101

I frequently use kernel density plots to illustrate distributions. These are easy and fast to create in R like so:

set.seed(1)
draws <- rnorm(100)^2
dens <- density(draws)
plot(dens)
#or in one line like this: plot(density(rnorm(100)^2))

Which gives me this nice little PDF:

enter image description here

I'd like to shade the area under the PDF from the 75th to 95th percentiles. It's easy to calculate the points using the quantile function:

q75 <- quantile(draws, .75)
q95 <- quantile(draws, .95)

But how do I shade the the area between q75 and q95?

1
  • Can you provide example of shading the outside of your range versus the inside of your range? Thanks.
    – Milktrader
    Mar 25, 2011 at 14:34

5 Answers 5

Reset to default
77

With the polygon() function, see its help page and I believe we had similar questions here too.

You need to find the index of the quantile values to get the actual (x,y) pairs.

Edit: Here you go:

x1 <- min(which(dens$x >= q75))  
x2 <- max(which(dens$x <  q95))
with(dens, polygon(x=c(x[c(x1,x1:x2,x2)]), y= c(0, y[x1:x2], 0), col="gray"))

Output (added by JDL)

enter image description here

3
  • 3
    I never would have gotten that to work if you had not provided the structure. Thanks!
    – JD Long
    Aug 16, 2010 at 17:17
  • 2
    It's one of those things ... that have been in demo(graphics) since before the dawn on time so one comes across every now and then. Same idea for NBER regression shading etc.
    – Dirk Eddelbuettel
    Aug 16, 2010 at 17:19
  • 1
    ohhhh. I KNEW I had seen it somewhere but could not pull from my mental index where I had seen it. I'm glad your mental index is better than mine.
    – JD Long
    Aug 16, 2010 at 17:20
74

Another solution:

dd <- with(dens,data.frame(x,y))

library(ggplot2)

qplot(x,y,data=dd,geom="line")+
  geom_ribbon(data=subset(dd,x>q75 & x<q95),aes(ymax=y),ymin=0,
              fill="red",colour=NA,alpha=0.5)

Result:

alt text

0
24

An expanded solution:

If you wanted to shade both tails (copy & paste of Dirk's code) and use known x values:

set.seed(1)
draws <- rnorm(100)^2
dens <- density(draws)
plot(dens)

q2     <- 2
q65    <- 6.5
qn08   <- -0.8
qn02   <- -0.2

x1 <- min(which(dens$x >= q2))  
x2 <- max(which(dens$x <  q65))
x3 <- min(which(dens$x >= qn08))  
x4 <- max(which(dens$x <  qn02))

with(dens, polygon(x=c(x[c(x1,x1:x2,x2)]), y= c(0, y[x1:x2], 0), col="gray"))
with(dens, polygon(x=c(x[c(x3,x3:x4,x4)]), y= c(0, y[x3:x4], 0), col="gray"))

Result:

2-tailed poly

3
  • I have the png file and hosted it on freeimagehosting, and it may not be loading because ... I'm not sure.
    – Milktrader
    Mar 25, 2011 at 17:55
  • Very blurry file. Can you please recreate it and upload it here directly SO has its own servers service for this?
    – Dirk Eddelbuettel
    Mar 26, 2011 at 18:27
  • I'm sorry, but I can't see how to upload it to SO directly.
    – Milktrader
    Mar 28, 2011 at 1:03
21

This question needs a lattice answer. Here's a very basic one, simply adapting the method employed by Dirk and others:

#Set up the data
set.seed(1)
draws <- rnorm(100)^2
dens <- density(draws)

#Put in a simple data frame   
d <- data.frame(x = dens$x, y = dens$y)

#Define a custom panel function;
# Options like color don't need to be hard coded    
shadePanel <- function(x,y,shadeLims){
    panel.lines(x,y)
    m1 <- min(which(x >= shadeLims[1]))
    m2 <- max(which(x <= shadeLims[2]))
    tmp <- data.frame(x1 = x[c(m1,m1:m2,m2)], y1 = c(0,y[m1:m2],0))
    panel.polygon(tmp$x1,tmp$y1,col = "blue")
}

#Plot
xyplot(y~x,data = d, panel = shadePanel, shadeLims = c(1,3))

enter image description here

4

Here's another ggplot2 variant based on a function that approximates the kernel density at the original data values:

approxdens <- function(x) {
    dens <- density(x)
    f <- with(dens, approxfun(x, y))
    f(x)
}

Using the original data (rather than producing a new data frame with the density estimate's x and y values) has the benefit of also working in faceted plots where the quantile values depend on the variable by which the data is being grouped:

Code used

library(tidyverse)
library(RColorBrewer)

# dummy data
set.seed(1)
n <- 1e2
dt <- tibble(value = rnorm(n)^2)

# function that approximates the density at the provided values
approxdens <- function(x) {
    dens <- density(x)
    f <- with(dens, approxfun(x, y))
    f(x)
}

probs <- c(0.75, 0.95)

dt <- dt %>%
    mutate(dy = approxdens(value),                         # calculate density
           p = percent_rank(value),                        # percentile rank 
           pcat = as.factor(cut(p, breaks = probs,         # percentile category based on probs
                                include.lowest = TRUE)))

ggplot(dt, aes(value, dy)) +
    geom_ribbon(aes(ymin = 0, ymax = dy, fill = pcat)) +
    geom_line() +
    scale_fill_brewer(guide = "none") +
    theme_bw()



# dummy data with 2 groups
dt2 <- tibble(category = c(rep("A", n), rep("B", n)),
              value = c(rnorm(n)^2, rnorm(n, mean = 2)))

dt2 <- dt2 %>%
    group_by(category) %>% 
    mutate(dy = approxdens(value),    
           p = percent_rank(value),
           pcat = as.factor(cut(p, breaks = probs,
                                include.lowest = TRUE)))

# faceted plot
ggplot(dt2, aes(value, dy)) +
    geom_ribbon(aes(ymin = 0, ymax = dy, fill = pcat)) +
    geom_line() +
    facet_wrap(~ category, nrow = 2, scales = "fixed") +
    scale_fill_brewer(guide = "none") +
    theme_bw()

Created on 2018-07-13 by the reprex package (v0.2.0).

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