Struct rug::rand::RandState

pub struct RandState<'a> { /* fields omitted */ }

The state of a random number generator.

Examples

use rug::rand::RandState;
let mut rand = RandState::new();
let u = rand.bits(32);
println!("32 random bits: {:032b}", u);

Methods

impl<'a> RandState<'a>

pub fn new() -> RandState<'a>

Creates a new random generator with a compromise between speed and randomness.

Examples

use rug::rand::RandState;
let mut rand = RandState::new();
let u = rand.bits(32);
println!("32 random bits: {:032b}", u);

pub fn new_mersenne_twister() -> RandState<'a>

Creates a random generator with a Mersenne Twister algorithm.

Examples

use rug::rand::RandState;
let mut rand = RandState::new_mersenne_twister();
let u = rand.bits(32);
println!("32 random bits: {:032b}", u);

pub fn new_linear_congruential(a: &Integer, c: u32, bits: u32) -> RandState<'a>

Creates a new random generator with a linear congruential algorithm X = (a × X + c) mod 2^bits.

Examples

use rug::Integer;
use rug::rand::RandState;
let a = match Integer::from_str_radix("292787ebd3329ad7e7575e2fd", 16) {
    Ok(i) => i,
    Err(_) => unreachable!(),
};
let c = 1;
let bits = 100;
let mut rand = RandState::new_linear_congruential(&a, c, bits);
let u = rand.bits(32);
println!("32 random bits: {:032b}", u);

pub fn new_linear_congruential_size(size: u32) -> Option<RandState<'a>>

Creates a new random generator with a linear congruential algorithm like the new_linear_congruential method.

For the linear congrentail algorithm X = (a × X + c) mod 2^bits, a, c and bits are selected from a table such that at least size bits of each X will be used, that is bits ≥ size. The table only has values for a size of up to 256 bits; None will be returned if the requested size is larger.

Examples

use rug::rand::RandState;
let mut rand = match RandState::new_linear_congruential_size(100) {
    Some(r) => r,
    None => unreachable!(),
};
let u = rand.bits(32);
println!("32 random bits: {:032b}", u);

pub fn new_custom(custom: &'a mut RandGen) -> RandState<'a>

Creates a new custom random generator.

If the custom random generator is cloned, the implemented trait method RandGen::boxed_clone is called; this leads to panic if the method returns None.

Examples

use rug::Integer;
use rug::rand::{RandGen, RandState};
struct Seed;
impl RandGen for Seed {
    fn gen(&mut self) -> u32 { 0x8cef7310 }
}
let mut seed = Seed;
let mut rand = RandState::new_custom(&mut seed);
let mut i = Integer::from(15);
i.random_below_mut(&mut rand);
println!("0 ≤ {} < 15", i);
assert!(i < 15);

pub fn new_custom_boxed(custom: Box<RandGen>) -> RandState<'a>

Creates a new custom random generator.

If the custom random generator is cloned, the implemented trait method RandGen::boxed_clone is called; this leads to panic if the method returns None.

Examples

use rug::Integer;
use rug::rand::{RandGen, RandState};
struct Seed;
impl RandGen for Seed {
    fn gen(&mut self) -> u32 { 0x8cef7310 }
}
let seed = Box::new(Seed);
let mut rand = RandState::new_custom_boxed(seed);
let mut i = Integer::from(15);
i.random_below_mut(&mut rand);
println!("0 ≤ {} < 15", i);
assert!(i < 15);

pub fn seed(&mut self, seed: &Integer)

Seeds the random generator.

Examples

use rug::Integer;
use rug::rand::RandState;
let seed = Integer::from(123456);
let mut rand = RandState::new();
rand.seed(&seed);
let u1a = rand.bits(32);
let u1b = rand.bits(32);
// reseed with the same seed
rand.seed(&seed);
let u2a = rand.bits(32);
let u2b = rand.bits(32);
assert_eq!(u1a, u2a);
assert_eq!(u1b, u2b);

pub fn bits(&mut self, bits: u32) -> u32

Generates a random number with the specified number of bits.

Panics

Panics if bits is greater than 32.

Examples

use rug::rand::RandState;
let mut rand = RandState::new();
let u = rand.bits(16);
assert!(u < (1 << 16));
println!("16 random bits: {:016b}", u);

pub fn below(&mut self, bound: u32) -> u32

Generates a random number below the given boundary value.

This function can never return the maximum 32-bit value; in order to generate a 32-bit random value that covers the whole range, use the bits method with bits set to 32.

Panics

Panics if the boundary value is zero.

Examples

use rug::rand::RandState;
let mut rand = RandState::new();
let u = rand.below(10000);
assert!(u < 10000);
println!("0 ≤ {} < 10000", u);

pub unsafe fn from_raw(raw: randstate_t) -> RandState<'a>

Creates a random generator from an initialized GMP random generator.

Safety

• The value must be initialized. Note that the GMP functions do not initialize all fields of the gmp_mpfr_sys::gmp::randstate_t object, which can eventually lead to reading uninitialized memory, and that is undefined behaviour in Rust even if no decision is made using the read value. One way to ensure that there is no uninitialized memory inside raw is to use mem::zeroed to initialize raw before initializing with a function such as gmp_mpfr_sys::gmp::randinit_default, like in the example below.
• The gmp_mpfr_sys::gmp::randstate_t type can be considered as a kind of pointer, so there can be multiple copies of it. Since this function takes over ownership, no other copies of the passed value should exist.

Examples

extern crate gmp_mpfr_sys;
extern crate rug;
use gmp_mpfr_sys::gmp;
use rug::rand::RandState;
use std::mem;
fn main() {
    let mut rand = unsafe {
        // Do not use mem::uninitialized, as gmp::randinit_default
        // does not initialize all of the fields of raw.
        let mut raw = mem::zeroed();
        gmp::randinit_default(&mut raw);
        // raw is initialized and unique
        RandState::from_raw(raw)
    };
    let u = rand.bits(32);
    println!("32 random bits: {:032b}", u);
    // since rand is a RandState now, deallocation is automatic
}

pub fn into_raw(self) -> randstate_t

Converts a random generator into a GMP random generator.

The returned object should be freed to avoid memory leaks.

Examples

extern crate gmp_mpfr_sys;
extern crate rug;
use gmp_mpfr_sys::gmp;
use rug::rand::RandState;
fn main() {
    let rand = RandState::new();
    let mut raw = rand.into_raw();
    unsafe {
        let u = gmp::urandomb_ui(&mut raw, 32) as u32;
        println!("32 random bits: {:032b}", u);
        // free object to prevent memory leak
        gmp::randclear(&mut raw);
    }
}

pub fn as_raw(&mut self) -> *const randstate_t

Returns a pointer to the inner GMP random generator.

The returned pointer will be valid for as long as self is valid.

Examples

use rug::rand::RandState;
let mut rand = RandState::new();
let raw_ptr = rand.as_raw();
// There is not much you can do with an immutable randstate_t pointer.
println!("pointer: {:p}", raw_ptr);
let u = rand.bits(32);
println!("32 random bits: {:032b}", u);

pub fn as_raw_mut(&mut self) -> *mut randstate_t

Returns an unsafe mutable pointer to the inner GMP random generator.

The returned pointer will be valid for as long as self is valid.

Examples

extern crate gmp_mpfr_sys;
extern crate rug;
use gmp_mpfr_sys::gmp;
use rug::rand::RandState;
fn main() {
    let mut rand = RandState::new();
    let raw_ptr = rand.as_raw_mut();
    unsafe {
        let u1 = gmp::urandomb_ui(raw_ptr, 32) as u32;
        println!("32 random bits: {:032b}", u1);
    }
    let u2 = rand.bits(32);
    println!("another 32 random bits: {:032b}", u2);
}

Trait Implementations

impl<'a> Default for RandState<'a>

fn default() -> RandState<'a>

Returns the "default value" for a type.

impl<'a> Clone for RandState<'a>

fn clone(&self) -> RandState<'a>

Returns a copy of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl<'a> Drop for RandState<'a>

fn drop(&mut self)

Executes the destructor for this type.

impl<'a> Send for RandState<'a>

impl<'a> Sync for RandState<'a>