The goal of this vignette is to show some examples of (hopefully) useful, interesting or fun notebooks usable with robservable
.
Yes, I know, pie charts are mostly bad. But the following notebook allows the creation of interactive pie or ‘donut’ charts, with slices optionally ‘draggable’ to rearrange their order.
https://observablehq.com/@juba/draggable-pie-donut-chart
Here is a small example. To display the chart we have to include
both the chart
and draw
cells, and we hide draw
as it is only useful to render the plot. We pass our data as a data frame with name
and value
columns.
The following notebook generates animated “bar chart race” charts.
https://observablehq.com/@juba/bar-chart-race
To use it from robservable
you have to place your data in a data frame with the following columns :
id
: identifier (country, city, brand…)date
: observation date (can be any number or character : year, day…)value
: value for that date
in this id
Optionally, if you want the displayed date value to be different than the one used in your dataset (for example if you iterate over monthly data but prefer to only display the year), you can add a corresponding date_label
column.
library(readr)
library(dplyr)
library(tidyr)
## Load Covid-19 data from Johns Hopkins Github repository
d <- read_csv("https://raw.githubusercontent.com/CSSEGISandData/COVID-19/master/csse_covid_19_data/csse_covid_19_time_series/time_series_covid19_deaths_global.csv")
## Reformat data
d <- d %>%
select(-`Province/State`, -Lat, -Long) %>%
rename(id = `Country/Region`) %>%
group_by(id) %>%
summarise(across(everything(), sum)) %>%
pivot_longer(-id, names_to = "date") %>%
mutate(date = as.character(lubridate::mdy(date)))
## Filter out data
d <- d %>%
group_by(date) %>%
filter(value > 0 & (n() - row_number(value)) <= 12) %>%
arrange(date)
We can then generate the chart with the following robservable
call. Note that we have to include several cells : the chart itself, the draw
cell which updates it, the date
play/pause control, and the CSS styles
.
## Generate chart
robservable(
"https://observablehq.com/@juba/bar-chart-race",
include = c("viewof date", "chart", "draw", "styles"),
hide = "draw",
input = list(
data = d,
title = "COVID-19 deaths",
subtitle = "Cumulative number of COVID-19 deaths by country",
source = "Source : Johns Hopkins University"
),
width = 700,
height = 710
)
The following notebook allows to create a Voronoi diagram on a map background.
https://observablehq.com/@juba/reusable-voronoi-map
Here we load data about the location of engineering schools in France in 2020 (Source : Onisep).
And we display it as a Voronoi diagram by calling robservable
the following way. Note that we have to include both chart
and draw
cells for the map to be rendered (but we hide draw
as it doesn’t display anything by itself).
map_url <- "https://raw.githubusercontent.com/gregoiredavid/france-geojson/master/regions-version-simplifiee.geojson"
robservable(
"@juba/reusable-voronoi-map",
include = c("chart", "draw"),
hide = "draw",
input = list(
contour = map_url,
contour_width = 1,
data = d,
longitude_var = "longitude (X)",
latitude_var = "latitude (Y)",
point_radius = 1.5,
zoom = TRUE
),
width = 600,
height = 600
)
You can zoom and pan the map.
The following notebook makes bivariate choropleth maps with zoom and tooltips.
https://observablehq.com/@juba/reusable-bivariate-choropleth
We first load some data from the USA.county.data Github project, only keep California counties, and select two of the available variables.
load(url("https://raw.githubusercontent.com/Deleetdk/USA.county.data/master/data/USA_county_data.RData"))
d <- USA_county_data
d <- d[d$State == "California",]
d <- d[, c("name_16", "Graduate.Degree", "Less.Than.High.School")]
names(d) <- c("name_16", "Graduate", "<High.School")
Then we can call robservable
to load the notebook, render only chart
and draw
(both are needed for the map to show), hide draw
and update a bunch of cells values via the input
named list. You can refer to the notebook for an explanation of the different values.
robservable(
"@juba/reusable-bivariate-choropleth",
include = c("chart", "draw"),
hide = "draw",
input = list(
data = d,
data_id = "name_16",
data_name = "name_16",
data_var1 = "Graduate",
data_var2 = "<High.School",
map = "https://raw.githubusercontent.com/codeforamerica/click_that_hood/master/public/data/california-counties.geojson",
map_object = "geometry",
map_id_property = "name",
legend_position = "bottomleft"
),
width = 800,
height = 500
)