In R, mean()
and median()
are standard functions which do what you'd expect. mode()
tells you the internal storage mode of the object, not the value that occurs the most in its argument. But is there is a standard library function that implements the statistical mode for a vector (or list)?
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 10Minteger vector in about half a second.
If your data set might have multiple modes, the above solution takes the same approach as which.max
, and returns the firstappearing value of the set of modes. To return all modes, use this variant (from @digEmAll in the comments):
Modes < function(x) {
ux < unique(x)
tab < tabulate(match(x, ux))
ux[tab == max(tab)]
}

5Also works for logicals! Preserves data type for all types of vectors (unlike some implementations in other answers). – DavidC Dec 18 '13 at 19:09

35This does not return all the modes in case of multimodal 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 '14 at 13:21 
6@verybadatthis For that, you would replace
ux[which.max(tabulate(match(x, ux)))]
with justmax(tabulate(match(x, ux)))
. – Ken Williams Apr 17 '15 at 12:28 
4You note that
Mode(1:3)
gives1
andMode(3:1)
gives3
, so Mode returns the most frequent element or the first one if all of them are unique. – Enrique Pérez Herrero Aug 2 '16 at 18:45 
2As Enrique said: This fails when there is no mode, and instead give you the impression that the first value is the mode. Would have been far better if it returned
0
or atNA
in those cases. – not2qubit Sep 11 '18 at 16:10
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)
library(modeest)
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

7So to just get the mode value,
mfv(mySamples)[1]
. The1
being important as it actually returns the most frequent values. – atomicules Sep 20 '11 at 13:05 
it does not seem to work in this example: library(modeest) a < rnorm( 50, 30, 2 ) b < rnorm( 100, 35, 2 ) c < rnorm( 20, 37, 2 ) temperatureºC < c( a, b, c ) hist(temperatureºC) #mean abline(v=mean(temperatureºC),col="red",lwd=2) #median abline(v=median(temperatureºC),col="black",lwd=2) #mode abline(v=mlv(temperatureºC, method = "mfv")[1],col="orange",lwd=2) – Agus camacho Sep 30 '16 at 18:34

1@atomicules: with [1] you get only the first mode. For bimodal or general nmodal distribution you would need just
mfv(mySamples)
– petzi Jun 11 '18 at 12:49
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.
names(sort(table(x)))[1]

6That'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 multimodal distribution would typically require the storing of the sorted table to avoid crunching it anew. – mjv Mar 30 '10 at 19:02

1I measured running time with a factor of 1e6 elements and this solution was faster than the accepted answer by almost factor 3! – vonjd Jun 6 '16 at 10:34

I just converted it into number using as.numeric(). Works perfectly fine. Thank you! – Abhishek Singh May 24 '17 at 5:30
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) {
if(na.rm){
x = x[!is.na(x)]
}
ux < unique(x)
return(ux[which.max(tabulate(match(x, ux)))])
}
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)
d$x[which.max(d$y)]
}
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)
estimate_mode(x)
## 5.439788

3Just 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)
– Jota Jan 22 '14 at 4:36 
error in density.default(x, from = from, to = to) : need at least 2 points to select a bandwidth automatically
– Sergio Feb 10 '16 at 4:47 
@xhie That error message tells you everything you need to know. If you just have one point you need to set the bandwidth manually when calling
density
. However, if you just have one datapoint then the value of that datapoint will probably be your best guess for the mode anyway... – Rasmus Bååth Feb 10 '16 at 11:18 
You are right, but i added just one tweak:
estimate_mode < function(x) { if (length(x)>1){ d < density(x) d$x[which.max(d$y)] }else{ x } }
I'm testing the method to estimate predominant direction wind, instead of mean of direction using vectorial average with circular package. I', working with points over a polygon grade, so , sometimes there is only one point with direction. Thanks! – Sergio Feb 10 '16 at 19:10 
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 == "")
{return(ifelse(length(frequencies[frequencies==max(frequencies)])>1,NA,u[which.max(frequencies)]))}
#number of modes
if(method == "nmode"  method == "nmodes")
{return(length(frequencies[frequencies==max(frequencies)]))}
#list of all modes
if (method == "modes"  method == "modevalues")
{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'")
return()
}

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 '14 at 18:23

Many thanks for the comment. "nmode" and "modes" should now behave as expected. – Chris Mar 11 '15 at 14:36

Your function works almost, except when each value occurs equally often using
method = 'modes'
. Then the function returns all unique values, however actually there is no mode so it should returnNA
instead. I'll add another answer containing a slightly optimised version of your function, thanks for the inspiration! – hugovdberg Jun 29 '16 at 10:34 
The only time a nonempty numeric vector should normally generate an NA with this function is when using the default method on a polymodal vector. The mode of a simple sequence of numbers such as 1,2,3,4 is actually all of those numbers in the sequence, so for similar sequences "modes" is behaving as expected. e.g. modeave(c(1,2,3,4), method = "modes") returns [1] 1 2 3 4 Regardless of this, I'd be very interested to see the function optimised as it's fairly resource intensive in its current state – Chris Jul 1 '16 at 10:53

For a more efficient version of this function, see @hugovdberg's post above :) – Chris Jul 4 '16 at 15:52
Here, another solution:
freq < tapply(mySamples,mySamples,length)
#or freq < table(mySamples)
as.numeric(names(freq)[which.max(freq)])


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
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)
d$x[which.max(d$y)]
}
We aware that you may not want to constrain at all your distribution, then set from="BIG NUMBER", to="BIG NUMBER"

error in density.default(x, from = from, to = to) : need at least 2 points to select a bandwidth automatically
– Sergio Feb 10 '16 at 4:47 
A small modification to Ken Williams' answer, adding optional params na.rm
and return_multiple
.
Unlike the answers relying on names()
, this answer maintains the data type of x
in the returned value(s).
stat_mode < function(x, return_multiple = TRUE, na.rm = FALSE) {
if(na.rm){
x < na.omit(x)
}
ux < unique(x)
freq < tabulate(match(x, ux))
mode_loc < if(return_multiple) which(freq==max(freq)) else which.max(freq)
return(ux[mode_loc])
}
To show it works with the optional params and maintains data type:
foo < c(2L, 2L, 3L, 4L, 4L, 5L, NA, NA)
bar < c('mouse','mouse','dog','cat','cat','bird',NA,NA)
str(stat_mode(foo)) # int [1:3] 2 4 NA
str(stat_mode(bar)) # chr [1:3] "mouse" "cat" NA
str(stat_mode(bar, na.rm=T)) # chr [1:2] "mouse" "cat"
str(stat_mode(bar, return_mult=F, na.rm=T)) # chr "mouse"
Thanks to @Frank for simplification.
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)
}else{
return(MODE1)
}
}else{
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)
}else{
return(MODE1)
}
}
}
return(as.vector(lapply(DF, MODE2)))
}
Let's try it:
MODE(mtcars)
MODE(CO2)
MODE(ToothGrowth)
MODE(InsectSprays)
This hack should work fine. Gives you the value as well as the count of mode:
Mode < function(x){
a = table(x) # x is a vector
return(a[which.max(a)])
}
Based on @Chris's function to calculate the mode or related metrics, however using Ken Williams's method to calculate frequencies. This one provides a fix for the case of no modes at all (all elements equally frequent), and some more readable method
names.
Mode < function(x, method = "one", na.rm = FALSE) {
x < unlist(x)
if (na.rm) {
x < x[!is.na(x)]
}
# Get unique values
ux < unique(x)
n < length(ux)
# Get frequencies of all unique values
frequencies < tabulate(match(x, ux))
modes < frequencies == max(frequencies)
# Determine number of modes
nmodes < sum(modes)
nmodes < ifelse(nmodes==n, 0L, nmodes)
if (method %in% c("one", "mode", "")  is.na(method)) {
# Return NA if not exactly one mode, else return the mode
if (nmodes != 1) {
return(NA)
} else {
return(ux[which(modes)])
}
} else if (method %in% c("n", "nmodes")) {
# Return the number of modes
return(nmodes)
} else if (method %in% c("all", "modes")) {
# Return NA if no modes exist, else return all modes
if (nmodes > 0) {
return(ux[which(modes)])
} else {
return(NA)
}
}
warning("Warning: method not recognised. Valid methods are 'one'/'mode' [default], 'n'/'nmodes' and 'all'/'modes'")
}
Since it uses Ken's method to calculate frequencies the performance is also optimised, using AkselA's post I benchmarked some of the previous answers as to show how my function is close to Ken's in performance, with the conditionals for the various ouput options causing only minor overhead:

The code you present appears to be a more or less straight copy of the
Mode
function found in thepracma
package. Care to explain? – AkselA Jul 3 '16 at 19:04 
Really? Apparently I'm not the only one to think this is a good way to calculate the Mode, but I honestly didn't know that (never knew that package before just now). I cleaned up Chris's function and improved on it by leveraging Ken's version, and if it resembles someone else's code that is purely coincidental. – hugovdberg Jul 3 '16 at 19:09

I looked into it just now, but which version of the
pracma
package do you refer to? Version 1.9.3 has a completely different implementation as far as I can see. – hugovdberg Jul 3 '16 at 19:17 
2Nice amendment to the function. After some further reading, I'm led to the conclusion that there is no consensus on whether uniform or monofrequency distributions have nodes, some sources saying that the list of modes are the distributions themselves, others that the there is no node. The only agreement is that producing a list of modes for such distributions is neither very informative nor particularly meaningful. IF you wish the above function to produce modes such cases then remove the line: nmodes < ifelse(nmodes==n, 0L, nmodes) – Chris Jul 4 '16 at 15:49

1@greendiod sorry, I missed your comment. It is available through this gist: gist.github.com/Hugovdberg/0f00444d46efd99ed27bbe227bdc4d37 – hugovdberg May 12 '17 at 20:40
R has so many addon 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 builtin 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)
tabSmpl<tabulate(mySamples)
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).
This works pretty fine
> a<c(1,1,2,2,3,3,4,4,5)
> names(table(a))[table(a)==max(table(a))]
Here is a function to find the mode:
mode < function(x) {
unique_val < unique(x)
counts < vector()
for (i in 1:length(unique_val)) {
counts[i] < length(which(x==unique_val[i]))
}
position < c(which(counts==max(counts)))
if (mean(counts)==max(counts))
mode_x < 'Mode does not exist'
else
mode_x < unique_val[position]
return(mode_x)
}
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.
While I like Ken Williams simple function, I would like to retrieve the multiple modes if they exist. With that in mind, I use the following function which returns a list of the modes if multiple or the single.
rmode < function(x) {
x < sort(x)
u < unique(x)
y < lapply(u, function(y) length(x[x==y]))
u[which( unlist(y) == max(unlist(y)) )]
}

It would be more consistent for programmatic use if it always returned a list  of length 1 if there is only one mode – antoinesac Apr 19 '16 at 11:47

That's a valid point @antoinesac. What I like about this solution is the vector that is returned leaves the answers easily addressable. Simply address the output of the function: r < mode( c(2, 2, 3, 3)) with the modes available at r[1] and r[2]. Still, you do make a good point!! – RandallShanePhD Jun 8 '16 at 2:00

Precisely, this is where your solution falls short. If
mode
returns a list with several values, then r[1] is not the first value ; it is instead a list of length 1 containing the first value and you have to do r[[1]] to get the first mode as a numeric and not a list. Now when there is a single mode, your r is not a list so r[1] works, which is why I thought it was inconsistent. But since r[[1]] also works when r is a simple vector, there is actually a consistency i hadn't realised in that you can always use[[
to access elements. – antoinesac Jun 8 '16 at 8:35
I was looking through all these options and started to wonder about their relative features and performances, so I did some tests. In case anyone else are curious about the same, I'm sharing my results here.
Not wanting to bother about all the functions posted here, I chose to focus on a sample based on a few criteria: the function should work on both character, factor, logical and numeric vectors, it should deal with NAs and other problematic values appropriately, and output should be 'sensible', i.e. no numerics as character or other such silliness.
I also added a function of my own, which is based on the same rle
idea as chrispy's, except adapted for more general use:
library(magrittr)
Aksel < function(x, freq=FALSE) {
z < 2
if (freq) z < 1:2
run < x %>% as.vector %>% sort %>% rle %>% unclass %>% data.frame
colnames(run) < c("freq", "value")
run[which(run$freq==max(run$freq)), z] %>% as.vector
}
set.seed(2)
F < sample(c("yes", "no", "maybe", NA), 10, replace=TRUE) %>% factor
Aksel(F)
# [1] maybe yes
C < sample(c("Steve", "Jane", "Jonas", "Petra"), 20, replace=TRUE)
Aksel(C, freq=TRUE)
# freq value
# 7 Steve
I ended up running five functions, on two sets of test data, through microbenchmark
. The function names refer to their respective authors:
Chris' function was set to method="modes"
and na.rm=TRUE
by default to make it more comparable, but other than that the functions were used as presented here by their authors.
In matter of speed alone Kens version wins handily, but it is also the only one of these that will only report one mode, no matter how many there really are. As is often the case, there's a tradeoff between speed and versatility. In method="mode"
, Chris' version will return a value iff there is one mode, else NA. I think that's a nice touch.
I also think it's interesting how some of the functions are affected by an increased number of unique values, while others aren't nearly as much. I haven't studied the code in detail to figure out why that is, apart from eliminating logical/numeric as a the cause.
Below is the code which can be use to find the mode of a vector variable in R.
a < table([vector])
names(a[a==max(a)])
There are multiple solutions provided for this one. I checked the first one and after that wrote my own. Posting it here if it helps anyone:
Mode < function(x){
y < data.frame(table(x))
y[y$Freq == max(y$Freq),1]
}
Lets test it with a few example. I am taking the iris
data set. Lets test with numeric data
> Mode(iris$Sepal.Length)
[1] 5
which you can verify is correct.
Now the only non numeric field in the iris dataset(Species) does not have a mode. Let's test with our own example
> test < c("red","red","green","blue","red")
> Mode(test)
[1] red
EDIT
As mentioned in the comments, user might want to preserve the input type. In which case the mode function can be modified to:
Mode < function(x){
y < data.frame(table(x))
z < y[y$Freq == max(y$Freq),1]
as(as.character(z),class(x))
}
The last line of the function simply coerces the final mode value to the type of the original input.

This returns a factor, while the user probably wants to preserve the type of the input. Maybe add a middle step
y[,1] < sort(unique(x))
– Frank Apr 24 '18 at 21:01
Mode can't be useful in every situations. So the function should address this situation. Try the following function.
Mode < function(v) {
# checking unique numbers in the input
uniqv < unique(v)
# frquency of most occured value in the input data
m1 < max(tabulate(match(v, uniqv)))
n < length(tabulate(match(v, uniqv)))
# if all elements are same
same_val_check < all(diff(v) == 0)
if(same_val_check == F){
# frquency of second most occured value in the input data
m2 < sort(tabulate(match(v, uniqv)),partial=n1)[n1]
if (m1 != m2) {
# Returning the most repeated value
mode < uniqv[which.max(tabulate(match(v, uniqv)))]
} else{
mode < "Two or more values have same frequency. So mode can't be calculated."
}
} else {
# if all elements are same
mode < unique(v)
}
return(mode)
}
Output,
x1 < c(1,2,3,3,3,4,5)
Mode(x1)
# [1] 3
x2 < c(1,2,3,4,5)
Mode(x2)
# [1] "Two or more varibles have same frequency. So mode can't be calculated."
x3 < c(1,1,2,3,3,4,5)
Mode(x3)
# [1] "Two or more values have same frequency. So mode can't be calculated."

Sorry, I just don't see how this adds anything new to what has already been posted. In addition your output seem inconsistent with your function above. – not2qubit Sep 11 '18 at 16:01
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$lengths),]
head(df)
Another possible solution:
Mode < function(x) {
if (is.numeric(x)) {
x_table < table(x)
return(as.numeric(names(x_table)[which.max(x_table)]))
}
}
Usage:
set.seed(100)
v < sample(x = 1:100, size = 1000000, replace = TRUE)
system.time(Mode(v))
Output:
user system elapsed
0.32 0.00 0.31
This builds on jprockbelly's answer, by adding a speed up for very short vectors. This is useful when applying mode to a data.frame or datatable with lots of small groups:
Mode < function(x) {
if ( length(x) <= 2 ) return(x[1])
if ( anyNA(x) ) x = x[!is.na(x)]
ux < unique(x)
ux[which.max(tabulate(match(x, ux)))]
}
I case your observations are classes from Real numbers and you expect that the mode to be 2.5 when your observations are 2, 2, 3, and 3 then you could estimate the mode with mode = l1 + i * (f1f0) / (2f1  f0  f2)
where l1..lower limit of most frequent class, f1..frequency of most frequent class, f0..frequency of classes before most frequent class, f2..frequency of classes after most frequent class and i..Class interval as given e.g. in 1, 2, 3:
#Small Example
x < c(2,2,3,3) #Observations
i < 1 #Class interval
z < hist(x, breaks = seq(min(x)1.5*i, max(x)+1.5*i, i), plot=F) #Calculate frequency of classes
mf < which.max(z$counts) #index of most frequent class
zc < z$counts
z$breaks[mf] + i * (zc[mf]  zc[mf1]) / (2*zc[mf]  zc[mf1]  zc[mf+1]) #gives you the mode of 2.5
#Larger Example
set.seed(0)
i < 5 #Class interval
x < round(rnorm(100,mean=100,sd=10)/i)*i #Observations
z < hist(x, breaks = seq(min(x)1.5*i, max(x)+1.5*i, i), plot=F)
mf < which.max(z$counts)
zc < z$counts
z$breaks[mf] + i * (zc[mf]  zc[mf1]) / (2*zc[mf]  zc[mf1]  zc[mf+1]) #gives you the mode of 99.5
In case you want the most frequent level and you have more than one most frequent level you can get all of them e.g. with:
x < c(2,2,3,5,5)
names(which(max(table(x))==table(x)))
#"2" "5"
Could try the following function:
 transform numeric values into factor
 use summary() to gain the frequency table
 return mode the index whose frequency is the largest
 transform factor back to numeric even there are more than 1 mode, this function works well!
mode < function(x){
y < as.factor(x)
freq < summary(y)
mode < names(freq)[freq[names(freq)] == max(freq)]
as.numeric(mode)
}
Calculating Mode is mostly in case of factor variable then we can use
labels(table(HouseVotes84$V1)[as.numeric(labels(max(table(HouseVotes84$V1))))])
HouseVotes84 is dataset available in 'mlbench' package.
it will give max label value. it is easier to use by inbuilt functions itself without writing function.
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]
Sys.time()t0
You just have to replace the "round(rnorm(1e6),2)" with your vector.

just look at
summary.factor
 all this does is wrap thesort(table(...))
approach in other answers. – C8H10N4O2 Jul 20 '17 at 13:25
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
>
An easy way to calculate MODE of a vector 'v' containing discrete values is:
names(sort(table(v)))[length(sort(table(v)))]
protected by Jaap Nov 10 '16 at 16:04
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mode
to be the same as the functionclass
? – Corey Levinson Nov 13 '18 at 17:58