Tidygeocoder makes getting data from geocoding services easy. A unified high-level interface is provided for a selection of supported geocoding services and results are returned in tibble (dataframe) format.
Note that you should exercise due diligence when geocoding sensitive data as tidygeocoder utilizes third party web services to perform geocoding. Refer to the documentation on your selected geocoding service for information on how your data will be utilized and stored. See further information on this subject here.
Features:
- Forward geocoding (addresses ⮕ coordinates)
- Reverse geocoding (coordinates ⮕ addresses)
- Batch geocoding (geocoding multiple addresses or coordinates in a single query) is automatically used if applicable.
- Duplicate, NA, and blank input data is handled elegantly; only unique inputs are submitted in queries, but the rows in the original data are preserved by default.
- The maximum rate of querying is automatically set according to the usage policies of the selected geocoding service.
In addition to the usage examples below, see the Getting Started Vignette and blog posts on tidygeocoder.
To install the stable version from CRAN (the official R package servers):
install.packages('tidygeocoder')
Alternatively, you can install the latest development version from GitHub:
devtools::install_github("jessecambon/tidygeocoder")
In this first example we will geocode a few addresses using the
geocode()
function and plot them on a map with ggplot.
library(dplyr, warn.conflicts = FALSE)
library(tidygeocoder)
# create a dataframe with addresses
some_addresses <- tibble::tribble(
~name, ~addr,
"White House", "1600 Pennsylvania Ave NW, Washington, DC",
"Transamerica Pyramid", "600 Montgomery St, San Francisco, CA 94111",
"Willis Tower", "233 S Wacker Dr, Chicago, IL 60606"
)
# geocode the addresses
lat_longs <- some_addresses %>%
geocode(addr, method = 'osm', lat = latitude , long = longitude)
#> Passing 3 addresses to the Nominatim single address geocoder
#> Query completed in: 3 seconds
The geocode()
function geocodes addresses contained in a dataframe.
The Nominatim (“osm”) geocoding service is
used here, but other services can be specified with the method
argument. Only latitude and longitude are returned from the geocoding
service in this example, but full_results = TRUE
can be used to return
all of the data from the geocoding service. See the geo()
function
documentation for details.
name | addr | latitude | longitude |
---|---|---|---|
White House | 1600 Pennsylvania Ave NW, Washington, DC | 38.89770 | -77.03655 |
Transamerica Pyramid | 600 Montgomery St, San Francisco, CA 94111 | 37.79520 | -122.40279 |
Willis Tower | 233 S Wacker Dr, Chicago, IL 60606 | 41.87887 | -87.63591 |
Now that we have the longitude and latitude coordinates, we can use ggplot to plot our addresses on a map.
library(ggplot2)
ggplot(lat_longs, aes(longitude, latitude), color = "grey99") +
borders("state") + geom_point() +
ggrepel::geom_label_repel(aes(label = name)) +
theme_void()
To perform reverse geocoding (obtaining addresses from geographic
coordinates), we can use the reverse_geocode()
function. The arguments
are similar to the geocode()
function, but now we specify the input
data columns with the lat
and long
arguments. The input dataset used
here is the results of the geocoding query above.
The single line address is returned in a column named by the address
argument and all columns from the geocoding service results are returned
because full_results = TRUE
. See the reverse_geo()
function
documentation for more details.
reverse <- lat_longs %>%
reverse_geocode(lat = latitude, long = longitude, method = 'osm',
address = address_found, full_results = TRUE) %>%
select(-addr, -licence)
#> Passing 3 coordinates to the Nominatim single coordinate geocoder
#> Query completed in: 3 seconds
name | latitude | longitude | address_found | place_id | osm_type | osm_id | osm_lat | osm_lon | office | house_number | road | city | state | ISO3166-2-lvl4 | postcode | country | country_code | boundingbox | tourism | neighbourhood | building | suburb | county |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
White House | 38.89770 | -77.03655 | White House, 1600, Pennsylvania Avenue Northwest, Washington, District of Columbia, 20500, United States | 164605957 | way | 238241022 | 38.897699700000004 | -77.03655315 | White House | 1600 | Pennsylvania Avenue Northwest | Washington | District of Columbia | US-DC | 20500 | United States | us | 38.8974908 , 38.897911 , -77.0368537, -77.0362519 | NA | NA | NA | NA | NA |
Transamerica Pyramid | 37.79520 | -122.40279 | Transamerica Pyramid, 600, Montgomery Street, Financial District, San Francisco, California, 94111, United States | 110070947 | way | 24222973 | 37.795200550000004 | -122.40279267840137 | NA | 600 | Montgomery Street | San Francisco | California | US-CA | 94111 | United States | us | 37.7948854 , 37.7954472 , -122.4031399, -122.4024317 | Transamerica Pyramid | Financial District | NA | NA | NA |
Willis Tower | 41.87887 | -87.63591 | Willis Tower, 233, South Wacker Drive, Printer’s Row, Loop, Chicago, Cook County, Illinois, 60606, United States | 119999324 | way | 58528804 | 41.878871700000005 | -87.63590784114558 | NA | 233 | South Wacker Drive | Chicago | Illinois | US-IL | 60606 | United States | us | 41.8785389 , 41.8791932 , -87.6363362, -87.6354746 | NA | Printer’s Row | Willis Tower | Loop | Cook County |
For inspiration, here are a few articles (with code) that leverage tidygeocoder:
- Exercises: Spatial Data Wrangling with sf - part of a statistical computing course at Duke
- Geocoding the Minard Map - recreating a famous infographic with geocoding
- Mapping a network of women in demography - using rvest and tidygeocoder to map Google Scholar data
- Mapping Routes - mapping routes with tidygeocoder and osrm
- Road Routing in R - demonstration of three different routing APIs
- Mapping Texas Ports With R - mapping the Texas coast with rnaturalearth and sf
Contributions to the tidygeocoder package are welcome. File an issue for bug fixes or suggested features. If you would like to contribute code such as adding support for a new geocoding service, reference the developer notes for instructions and documentation.
Use the citation()
function:
citation('tidygeocoder')
To cite tidygeocoder use: Cambon J, Hernangómez D, Belanger C, Possenriede D (2021). tidygeocoder: An R package for geocoding. Journal of Open Source Software, 6(65), 3544, https://doi.org/10.21105/joss.03544 (R package version 1.0.5) A BibTeX entry for LaTeX users is @Article{, title = {tidygeocoder: An R package for geocoding}, author = {Jesse Cambon and Diego Hernangómez and Christopher Belanger and Daniel Possenriede}, year = {2021}, journal = {Journal of Open Source Software}, publisher = {The Open Journal}, doi = {10.21105/joss.03544}, url = {https://doi.org/10.21105/joss.03544}, volume = {6}, number = {65}, pages = {3544}, note = {R package version 1.0.5}, }
Or refer to the citation page.