commit | 583455da2fe2809328d09784fe2d48f304029ad4 | [log] [tgz] |
---|---|---|
author | Alex Crichton <alex@alexcrichton.com> | Mon Jun 27 10:43:04 2016 -0700 |
committer | GitHub <noreply@github.com> | Mon Jun 27 10:43:04 2016 -0700 |
tree | 9fdbaf9ee41aebc98e6a875b50195aae3762ede3 | |
parent | 39290452edcf93acdd0b8a43ce5e22c8ab61e374 [diff] | |
parent | 875d66d73b95b522a42cfd9a6aa64cb1e0f0b007 [diff] |
Merge pull request #105 from ollie27/msvc_tests Revert "Ignore should_panic tests on MSVC"
A Rust library for random number generators and other randomness functionality.
Add this to your Cargo.toml
:
[dependencies] rand = "0.3"
and this to your crate root:
extern crate rand;
There is built-in support for a random number generator (RNG) associated with each thread stored in thread-local storage. This RNG can be accessed via thread_rng, or used implicitly via random. This RNG is normally randomly seeded from an operating-system source of randomness, e.g. /dev/urandom on Unix systems, and will automatically reseed itself from this source after generating 32 KiB of random data.
let tuple = rand::random::<(f64, char)>(); println!("{:?}", tuple)
use rand::Rng; let mut rng = rand::thread_rng(); if rng.gen() { // random bool println!("i32: {}, u32: {}", rng.gen::<i32>(), rng.gen::<u32>()) }
It is also possible to use other RNG types, which have a similar interface. The following uses the “ChaCha” algorithm instead of the default.
use rand::{Rng, ChaChaRng}; let mut rng = rand::ChaChaRng::new_unseeded(); println!("i32: {}, u32: {}", rng.gen::<i32>(), rng.gen::<u32>())