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The package d3po
integrates well with dplyr
. All the examples here use the pipe, %>%
, both to filter/summarise data and create the charts.
These examples are the same as in the documentation but with some extended comments.
Let’s start by loading packages.
library(dplyr)
library(d3po)
The included dataset, pokemon
, has a detailed documentation but let’s explore the data structure:
glimpse(pokemon)
To plot the distribution of civil liberties in 2023 by continent, we need to indicate the variables for the axis, group, and (optionally) color:
d3po(pokemon) %>%
po_box(daes(x = type_1, y = speed, color = color_1)) %>%
po_title("Distribution of Pokemon speed by main type")
To plot the evolution of country status in time, we need to indicate the variables for the axis and, group, and (optionally) color:
pokemon %>%
dout <- group_by(type_1, color_1) %>%
count()
d3po(dout) %>%
po_bar(daes(x = type_1, y = n, color = color_1)) %>%
po_title("Share of Pokemon by main type")
To plot the share of countries by status in 2023, we need to indicate the variables for the size, group, and (optionally) color:
pokemon %>%
dout <- group_by(type_1, color_1) %>%
count()
d3po(dout) %>%
po_treemap(daes(size = n, group = type_1, color = color_1)) %>%
po_title("Share of Pokemon by main type")
Use these plots with caution because polar coordinates has major perceptual problems. Use with EXTREME caution.
This method is exactly the same as treemap
but calling a different function:
d3po(dout) %>%
po_pie(daes(size = n, group = type_1, color = color_1)) %>%
po_title("Share of Pokemon by main type")
Use these plots with caution because polar coordinates has major perceptual problems. Use with EXTREME caution.
This method is exactly the same as treemap
but calling a different function:
d3po(dout) %>%
po_donut(daes(size = n, group = type_1, color = color_1)) %>%
po_title("Share of Pokemon by main type")
To plot the evolution of country status in time, we need to indicate the variables for the axis, group, and (optionally) color:
pokemon %>%
dout <- filter(
1 == "water"
type_%>%
) group_by(type_1, color_1) %>%
reframe(
probability = c(0, 0.25, 0.5, 0.75, 1),
quantile = quantile(speed, probability)
)
d3po(dout) %>%
po_line(daes(
x = probability, y = quantile, group = type_1,
color = color_1
%>%
)) po_title("Sample Quantiles for Water Pokemon Speed")
This method is exactly the same as line
but calling a different function and with the option of stacking the areas:
d3po(dout) %>%
po_line(daes(
x = probability, y = quantile, group = type_1,
color = color_1
stacked = FALSE) %>%
), po_title("Sample Quantiles for Water Pokemon Speed")
This method is a combination of line
and treemap
but calling a different function:
pokemon %>%
dout <- group_by(type_1, color_1) %>%
summarise(
attack = mean(attack),
defense = mean(defense)
%>%
) mutate(log_attack_x_defense = log(attack * defense))
d3po(dout) %>%
po_scatter(daes(
x = defense, y = attack,
size = log_attack_x_defense, group = type_1, color = color_1
%>%
)) po_title("Pokemon Mean Attack vs Mean Defense by Main Type")
This method is very similar to all the others but we need to specify the map. In this case, we are going to use the map of South America from the d3pomaps
package:
map_ids(d3po::maps$asia$japan)
dout <-$value <- ifelse(dout$id == "TK", 1L, NA)
dout$color <- ifelse(dout$id == "TK", "#bd0029", NA)
dout
d3po(dout) %>%
po_geomap(
daes(
group = id, color = color, size = value,
tooltip = name
),map = d3po::maps$asia$japan
%>%
) po_title("Pokemon was created in the Japanese city of Tokyo")
This method is very similar to all the others but, unlike the others, it needs an igraph object as input, and with the option of using a specific layout:
d3po(pokemon_network) %>%
po_network(daes(size = size, color = color, layout = "kk")) %>%
po_title("Connections Between Pokemon Types")
Going back to the treemap example, it is possible to move the labels, change the background, and also use any font that you like:
pokemon %>%
dout <- group_by(type_1, color_1) %>%
count()
d3po(dout) %>%
po_treemap(daes(size = n, group = type_1, color = color_1)) %>%
po_title("Share of Pokemon by main type") %>%
po_labels("left", "top", F) %>%
po_background("#ffcc00") %>%
po_font("Comic Sans MS", 20, "uppercase")
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.
Health stats visible at Monitor.