56973ae26e | ||
---|---|---|
example_proxy | ||
src | ||
srcgen | ||
tests | ||
.gitignore | ||
Cargo.toml | ||
LICENSE | ||
README.md | ||
doc.bash | ||
test.bash |
README.md
Riven
Rust Library for the Riot Games API.
Riven's goals are speed, reliability, and maintainability. Riven handles rate limits and large requests with ease. Data structs and endpoints are automatically generated from the Riot API Reference (Swagger).
Design
- Fast, asynchronous, thread-safe.
- Automatically retries failed requests.
- TFT API Support.
Usage
use riven::RiotApi;
use riven::consts::PlatformRoute;
// Enter tokio async runtime.
let mut rt = tokio::runtime::Runtime::new().unwrap();
rt.block_on(async {
// Create RiotApi instance from key string.
let api_key = "RGAPI-01234567-89ab-cdef-0123-456789abcdef";
# /* (doc testing) */ let api_key = std::env!("RGAPI_KEY");
let riot_api = RiotApi::with_key(api_key);
// Get summoner data.
let summoner = riot_api.summoner_v4()
.get_by_summoner_name(PlatformRoute::NA1, "잘 못").await
.expect("Get summoner failed.")
.expect("There is no summoner with that name.");
// Print summoner name.
println!("{} Champion Masteries:", summoner.name);
// Get champion mastery data.
let masteries = riot_api.champion_mastery_v4()
.get_all_champion_masteries(PlatformRoute::NA1, &summoner.id).await
.expect("Get champion masteries failed.");
// Print champioon masteries.
for (i, mastery) in masteries.iter().take(10).enumerate() {
println!("{: >2}) {: <9} {: >7} ({})", i + 1,
mastery.champion_id.to_string(),
mastery.champion_points, mastery.champion_level);
}
});
Output:
잘 못 Champion Masteries:
1) Riven 1219895 (7)
2) Fiora 229714 (5)
3) Katarina 175985 (5)
4) Lee Sin 150546 (7)
5) Jax 100509 (5)
6) Gnar 76373 (6)
7) Kai'Sa 64271 (5)
8) Caitlyn 46479 (5)
9) Irelia 46465 (5)
10) Vladimir 37176 (5)
Nightly vs Stable
Enable the nightly
feature to use nightly-only functionality. Mainly enables
nightly optimizations in the parking_lot
crate.
Also required for running async integration tests.
Docs
Error Handling
Riven returns either Result<T>
or Result<Option<T>>
within futures.
If the Result
is errored, this indicates that the API request failed to
complete successfully, which may be due to bad user input, Riot server errors,
incorrect API key, etc.
If the Option
is None
, this indicates that the request completed
successfully but no data was returned. This happens in several situations, such
as getting a summoner (by name) or match (by id) that doesn't exist, or getting
spectator data for a summoner who is not in-game.
Specifically, the API returned a 404 HTTP status code in this situation.
The error type used by Riven is riven::RiotApiError
. It provides some basic
diagnostic information, such as the source Reqwest error, the number of retries
attempted, and the Reqwest Response
object.
You can configure the number of time Riven retries using
RiotApiConfig::set_retries(...)
and the RiotApi::with_config(config)
constructor. By default, Riven retries up to 3 times (4 requests total).
Some errors, such as 400 client errors, are not retried as they would
inevitably fail again.
Semantic Versioning
This package follows semantic versioning to an extent. However, the Riot API itself changes often and does not follow semantic versioning, which makes things difficult. Out-of-date versions will slowly partially cease to work due to this.
When the API changes, this may result in breaking changes in the models
module, endpoints
module, and some of the consts
module. "Handle accessor"
methods may be removed from RiotApi
if the corresponding endpoint is removed
from the Riot API. These breaking changes will increment the MINOR version,
not the major version.
Parts of Riven that do not depend on Riot API changes do follow semantic versioning.
Additional Help
Feel free to make an issue if you are have any questions or trouble with Riven.
Development
NodeJS is used to generate code for Riven. The
srcgen/
folder contains the code and doT.js
templates. index.js
lists the JSON files downloaded and used to generate the
code.
To set up the srcgen, you will first need to install NodeJS. Then enter the
srcgen folder and run npm ci
(or npm install
) to install dependencies.
To run the srcgen use node srcgen
from the main folder.