So far I have been unable to find an R library that can create a sunburst plot like those by John Stasko. Anyone knows how to accomplish that in R or Python?


  • 2
    The rectangular equivalent of these known as "treemaps" are quite popular. You might have better luck if you search for "circular treemaps" or similar.
    – fmark
    Oct 17, 2012 at 4:34

9 Answers 9


Python version of sunburst diagram using matplotlib bars in polar projection:

import numpy as np
import matplotlib.pyplot as plt

def sunburst(nodes, total=np.pi * 2, offset=0, level=0, ax=None):
    ax = ax or plt.subplot(111, projection='polar')

    if level == 0 and len(nodes) == 1:
        label, value, subnodes = nodes[0]
        ax.bar([0], [0.5], [np.pi * 2])
        ax.text(0, 0, label, ha='center', va='center')
        sunburst(subnodes, total=value, level=level + 1, ax=ax)
    elif nodes:
        d = np.pi * 2 / total
        labels = []
        widths = []
        local_offset = offset
        for label, value, subnodes in nodes:
            widths.append(value * d)
            sunburst(subnodes, total=total, offset=local_offset,
                     level=level + 1, ax=ax)
            local_offset += value
        values = np.cumsum([offset * d] + widths[:-1])
        heights = [1] * len(nodes)
        bottoms = np.zeros(len(nodes)) + level - 0.5
        rects = ax.bar(values, heights, widths, bottoms, linewidth=1,
                       edgecolor='white', align='edge')
        for rect, label in zip(rects, labels):
            x = rect.get_x() + rect.get_width() / 2
            y = rect.get_y() + rect.get_height() / 2
            rotation = (90 + (360 - np.degrees(x) % 180)) % 360
            ax.text(x, y, label, rotation=rotation, ha='center', va='center') 

    if level == 0:

Example, how this function can be used:

data = [
    ('/', 100, [
        ('home', 70, [
            ('Images', 40, []),
            ('Videos', 20, []),
            ('Documents', 5, []),
        ('usr', 15, [
            ('src', 6, [
                ('linux-headers', 4, []),
                ('virtualbox', 1, []),

            ('lib', 4, []),
            ('share', 2, []),
            ('bin', 1, []),
            ('local', 1, []),
            ('include', 1, []),


python matplotlib sunburst diagram

  • 3
    This is the most elegant answer! Love the recursion.
    – dmvianna
    Oct 17, 2017 at 13:19
  • 1
    Simple to process, extensible, no extra libraries needed; pure genius. This deserves more upvotes.
    – Ébe Isaac
    Nov 8, 2017 at 5:07
  • bl.ocks.org/mbostock/4348373 can this kind of interactive-zoomable viz be done in R?
    – kRazzy R
    Dec 22, 2017 at 17:15

You can even build an interactive version quite easily with R now:

# devtools::install_github("timelyportfolio/sunburstR")

# read in sample visit-sequences.csv data provided in source
# https://gist.github.com/kerryrodden/7090426#file-visit-sequences-csv
sequences <- read.csv(
  ,stringsAsFactors = FALSE


enter image description here

...and when you move your mouse above it, the magic happens:

enter image description here

The official site of this package can be found here (with many examples!): https://github.com/timelyportfolio/sunburstR

Hat Tip to @timelyportfolio who created this impressive piece of code!

  • @Dror: This might interest you :-)
    – vonjd
    Oct 1, 2015 at 13:15
  • 4
    thanks for adding the update. I of course much prefer the interactive version. Anybody looking please feel free to offer feedback, ideas, criticism, use cases, examples at github.com/timelyportfolio/sunburstR Oct 1, 2015 at 15:21
  • @timelyportfolio: Thank you, I added the link to the answer :-)
    – vonjd
    Oct 1, 2015 at 15:39
  • when drilling down , Is there a way to control the length and sequence of events ? in your example there are 6 events in the sequence going from home->product->product->product->product->account . I have 24 events in the sequence. Is it possible to dynamically extend the sequence displayed on top, without any words getting cut off? thank you.
    – kRazzy R
    Jan 7, 2018 at 21:44
  • 1
    @kRazzyR: I am not the author of the code. Best would be to put your questions here: github.com/timelyportfolio/sunburstR/issues
    – vonjd
    Jan 8, 2018 at 6:59

You can create something along the lines of a sunburst plot using geom_tile from the ggplot2 package. Let's first create some random data:

require(ggplot2); theme_set(theme_bw())
dat = data.frame(expand.grid(x = 1:10, y = 1:10),
                 z = sample(LETTERS[1:3], size = 100, replace = TRUE))

And then create the raster plot. Here, the x axis in the plot is coupled to the x variable in dat, the y axis to the y variable, and the fill of the pixels to the z variable. This yields the following plot:

p = ggplot(dat, aes(x = x, y = y, fill = z)) + geom_tile() 

enter image description here

The ggplot2 package supports all kinds of coordinate transformations, one of which takes one axis and projects it on a circle, i.e. polar coordinates:

p + coord_polar()

enter image description here

This roughly does what you need, now you can tweak dat to get the desired result.

  • I admit it works, but it does not look quite production quality. I get irregular white spaces in between the rings. But thanks for the effort!
    – dmvianna
    Oct 17, 2012 at 6:01
  • I do not have the irregular white spaces, at least not in the png I posted above. Do you have the latest ggplot2 version? Oct 17, 2012 at 6:02
  • I just updated it to be sure, and I still have that. I'm using a Windows machine.
    – dmvianna
    Oct 17, 2012 at 6:14
  • 1
    The problem probably goes away when you dump the figure to file. Oct 17, 2012 at 6:23
  • 1
    That's a polar grid, not a sunburst !
    – PAC
    Aug 7, 2014 at 13:21

There is a package called ggsunburst. Sadly is not in CRAN but you can install it from Github: didacs/ggsunburst.

enter image description here


Here's a ggplot2 sunburst with two layers.

The basic idea is to just make a different bar for each layer, and make the bars wider for the outer layers. I also messed with the x-axis to make sure there's no hole in the middle of the inner pie chart. You can thus control the look of the sunburst by changing the width and x-axis values.


# make some fake data
df <- data.frame(
    'level1'=c('a', 'a', 'a', 'a', 'b', 'b', 'c', 'c', 'c'), 
    'level2'=c('a1', 'a2', 'a3', 'a4', 'b1', 'b2', 'c1', 'c2', 'c3'), 
    'value'=c(.025, .05, .027, .005, .012, .014, .1, .03, .18))

# sunburst plot
ggplot(df, aes(y=value)) +
    geom_bar(aes(fill=level1, x=0), width=.5, stat='identity') + 
    geom_bar(aes(fill=level2, x=.25), width=.25, stat='identity') + 

enter image description here

The only disadvantage this has compared to sunburst-specific software is that it assumes you want the outer layers to be collectively exhaustive (i.e. no gaps). "Partially exhaustive" outer layers (like in some of the other examples) are surely possible but more complicated.

For completeness, here it is cleaned up with nicer formatting and labels:


# compute cumulative sum for outer labels
df <- data.table(df)
df[, cumulative:=cumsum(value)-(value/2)]

# store labels for inner circle
inner_df <- df[, c('level1', 'value'), with=FALSE]
inner_df[, level1_value:=sum(value), by='level1']
inner_df <- unique(text_df[, c('level1', 'level1_value'), with=FALSE])
inner_df[, cumulative:=cumsum(level1_value)]
inner_df[, prev:=shift(cumulative)]
inner_df[is.na(prev), position:=(level1_value/2)]
inner_df[!is.na(prev), position:=(level1_value/2)+prev]

colors <- c('#6a3d9a', '#1F78B4', '#33A02C', '#3F146D', '#56238D', '#855CB1', '#AD8CD0', '#08619A', '#3F8DC0', '#076302', '#1B8416', '#50B74B')
colorNames <- c(unique(as.character(df$level1)), unique(as.character(df$level2)))
names(colors) <- colorNames

ggplot(df, aes(y=value, x='')) +
    geom_bar(aes(fill=level2, x=.25), width=.25, stat='identity') + 
    geom_bar(aes(fill=level1, x=0), width=.5, stat='identity') + 
    geom_text(data=inner_df, aes(label=level1, x=.05, y=position)) + 
    coord_polar(theta='y') + 
    scale_fill_manual('', values=colors) +
    theme_minimal() + 
    guides(fill=guide_legend(ncol=1)) +
    labs(title='') + 
    scale_x_continuous(breaks=NULL) + 
    scale_y_continuous(breaks=df$cumulative, labels=df$level2, 5) + 
    theme(axis.title.x=element_blank(), axis.title.y=element_blank(), panel.border=element_blank(), panel.grid=element_blank())

enter image description here


There are only a couple of libraries that I know of that do this natively:

Neither of these are in Python or R, but getting a python/R script to write out a simple JSON file that can be loaded by either of the javascript libraries should be pretty achievable.

  • 1
    Is there any update to this answer, over 2 years later?
    – Dror
    Feb 16, 2015 at 11:51

Since jbkunst mentioned ggsunburst, here I post an example for reproducing the sunburst by sirex.

It is not exactly the same because in ggsunburst the angle of a node is equal to the sum of the angles of its children nodes.

# install ggsunburst package
if (!require("ggplot2")) install.packages("ggplot2")
if (!require("rPython")) install.packages("rPython")
install.packages("http://genome.crg.es/~didac/ggsunburst/ggsunburst_0.0.9.tar.gz", repos=NULL, type="source")

# dataframe
# each row corresponds to a node in the hierarchy
# parent and node are required, the rest are optional attributes
# the attributes correspond to the node, not its parent
df <- read.table(header = T, sep = ",", text = "
home,Images, 40,E,1
home,Videos, 20,E,1
home,Documents, 5,E,1
src,linux-headers, 4,C,1.5
src,virtualbox, 1,C,1.5
usr,lib, 4,A,1
usr,share, 2,A,1
usr,bin, 1,A,1
usr,local, 1,A,1
usr,include, 1,A,1

write.table(df, 'df.csv', sep = ",", row.names = F)

# compute coordinates from dataframe
# "node_attributes" is used to pass the attributes other than "size" and "dist", 
# which are special attributes that alter the dimensions of the nodes
sb <- sunburst_data('df.csv', sep = ",", type = "node_parent", node_attributes = "color")

# plot
sunburst(sb, node_labels = T, node_labels.min = 10, rects.fill.aes = "color") +
  scale_fill_brewer(palette = "Set1", guide = F)

enter image description here


Here is an example using R and plotly (based on my answer here):


as.sunburstDF <- function(DF, valueCol = NULL){
  colNamesDF <- names(DF)
    DT <- copy(DF)
  } else {
    DT <- data.table(DF, stringsAsFactors = FALSE)
  DT[, root := names(DF)[1]]
  colNamesDT <- names(DT)
    setcolorder(DT, c("root", colNamesDF))
  } else {
    setnames(DT, valueCol, "values", skip_absent=TRUE)
    setcolorder(DT, c("root", setdiff(colNamesDF, valueCol), "values"))
  hierarchyCols <- setdiff(colNamesDT, "values")
  hierarchyList <- list()
  for(i in seq_along(hierarchyCols)){
    currentCols <- colNamesDT[1:i]
      currentDT <- unique(DT[, ..currentCols][, values := .N, by = currentCols], by = currentCols)
    } else {
      currentDT <- DT[, lapply(.SD, sum, na.rm = TRUE), by=currentCols, .SDcols = "values"]
    setnames(currentDT, length(currentCols), "labels")
    hierarchyList[[i]] <- currentDT
  hierarchyDT <- rbindlist(hierarchyList, use.names = TRUE, fill = TRUE)
  parentCols <- setdiff(names(hierarchyDT), c("labels", "values", valueCol))
  hierarchyDT[, parents := apply(.SD, 1, function(x){fifelse(all(is.na(x)), yes = NA_character_, no = paste(x[!is.na(x)], sep = ":", collapse = " - "))}), .SDcols = parentCols]
  hierarchyDT[, ids := apply(.SD, 1, function(x){paste(x[!is.na(x)], collapse = " - ")}), .SDcols = c("parents", "labels")]
  hierarchyDT[, c(parentCols) := NULL]

DF <- as.data.table(Titanic)
setcolorder(DF, c("Survived", "Class", "Sex", "Age", "N"))
sunburstDF <- as.sunburstDF(DF, valueCol = "N")

# Sunburst
plot_ly(data = sunburstDF, ids = ~ids, labels= ~labels, parents = ~parents, values= ~values, type='sunburst', branchvalues = 'total')

# Treemap
# plot_ly(data = sunburstDF, ids = ~ids, labels= ~labels, parents = ~parents, values= ~values, type='treemap', branchvalues = 'total')


Some additional information can be found here.


You can also use plotly Sunburst on python as well as seen here

The same inputs can be used to create Icicle and Treemap graphs (supported too by plotly) which might also suit your needs.

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