# Is there a weighted.median() function?

I'm looking for something similar in form to `weighted.mean()`. I've found some solutions via search that write out the entire function but would appreciate something a bit more user friendly.

The following packages all have a function to calculate a weighted median: 'aroma.light', 'isotone', 'limma', 'cwhmisc', 'ergm', 'laeken', 'matrixStats, 'PSCBS', and 'bigvis' (on github).

To find them I used the invaluable findFn() in the 'sos' package which is an extension for R's inbuilt help.

``````findFn('weighted median')
``````

Or,

`???'weighted median'`

as ??? is a shortcut in the same way `?some.function` is for `help(some.function)`

• I didn't know about findFn! That's awesome! – Bob Albright May 1 '10 at 5:39
• You can also use ??? as you use ? or ??, still from sos package. – Etienne Racine May 1 '10 at 12:51
• Agreed on the findFn. Very useful. And rather than install a new package I just got some sleep. I'm just trying to calculate the median of weighted data and did this: median(rep(x, each=w)). – Michael Williams May 1 '10 at 14:09
• Yep, median(rep(x, each=w)), would work too. But only if all your weights are integers. – wkmor1 May 1 '10 at 23:35
• Hmisc also has wtd.quantile :) – Anthony Damico Mar 3 '13 at 9:55

To calculate the weighted median of a vector `x` using a same length vector of (integer) weights `w`:

``````median(rep(x, times=w))
``````
• This has performance problem if the weights are big. – David Mahone Jul 22 '16 at 18:27
• This only works with integer weights. Weights in survey data are typically decimals. – Westcroft_to_Apse Oct 24 '17 at 17:31

Some experience using the answers from @wkmor1 and @Jaitropmange.

I've checked 3 functions from 3 packages, `isotone`, `laeken`, and `matrixStats`. Only `matrixStats` works properly. Other two (just as the `median(rep(x, times=w)` solution) give integer output. As long as I calculated median age of populations, decimal places matter.

### Reproducible example. Calculation of the median age of a population

``````df <- data.frame(age = 0:100,
pop = spline(c(4,7,9,8,7,6,4,3,2,1),n = 101)\$y)

library(isotone)
library(laeken)
library(matrixStats)

isotone::weighted.median(df\$age,df\$pop)
#  36
laeken::weightedMedian(df\$age,df\$pop)
#  36
matrixStats::weightedMedian(df\$age,df\$pop)
#  36.164
median(rep(df\$age, times=df\$pop))
#  35
``````

### Summary

`matrixStats::weightedMedian()` is the reliable solution

• Note that the rep(x, times=w) method requires integer weights, so it does not apply for your case. You could approximate using: median(rep(df\$age, times=1000*df\$pop)), which gives 36. Whether you want a decimal output depends on your definition of median. – Jaitropmange Oct 4 '15 at 15:28
• with one little detail... Answer 36 is correct according to definition of weighted median on wikipedia. – Kamil S Jaron Dec 7 '16 at 9:58
• yeah... we have no better reference than wikipedia – ikashnitsky Dec 7 '16 at 13:55
• I do not understand the sarcasm here. Is it not quite devastating to have many functions for the same thing, but with different results? How do you know that `matrixStats::weightedMedian()` gives the reliable solution? The code seems to suggest it should produce the weighted percentile method result, but the values are different from `spatstat::weighted.median()` which uses this method and yields `35.66291` to the problem above. – 0range Oct 22 '18 at 23:49
• Of course, instead of choosing one way to compute the weighted median, we can also use the weighted median over all of them... – 0range Oct 23 '18 at 0:14

Really old post but I just came across it and did some testing of the different methods. `spatstat::weighted.median()` seemed to be about 14 times faster than `median(rep(x, times=w))` and its actually noticeable if you want to run the function more than a couple times. Testing was with a relatively large survey, about 15,000 people.

Posting the source code for the spatstat functions (mentioned in user2522202's answer) here because people might not want to have to install this package, which has a lot of dependencies, just to get weighted median/quantiles. The functions themselves have no dependencies. I have added the Roxygen code in case you want to put it in a package.

``````#' Weighted quantile
#'
#' Function copied from **spatstat** package.
#'
#' @param x Vector of values
#' @param w Vector of weights
#' @param probs Vector of probabilities
#' @param na.rm Ignore missing data?
#' @export
weighted.quantile <- function(x, w, probs=seq(0,1,0.25), na.rm=TRUE) {
x <- as.numeric(as.vector(x))
w <- as.numeric(as.vector(w))
if(anyNA(x) || anyNA(w)) {
ok <- !(is.na(x) | is.na(w))
x <- x[ok]
w <- w[ok]
}
stopifnot(all(w >= 0))
if(all(w == 0)) stop("All weights are zero", call.=FALSE)
#'
oo <- order(x)
x <- x[oo]
w <- w[oo]
Fx <- cumsum(w)/sum(w)
#'
result <- numeric(length(probs))
for(i in seq_along(result)) {
p <- probs[i]
lefties <- which(Fx <= p)
if(length(lefties) == 0) {
result[i] <- x
} else {
left <- max(lefties)
result[i] <- x[left]
if(Fx[left] < p && left < length(x)) {
right <- left+1
y <- x[left] + (x[right]-x[left]) * (p-Fx[left])/(Fx[right]-Fx[left])
if(is.finite(y)) result[i] <- y
}
}
}
names(result) <- paste0(format(100 * probs, trim = TRUE), "%")
return(result)
}

#' Weighted median
#'
#' Function copied from **spatstat** package.
#'
#' @param x Vector of values
#' @param w Vector of weights
#' @param na.rm Ignore missing data?
#' @export
weighted.median <- function(x, w, na.rm=TRUE) {
unname(weighted.quantile(x, probs=0.5, w=w, na.rm=na.rm))
}
``````

One can also use `stats::density` to create a weighted PDF, then convert this to a CDF, as elaborated here:

``````my_wtd_q = function(x, w, prob, n = 4096)
with(density(x, weights = w/sum(w), n = n),
x[which.max(cumsum(y*(x[2L] - x[1L])) >= prob)])
``````

Then `my_wtd_q(x, w, .5)` will be the weighted median.

One could also be more careful to ensure that the total area under the `density` is one by re-normalizing.

Using the source from Deleet and the data from ikashnitsky, a weighted median could be calculated in base with:

``````df <- data.frame(age = 0:100,
pop = spline(c(4,7,9,8,7,6,4,3,2,1),n = 101)\$y)

medianWeighted <- function(x, w) {
x <- aggregate(w[w>0] ~ x[w>0], FUN=sum)
approxfun(filter(c(0,cumsum(x\$w)/sum(x\$w)), c(.5,.5), sides=1)[-1], x\$x)(.5)
}
medianWeighted(df\$age,df\$pop) #Interpolates between observed Numbers
# 36.164

medianWeightedI <- function(x, w) {
w <- w[order(x)]
x <- x[order(x)]
x[which.min(abs(filter(c(0,cumsum(w)/sum(w)), c(.5,.5), sides=1)[-1] - 0.5))]
}
medianWeightedI(df\$age,df\$pop) #Takes only numbers which have been observed
# 36
``````

In case you also wanted to calculate weighted quantiles.

``````quantileWeighted <- function(x, w, probs = seq(0, 1, 0.25)) {
x <- aggregate(w[w>0] ~ x[w>0], FUN=sum)
approxfun(filter(c(0,cumsum(x\$w)/sum(x\$w)), c(.5,.5), sides=1)[-1], x\$x, rule=2)(probs)
}
quantileWeighted(df\$age, df\$pop)
#   0.00000  20.21336  36.16400  55.98371 100.00000

quantileWeightedI <- function(x, w, probs = seq(0, 1, 0.25)) {
x <- aggregate(w[w>0] ~ x[w>0], FUN=sum)
stepfun(cumsum(x\$w[-nrow(x)])/sum(x\$w[-nrow(x)]), x\$x)(probs)
}
quantileWeightedI(df\$age, df\$pop)
#   0  20  36  56 100
``````

If you're working with the `survey` package, assuming you've defined your survey design and `x` is your variable of interest:

``````svyquantile(~x, mydesign, c(0.5))
``````