "modes" | method == "modevalues")
#list of all modes
    if(method == "nmode" | method == "nmodes")
        {return(u[which(frequencies==max(frequencies), arr.ind = FALSE, useNames = FALSE)])}
#error trap the method
    warning("Warning: method not recognised.  Valid methods are 'mode' [default], 'nmodes' and 'modes'")
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In your description of this functions you swapped "modes" and "nmodes". See the code. Actually, "nmodes" returns vector of values and "modes" returns number of modes. Nevethless your function is the very best soultion to find modes I've seen so far. –  Grzegorz Adam Kowalski May 8 at 18:23

I've written the following code in order to generate the mode.

MODE <- function(dataframe){
    DF <- as.data.frame(dataframe)

    MODE2 <- function(x){      
        if (is.numeric(x) == FALSE){
            df <- as.data.frame(table(x))  
            df <- df[order(df$Freq), ]         
            m <- max(df$Freq)        
            MODE1 <- as.vector(as.character(subset(df, Freq == m)[, 1]))

            if (sum(df$Freq)/length(df$Freq)==1){
                warning("No Mode: Frequency of all values is 1", call. = FALSE)

            df <- as.data.frame(table(x))  
            df <- df[order(df$Freq), ]         
            m <- max(df$Freq)        
            MODE1 <- as.vector(as.numeric(as.character(subset(df, Freq == m)[, 1])))

            if (sum(df$Freq)/length(df$Freq)==1){
                warning("No Mode: Frequency of all values is 1", call. = FALSE)

    return(as.vector(lapply(DF, MODE2)))

Let's try it:

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R has so many add-on packages that some of them may well provide the [statistical] mode of a numeric list/series/vector.

However the standard library of R itself doesn't seem to have such a built-in method! One way to work around this is to use some construct like the following (and to turn this to a function if you use often...):

mySamples <- c(19, 4, 5, 7, 29, 19, 29, 13, 25, 19)
SmplMode<-which(tabSmpl== max(tabSmpl))
if(sum(tabSmpl == max(tabSmpl))>1) SmplMode<-NA
> SmplMode
[1] 19

For bigger sample list, one should consider using a temporary variable for the max(tabSmpl) value (I don't know that R would automatically optimize this)

Reference: see "How about median and mode?" in this KickStarting R lesson
This seems to confirm that (at least as of the writing of this lesson) there isn't a mode function in R (well... mode() as you found out is used for asserting the type of variables).

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This works pretty fine

> a<-c(1,1,2,2,3,3,4,4,5)
> names(table(a))[table(a)==max(table(a))]
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I would use the density() function to identify a smoothed maximum of a (possibly continuous) distribution :

function(x) density(x, 2)$x[density(x, 2)$y == max(density(x, 2)$y)]

where x is the data collection. Pay attention to the adjust paremeter of the density function which regulate the smoothing.

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Another simple option that gives all values ordered by frequency is to use rle:

df = as.data.frame(unclass(rle(sort(mySamples))))
df = df[order(-df$lengths),]
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Sorry, I might take it too simple, but doesn't this do the job? (in 1.3 secs for 1E6 values on my machine):

t0 <- Sys.time()
summary(as.factor(round(rnorm(1e6), 2)))[1]

You just have to replace the "round(rnorm(1e6),2)" with your vector.

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You could also calculate the number of times an instance has happened in your set and find the max number. e.g.

> temp <- table(as.vector(x))
> names (temp)[temp==max(temp)]
[1] "1"
> as.data.frame(table(x))
r5050 Freq
1     0   13
2     1   15
3     2    6
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I found Ken Williams post above to be great, I added a few lines to account for NA values and made it a function for ease.

Mode <- function(x, na.rm = FALSE) {
    x = subset(x, !is.na(x))

  ux <- unique(x)
  return(ux[which.max(tabulate(match(x, ux)))])
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Could try the following function:

  1. transform numeric values into factor
  2. use summary() to gain the frequency table
  3. return mode the index whose frequency is the largest
  4. transform factor back to numeric even there are more than 1 mode, this function works well!
mode <- function(x){
  y <- as.factor(x)
  freq <- summary(y)
  mode <- names(freq)[freq[names(freq)] == max(freq)]
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