Expand description
§google_maps
An unofficial Google Maps Platform client library for the Rust programming language.
This client currently implements the Directions API, Distance Matrix API, Elevation API, Geocoding API, Time Zone API, and parts of the Places and Roads API.
§Installation
Configure the dependencies:
[dependencies]
google_maps = "3.7"Optionally, add rust_decimal = "1" and rust_decimal_macros = "1" for
access to the dec! macro. This macro can be used to define decimal numbers
in your program.
This is useful for hard-coding latitudes and longitudes into your code for testing.
§Feature Flags
The desired Google Maps APIs can be enabled individually via feature flags.
Additionally, usage of rustls for Reqwest is supported.
§Google Maps Client Feature Flags:
autocomplete‧ includes Google Maps Places autocomplete APIdirections‧ includes Google Maps Directions APIdistance_matrix‧ includes Google Maps Distance Matrix APIelevation‧ includes Google Maps Elevation APIgeocoding‧ includes Google Maps Geocoding APIplaces‧ includes Google Maps Places APIroads‧ includes Google Maps Roads APItime_zone‧ includes Google Maps Time Zone APIreqwest‧ uses reqwest for querying the Google Maps APIreqwest-middleware‧ uses reqwest-middleware for querying the Google Maps APIgeo‧ support for the rust geo ecosystempolyline‧ allows easy type conversions from aRouteorStepto a geo LineString
Note: the autocomplete feature covers the Places API autocomplete-related
services:
Place Autocomplete requests
and Query Autocomplete requests.
All other Places API services are covered by the places feature.
§Reqwest Feature Flags
For use with reqwest only.
reqwest-native-tls‧ Enables TLS functionality provided bynative-tls.reqwest-rustls‧ Enables TLS functionality provided byrustls.
§Default Feature Flags
By default, the Google Maps client includes all implemented Google Maps
APIs. Reqwest will secure the connection using the system-native TLS
(native-tls), and has gzip compression enabled (gzip).
default = [
# google_maps default features:
"directions",
"distance_matrix",
"elevation",
"geocoding",
"time_zone",
# `autocomplete` covers the Places API autocomplete-related services.
# All other Places API services are under `places` feature.
"autocomplete",
"roads",
"places",
# reqwest default features:
"reqwest",
"reqwest-default-tls",
"reqwest-http2",
"reqwest-brotli",
# rust_decimal default features:
"decimal-serde",
# simd-json default features:
"simd-json-beef",
"simd-json-known-key",
]§Feature flag usage example
This example will only include the Google Maps Directions API. Reqwest will secure the connection using the Rustls library, and has brotli compression enabled.
google_maps = {
version = "3.7",
default-features = false,
features = [
"directions",
"reqwest",
"reqwest-rustls",
"reqwest-brotli"
]
}§Release Notes
The full changelog is available here.
Releases are available on GitHub.
§Examples
§Directions API
The Directions API is a service that calculates directions between locations. You can search for directions for several modes of transportation, including transit, driving, walking, or cycling.
use google_maps::prelude::*;
let google_maps_client = GoogleMapsClient::new("YOUR_GOOGLE_API_KEY_HERE");
// Example request:
let directions = google_maps_client.directions(
// Origin: Canadian Museum of Nature
Location::from_address("240 McLeod St, Ottawa, ON K2P 2R1"),
// Destination: Canada Science and Technology Museum
Location::try_from_f32(45.403_509, -75.618_904)?,
)
.with_travel_mode(TravelMode::Driving)
.execute()
.await?;
// Dump entire response:
println!("{:#?}", directions);§Distance Matrix API
The Distance Matrix API is a service that provides travel distance and time for a matrix of origins and destinations, based on the recommended route between start and end points.
use google_maps::prelude::*;
let google_maps_client = GoogleMapsClient::new("YOUR_GOOGLE_API_KEY_HERE");
// Example request:
let distance_matrix = google_maps_client.distance_matrix(
// Origins
vec![
// Microsoft
Waypoint::from_address("One Microsoft Way, Redmond, WA 98052, United States"),
// Cloudflare
Waypoint::from_address("101 Townsend St, San Francisco, CA 94107, United States"),
],
// Destinations
vec![
// Google
Waypoint::from_place_id("ChIJj61dQgK6j4AR4GeTYWZsKWw"),
// Mozilla
Waypoint::try_from_f32(37.387_316, -122.060_008)?,
],
).execute().await?;
// Dump entire response:
println!("{:#?}", distance_matrix);§Elevation API (Positional)
The Elevation API provides elevation data for all locations on the surface of the earth, including depth locations on the ocean floor (which return negative values).
use google_maps::prelude::*;
let google_maps_client = GoogleMapsClient::new("YOUR_GOOGLE_API_KEY_HERE");
// Example request:
let elevation = google_maps_client.elevation()
// Denver, Colorado, the "Mile High City"
.for_positional_request(LatLng::try_from_dec(dec!(39.739_154), dec!(-104.984_703))?)
.execute()
.await?;
// Dump entire response:
println!("{:#?}", elevation);
// Display all results:
if let Some(results) = &elevation.results {
for result in results {
println!("Elevation: {} meters", result.elevation)
}
}§Geocoding API
The Geocoding API is a service that provides geocoding and reverse geocoding of addresses. Geocoding is the process of converting addresses (like a street address) into geographic coordinates (like latitude and longitude), which you can use to place markers on a map, or position the map.
use google_maps::prelude::*;
let google_maps_client = GoogleMapsClient::new("YOUR_GOOGLE_API_KEY_HERE");
// Example request:
let location = google_maps_client.geocoding()
.with_address("10 Downing Street London")
.execute()
.await?;
// Dump entire response:
println!("{:#?}", location);
// Print latitude & longitude coordinates:
for result in location.results {
println!("{}", result.geometry.location)
}§Reverse Geocoding API
The Geocoding API is a service that provides geocoding and reverse geocoding of addresses. Reverse geocoding is the process of converting geographic coordinates into a human-readable address.
use google_maps::prelude::*;
let google_maps_client = GoogleMapsClient::new("YOUR_GOOGLE_API_KEY_HERE");
// Example request:
let location = google_maps_client.reverse_geocoding(
// 10 Downing St, Westminster, London
LatLng::try_from_dec(dec!(51.503_364), dec!(-0.127_625))?,
)
.with_result_type(PlaceType::StreetAddress)
.execute()
.await?;
// Dump entire response:
println!("{:#?}", location);
// Display all results:
for result in location.results {
println!(
"{}",
result.address_components.iter()
.map(|address_component| address_component.short_name.to_string())
.collect::<Vec<String>>()
.join(", ")
);
}§Time Zone API
The Time Zone API provides time offset data for locations on the surface of the earth. You request the time zone information for a specific latitude/longitude pair and date. The API returns the name of that time zone, the time offset from UTC, and the daylight savings offset.
use google_maps::prelude::*;
let google_maps_client = GoogleMapsClient::new("YOUR_GOOGLE_API_KEY_HERE");
// Example request:
let time_zone = google_maps_client.time_zone(
// St. Vitus Cathedral in Prague, Czechia
LatLng::try_from_dec(dec!(50.090_903), dec!(14.400_512))?,
// The time right now in UTC (Coordinated Universal Time)
Utc::now()
).execute().await?;
// Dump entire response:
println!("{:#?}", time_zone);
// Usage example:
println!("Time at your computer: {}", Local::now().to_rfc2822());
if let Some(time_zone_id) = time_zone.time_zone_id {
println!(
"Time in {}: {}",
time_zone_id.name(),
Utc::now().with_timezone(&time_zone_id).to_rfc2822()
);
}§Geolocation API
Google’s Geolocation API seems to be offline. While the online documentation
is still available and the API appears configurable through the Google Cloud
Platform console, the Geolocation API responds Status code 404 Not Found
with an empty body to all requests. This API cannot be implemented until the
server responds as expected.
§Controlling Request Settings
The Google Maps client settings can be used to change the request rate and automatic retry parameters.
use google_maps::prelude::*;
let google_maps_client = GoogleMapsClient::new("YOUR_GOOGLE_API_KEY_HERE")
// For all Google Maps Platform APIs, the client will limit 2 sucessful
// requests for every 10 seconds:
.with_rate(&Api::All, 2, std::time::Duration::from_secs(10))
// Returns the `GoogleMapsClient` struct to the caller. This struct is used
// to make Google Maps Platform requests.
.build();§Feedback
I would like for you to be successful with your project! If this crate is not working for you, doesn’t work how you think it should, or if you have requests, or suggestions - please report them to me! I’m not always fast at responding but I will respond. Thanks!
§Roadmap
- Track both requests and request elements for rate limiting.
-
Make a generic
get()function for that can be used by all APIs. - Convert explicit query validation to session types wherever reasonable.
- Places API. Only partly implemented. If you would like to have any missing pieces implemented, please contact me.
- Roads API. Only partly implemented. If you would like to have any missing pieces implemented, please contact me.
§Author’s Note
This crate is expected to work well and have the more important Google Maps features implemented. It should work well because serde, simd-json and, by default, reqwest do most of the heavy lifting!
I created this client library because I needed several Google Maps Platform features for a project that I’m working on. So, I’ve decided to spin my library off into a public crate. This is a very small token of gratitude and an attempt to give back to the Rust community. I hope it saves someone out there some work.
Re-exports§
Modules§
- The Directions API is a service that calculates directions between locations. You can search for directions for several modes of transportation, including transit, driving, walking, or cycling.
- The Distance Matrix API is a service that provides travel distance and time for a matrix of origins and destinations, based on the recommended route between start and end points.
- The Elevation API provides elevation data for all locations on the surface of the earth, including depth locations on the ocean floor (which return negative values).
- Google Maps Platform API error types and error messages.
- The Geocoding API is a service that provides geocoding and reverse geocoding of addresses. It can be used to convert a street address to geographic coordinates (latitude & longitude), or vice versa.
- The Places API is a service that returns information about places. Places are defined within this API as establishments, geographic locations, or prominent points of interest.
- Put
use google_maps::prelude::*;in your code will to get more convenient access to everything you need. If you’re not concerned with name space collisions or conflicts, you can glob import allgoogle_mapsstructs and enums by using this module. - Roads API - Identify the roads a vehicle is traveling along, and get metadata about those roads.
- The Time Zone API provides time offset data for locations on the surface of the earth. You request the time zone information for a specific latitude/longitude pair and date. The API returns the name of that time zone, the time offset from UTC, and the daylight savings offset.
- Common types used across several Google Maps API interfaces.
Structs§
- Contains the separate components applicable to this address.
- Contains the recommended viewport for displaying the returned result, specified as two latitude & longitude pairs defining the southwest and northeast corner of the viewport bounding box. Generally the viewport is used to frame a result when displaying it to a user.
- Use the
GoogleMapsClientstruct’s implemented methods to set your Google API key and other settings such as: rate limiting, maxium retries, & retry delay times for your requests. - Contains the geocoded latitude/longitude, recommended viewport for displaying the returned result, the bounding box, and other additional data.
- Use the
GoogleMapsClientstruct’s implemented methods to set your Google API key and other settings such as: rate limiting, maxium retries, & retry delay times for your requests. - Latitude and longitude values must correspond to a valid location on the face of the earth. Latitudes can take any value between -90 and 90 while longitude values can take any value between -180 and 180. If you specify an invalid latitude or longitude value, your request will be rejected as a bad request.
Enums§
Apiis used to select an API to configure. For example, the Google Maps Client can be set to have different request rates forDirectionsandElevationrequests. Thisenumis used to select which Google Maps API you would like to configure.- Country is the national political entity and is typically the highest order type returned by the Geocoder.
- Specifies the language in which to return results.
- Stores additional data about the specified location.
- This specifies the types or categories of a place. For example, a returned location could be a “country” (as in a nation) or it could be a “shopping mall.” Also, a requested place could be a “locality” (a city) or a “
street_address” This type helps define the data that is being returned or sought. See Place Types for more information. - Specifies the region bias.
- Errors that may be produced by crate types from implementations and associated functions. For example, type conversions, instantiations, etc.