lib.rs source code [crates/rand-0.8.5/src/lib.rs]

1	// Copyright 2018 Developers of the Rand project.
2	// Copyright 2013-2017 The Rust Project Developers.
3	//
4	// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
5	// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
6	// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
7	// option. This file may not be copied, modified, or distributed
8	// except according to those terms.
9
10	//! Utilities for random number generation
11	//!
12	//! Rand provides utilities to generate random numbers, to convert them to
13	//! useful types and distributions, and some randomness-related algorithms.
14	//!
15	//! # Quick Start
16	//!
17	//! To get you started quickly, the easiest and highest-level way to get
18	//! a random value is to use [`random()`]; alternatively you can use
19	//! [`thread_rng()`]. The [`Rng`] trait provides a useful API on all RNGs, while
20	//! the [`distributions`] and [`seq`] modules provide further
21	//! functionality on top of RNGs.
22	//!
23	//! ```
24	//! use rand::prelude::*;
25	//!
26	//! if rand::random() { // generates a boolean
27	//! // Try printing a random unicode code point (probably a bad idea)!
28	//! println!("char: {}", rand::random::<char>());
29	//! }
30	//!
31	//! let mut rng = rand::thread_rng();
32	//! let y: f64 = rng.gen(); // generates a float between 0 and 1
33	//!
34	//! let mut nums: Vec<i32> = (`1`..`100`).collect();
35	//! nums.shuffle(&mut rng);
36	//! ```
37	//!
38	//! # The Book
39	//!
40	//! For the user guide and further documentation, please read
41	//! [The Rust Rand Book](https://rust-random.github.io/book).
42
43	#![doc(
44	html_logo_url = "https://www.rust-lang.org/logos/rust-logo-128x128-blk.png",
45	html_favicon_url = "https://www.rust-lang.org/favicon.ico",
46	html_root_url = "https://rust-random.github.io/rand/"
47	)]
48	#![deny(missing_docs)]
49	#![deny(missing_debug_implementations)]
50	#![doc(test(attr(allow(unused_variables), deny(warnings))))]
51	#![no_std]
52	#![cfg_attr(feature = "simd_support", feature(stdsimd))]
53	#![cfg_attr(doc_cfg, feature(doc_cfg))]
54	#![allow(
55	clippy::float_cmp,
56	clippy::neg_cmp_op_on_partial_ord,
57	)]
58
59	#[cfg(feature = "std")] extern crate std;
60	#[cfg(feature = "alloc")] extern crate alloc;
61
62	#[allow(unused)]
63	macro_rules! trace { ($($x:tt)*) => (
64	#[cfg(feature = "log")] {
65	log::trace!($($x)*)
66	}
67	) }
68	#[allow(unused)]
69	macro_rules! debug { ($($x:tt)*) => (
70	#[cfg(feature = "log")] {
71	log::debug!($($x)*)
72	}
73	) }
74	#[allow(unused)]
75	macro_rules! info { ($($x:tt)*) => (
76	#[cfg(feature = "log")] {
77	log::info!($($x)*)
78	}
79	) }
80	#[allow(unused)]
81	macro_rules! warn { ($($x:tt)*) => (
82	#[cfg(feature = "log")] {
83	log::warn!($($x)*)
84	}
85	) }
86	#[allow(unused)]
87	macro_rules! error { ($($x:tt)*) => (
88	#[cfg(feature = "log")] {
89	log::error!($($x)*)
90	}
91	) }
92
93	// Re-exports from rand_core
94	pub use rand_core::{CryptoRng, Error, RngCore, SeedableRng};
95
96	// Public modules
97	pub mod distributions;
98	pub mod prelude;
99	mod rng;
100	pub mod rngs;
101	pub mod seq;
102
103	// Public exports
104	#[cfg(all(feature = "std", feature = "std_rng"))]
105	pub use crate::rngs::thread::thread_rng;
106	pub use rng::{Fill, Rng};
107
108	#[cfg(all(feature = "std", feature = "std_rng"))]
109	use crate::distributions::{Distribution, Standard};
110
111	/// Generates a random value using the thread-local random number generator.
112	///
113	/// This is simply a shortcut for `thread_rng().gen()`. See [`thread_rng`] for
114	/// documentation of the entropy source and [`Standard`] for documentation of
115	/// distributions and type-specific generation.
116	///
117	/// # Provided implementations
118	///
119	/// The following types have provided implementations that
120	/// generate values with the following ranges and distributions:
121	///
122	/// Integers (`i32`, `u32`, `isize`, `usize`, etc.): Uniformly distributed*
123	/// over all values of the type.
124	/// `char`: Uniformly distributed over all Unicode scalar values, i.e. all*
125	/// code points in the range `0...0x10_FFFF`, except for the range
126	/// `0xD800...0xDFFF` (the surrogate code points). This includes
127	/// unassigned/reserved code points.
128	/// `bool`: Generates `false` or `true`, each with probability 0.5.*
129	/// Floating point types (`f32` and `f64`): Uniformly distributed in the*
130	/// half-open range `[0, 1)`. See notes below.
131	/// Wrapping integers (`Wrapping<T>`), besides the type identical to their*
132	/// normal integer variants.
133	///
134	/// Also supported is the generation of the following
135	/// compound types where all component types are supported:
136	///
137	/// Tuples (up to 12 elements): each element is generated sequentially.*
138	/// Arrays (up to 32 elements): each element is generated sequentially;*
139	/// see also [`Rng::fill`] which supports arbitrary array length for integer
140	/// types and tends to be faster for `u32` and smaller types.
141	/// `Option<T>` first generates a `bool`, and if true generates and returns*
142	/// `Some(value)` where `value: T`, otherwise returning `None`.
143	///
144	/// # Examples
145	///
146	/// ```
147	/// let x = rand::random::<u8>();
148	/// println!("{}", x);
149	///
150	/// let y = rand::random::<f64>();
151	/// println!("{}", y);
152	///
153	/// if rand::random() { // generates a boolean
154	/// println!("Better lucky than good!");
155	/// }
156	/// ```
157	///
158	/// If you're calling `random()` in a loop, caching the generator as in the
159	/// following example can increase performance.
160	///
161	/// ```
162	/// use rand::Rng;
163	///
164	/// let mut v = vec![`1`, `2`, `3`];
165	///
166	/// for x in v.iter_mut() {
167	/// *x = rand::random()
168	/// }
169	///
170	/// // can be made faster by caching thread_rng
171	///
172	/// let mut rng = rand::thread_rng();
173	///
174	/// for x in v.iter_mut() {
175	/// *x = rng.gen();
176	/// }
177	/// ```
178	///
179	/// [`Standard`]: distributions::Standard
180	#[cfg(all(feature = "std", feature = "std_rng"))]
181	#[cfg_attr(doc_cfg, doc(cfg(all(feature = "std", feature = "std_rng"))))]
182	#[inline]
183	pub fn random<T>() -> T
184	where Standard: Distribution<T> {
185	thread_rng().gen()
186	}
187
188	#[cfg(test)]
189	mod test {
190	use super::*;
191
192	/// Construct a deterministic RNG with the given seed
193	pub fn rng(seed: u64) -> impl RngCore {
194	// For tests, we want a statistically good, fast, reproducible RNG.
195	// PCG32 will do fine, and will be easy to embed if we ever need to.
196	const INC: u64 = `11634580027462260723`;
197	rand_pcg::Pcg32::new(seed, INC)
198	}
199
200	#[test]
201	#[cfg(all(feature = "std", feature = "std_rng"))]
202	fn test_random() {
203	let _n: usize = random();
204	let _f: f32 = random();
205	let _o: Option<Option<i8>> = random();
206	#[allow(clippy::type_complexity)]
207	let _many: (
208	(),
209	(usize, isize, Option<(u32, (bool,))>),
210	(u8, i8, u16, i16, u32, i32, u64, i64),
211	(f32, (f64, (f64,))),
212	) = random();
213	}
214	}
215