The is a data package with an
excerpt from the Gapminder
data. The main object in this package is the gapminder
data
frame or “tibble”. There are other goodies, such as the data in tab
delimited form, a larger unfiltered dataset, premade color schemes for
the countries and continents, and ISO 3166-1 country codes.
The gapminder
and gapminder_unfiltered
data
frames include six variables, (Gapminder.org
documentation page):
variable | meaning |
---|---|
country | |
continent | |
year | |
lifeExp | life expectancy at birth |
pop | total population |
gdpPercap | per-capita GDP |
Per-capita GDP (Gross domestic product) is given in units of international dollars, “a hypothetical unit of currency that has the same purchasing power parity that the U.S. dollar had in the United States at a given point in time” – 2005, in this case.
The package contains two main data frames or tibbles:
gapminder
: 12 rows for each country (1952, 1957, …,
2007). It’s a subset of …gapminder_unfiltered
: more lightly filtered and
therefore about twice as many rows.Note: this package exists for the purpose of teaching and making code examples. It is an excerpt of data found in specific spreadsheets on Gapminder.org circa 2010. It is not a definitive source of socioeconomic data and I don’t update it. Use other data sources if it’s important to have the current best estimate of these statistics.
Install gapminder
from CRAN:
Load it and test drive with some data aggregation and plotting:
library(gapminder)
library(dplyr)
library(ggplot2)
aggregate(lifeExp ~ continent, gapminder, median)
#> continent lifeExp
#> 1 Africa 47.7920
#> 2 Americas 67.0480
#> 3 Asia 61.7915
#> 4 Europe 72.2410
#> 5 Oceania 73.6650
gapminder %>%
filter(year == 2007) %>%
group_by(continent) %>%
summarise(lifeExp = median(lifeExp))
#> # A tibble: 5 × 2
#> continent lifeExp
#> <fct> <dbl>
#> 1 Africa 52.9
#> 2 Americas 72.9
#> 3 Asia 72.4
#> 4 Europe 78.6
#> 5 Oceania 80.7
ggplot(gapminder, aes(x = continent, y = lifeExp)) +
geom_boxplot(outlier.colour = "hotpink") +
geom_jitter(position = position_jitter(width = 0.1, height = 0), alpha = 1 / 4)
country_colors
and continent_colors
are
provided as character vectors where elements are hex colors and the
names are countries or continents.
head(country_colors, 4)
#> Nigeria Egypt Ethiopia Congo, Dem. Rep.
#> "#7F3B08" "#833D07" "#873F07" "#8B4107"
head(continent_colors)
#> Africa Americas Asia Europe Oceania
#> "#7F3B08" "#A50026" "#40004B" "#276419" "#313695"
The color schemes are available as:
continent-colors.tsv
and country-colors.tsv
,
which are part of the installed packageProvide country_colors
to
scale_color_manual()
like so:
library("ggplot2")
ggplot(
subset(gapminder, continent != "Oceania"),
aes(x = year, y = lifeExp, group = country, color = country)
) +
geom_line(linewidth = 0.8, show.legend = FALSE) +
facet_wrap(~continent) +
scale_color_manual(values = country_colors) +
theme_bw() +
theme(
strip.text = element_text(size = rel(0.8)),
axis.text.x = element_text(angle = 45, hjust=1)
)
# for convenience, integrate the country colors into the data.frame
gap_with_colors <-data.frame(
gapminder,
cc = I(country_colors[match(gapminder$country, names(country_colors))])
)
# bubble plot, focus just on Africa and Europe in 2007
keepers <- with(
gap_with_colors,
continent %in% c("Africa", "Europe") & year == 2007
)
plot(lifeExp ~ gdpPercap, gap_with_colors,
subset = keepers, log = "x", pch = 21,
cex = sqrt(gap_with_colors$pop[keepers] / pi) / 1500,
bg = gap_with_colors$cc[keepers]
)
The country_codes
data frame provides ISO 3166-1 country
codes for all the countries in the gapminder
and
gapminder_unfiltered
data frames. This can be used to
practice joining or merging.
library(dplyr)
gapminder %>%
filter(year == 2007, country %in% c("Kenya", "Peru", "Syria")) %>%
select(country, continent) %>%
left_join(country_codes)
#> # A tibble: 3 × 4
#> country continent iso_alpha iso_num
#> <chr> <fct> <chr> <int>
#> 1 Kenya Africa KEN 404
#> 2 Peru Americas PER 604
#> 3 Syria Asia SYR 760
gapminder
good for?This excerpt has been used in STAT
545, in R-flavored Software
Carpentry Workshops and a ggplot2
tutorial. gapminder
is very useful for teaching novices
data wrangling and visualization in R.
Description:
iris
(150
rows) and the likes of diamonds
(54K rows)country
a factor with 142 levelscontinent
, a factor with 5 levelsyear
: going from 1952 to 2007 in increments of 5
yearspop
: populationgdpPercap
: GDP per capitalifeExp
: life expectancyThere are 12 rows for each country in gapminder
,
i.e. complete data for 1952, 1957, …, 2007.
The two factors provide opportunities to demonstrate factor handling, in aggregation and visualization, for factors with very few and very many levels.
The four quantitative variables are generally quite correlated with
each other and these trends have interesting relationships to
country
and continent
, so you will find that
simple plots and aggregations tell a reasonable story and are not
completely boring.
Visualization of the temporal trends in life expectancy, by country, is particularly rewarding, since there are several countries with sharp drops due to political upheaval. This then motivates more systematic investigations via data aggregation to proactively identify all countries whose data exhibits certain properties.
Data cleaning code cannot be clean. It's a sort of sin eater.
— Stat Fact (@StatFact)
July
25, 2014
The data-raw
directory contains the Excel spreadsheets downloaded from Gapminder in 2008 and 2009 and all
the scripts necessary to create everything in this package, in raw and
“compiled notebook” form.
If you want to practice importing from file, various tab delimited files are included:
gapminder.tsv
:
the same dataset available via
library("gapminder"); gapminder
gapminder-unfiltered.tsv
:
the larger dataset available via
library("gapminder"); gapminder_unfiltered
.continent-colors.tsv
and country-colors.tsv
:
color schemesIn the package’s GitHub repo, these delimited files can be found:
inst/extdata/
sub-directoryOnce you’ve installed the gapminder
package they can be
found locally and used like so:
gap_tsv <- system.file("extdata", "gapminder.tsv", package = "gapminder")
gap_tsv <- read.delim(gap_tsv)
str(gap_tsv)
#> 'data.frame': 1704 obs. of 6 variables:
#> $ country : chr "Afghanistan" "Afghanistan" "Afghanistan" "Afghanistan" ...
#> $ continent: chr "Asia" "Asia" "Asia" "Asia" ...
#> $ year : int 1952 1957 1962 1967 1972 1977 1982 1987 1992 1997 ...
#> $ lifeExp : num 28.8 30.3 32 34 36.1 ...
#> $ pop : int 8425333 9240934 10267083 11537966 13079460 14880372 12881816 13867957 16317921 22227415 ...
#> $ gdpPercap: num 779 821 853 836 740 ...
gap_tsv %>% # Bhutan did not make the cut because data for only 8 years :(
filter(country == "Bhutan")
#> [1] country continent year lifeExp pop gdpPercap
#> <0 rows> (or 0-length row.names)
gap_bigger_tsv <-
system.file("extdata", "gapminder-unfiltered.tsv", package = "gapminder")
gap_bigger_tsv <- read.delim(gap_bigger_tsv)
str(gap_bigger_tsv)
#> 'data.frame': 3313 obs. of 6 variables:
#> $ country : chr "Afghanistan" "Afghanistan" "Afghanistan" "Afghanistan" ...
#> $ continent: chr "Asia" "Asia" "Asia" "Asia" ...
#> $ year : int 1952 1957 1962 1967 1972 1977 1982 1987 1992 1997 ...
#> $ lifeExp : num 28.8 30.3 32 34 36.1 ...
#> $ pop : int 8425333 9240934 10267083 11537966 13079460 14880372 12881816 13867957 16317921 22227415 ...
#> $ gdpPercap: num 779 821 853 836 740 ...
gap_bigger_tsv %>% # Bhutan IS here though! :)
filter(country == "Bhutan")
#> country continent year lifeExp pop gdpPercap
#> 1 Bhutan Asia 1972 41.837 1087991 807.6226
#> 2 Bhutan Asia 1977 44.708 1205659 816.3102
#> 3 Bhutan Asia 1982 47.872 1333704 946.8130
#> 4 Bhutan Asia 1987 50.717 1490857 1494.2901
#> 5 Bhutan Asia 1992 54.471 1673428 1904.1795
#> 6 Bhutan Asia 1997 58.929 1876236 2561.5077
#> 7 Bhutan Asia 2002 63.458 2094176 3256.0193
#> 8 Bhutan Asia 2007 65.625 2327849 4744.6400
read.delim(
system.file("extdata", "continent-colors.tsv", package = "gapminder")
)
#> continent n_cty color
#> 1 Africa 52 #7F3B08
#> 2 Americas 25 #A50026
#> 3 Asia 33 #40004B
#> 4 Europe 30 #276419
#> 5 Oceania 2 #313695
head(
read.delim(
system.file("extdata", "country-colors.tsv", package = "gapminder")
)
)
#> country color continent
#> 1 Nigeria #7F3B08 Africa
#> 2 Egypt #833D07 Africa
#> 3 Ethiopia #873F07 Africa
#> 4 Congo, Dem. Rep. #8B4107 Africa
#> 5 South Africa #8F4407 Africa
#> 6 Sudan #934607 Africa
Gapminder’s data is released under the Creative Commons Attribution 3.0 Unported license. See their terms of use.
Run this command to get info on how to cite this package. If you’ve installed gapminder from CRAN, the year will be populated and populated correctly (unlike below).
citation("gapminder")
#> To cite package 'gapminder' in publications use:
#>
#> Bryan J (????). _gapminder: Data from Gapminder_. R package version
#> 1.0.0.9000, https://www.gapminder.org/data/,
#> https://doi.org/10.5281/zenodo.594018,
#> https://jennybc.github.io/gapminder/,
#> <https://github.com/jennybc/gapminder>.
#>
#> A BibTeX entry for LaTeX users is
#>
#> @Manual{,
#> title = {gapminder: Data from Gapminder},
#> author = {Jennifer Bryan},
#> note = {R package version 1.0.0.9000,
#> https://www.gapminder.org/data/,
#> https://doi.org/10.5281/zenodo.594018,
#> https://jennybc.github.io/gapminder/},
#> url = {https://github.com/jennybc/gapminder},
#> }