Trait rand::RngCore [] [src]

pub trait RngCore {
    fn next_u32(&mut self) -> u32;
fn next_u64(&mut self) -> u64;
fn fill_bytes(&mut self, dest: &mut [u8]);
fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error>; }

The core of a random number generator.

This trait encapsulates the low-level functionality common to all generators, and is the "back end", to be implemented by generators. End users should normally use Rng from the rand crate, which is automatically implemented for every type implementing RngCore.

Three different methods for generating random data are provided since the optimal implementation of each is dependent on the type of generator. There is no required relationship between the output of each; e.g. many implementations of fill_bytes consume a whole number of u32 or u64 values and drop any remaining unused bytes.

The try_fill_bytes method is a variant of fill_bytes allowing error handling; it is not deemed sufficiently useful to add equivalents for next_u32 or next_u64 since the latter methods are almost always used with algorithmic generators (PRNGs), which are normally infallible.

Algorithmic generators implementing SeedableRng should normally have portable, reproducible output, i.e. fix Endianness when converting values to avoid platform differences, and avoid making any changes which affect output (except by communicating that the release has breaking changes).

Typically implementators will implement only one of the methods available in this trait directly, then use the helper functions from the rand_core::impls module to implement the other methods.

It is recommended that implementations also implement:

  • Debug with a custom implementation which does not print any internal state (at least, CryptoRngs should not risk leaking state through Debug).
  • Serialize and Deserialize (from Serde), preferably making Serde support optional at the crate level in PRNG libs.
  • Clone, if possible.
  • never implement Copy (accidental copies may cause repeated values).
  • do not implement Default for pseudorandom generators, but instead implement SeedableRng, to guide users towards proper seeding. External / hardware RNGs can choose to implement Default.
  • Eq and PartialEq could be implemented, but are probably not useful.

Example

A simple example, obviously not generating very random output:

#![allow(dead_code)]
use rand_core::{RngCore, Error, impls};
 
struct CountingRng(u64);
 
impl RngCore for CountingRng {
    fn next_u32(&mut self) -> u32 {
        self.next_u64() as u32
    }
     
    fn next_u64(&mut self) -> u64 {
        self.0 += 1;
        self.0
    }
     
    fn fill_bytes(&mut self, dest: &mut [u8]) {
        impls::fill_bytes_via_next(self, dest)
    }
     
    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
        Ok(self.fill_bytes(dest))
    }
}

Required Methods

Return the next random u32.

RNGs must implement at least one method from this trait directly. In the case this method is not implemented directly, it can be implemented using self.next_u64() as u32 or via fill_bytes.

Return the next random u64.

RNGs must implement at least one method from this trait directly. In the case this method is not implemented directly, it can be implemented via next_u32 or via fill_bytes.

Fill dest with random data.

RNGs must implement at least one method from this trait directly. In the case this method is not implemented directly, it can be implemented via next_u* or via try_fill_bytes; if this generator can fail the implementation must choose how best to handle errors here (e.g. panic with a descriptive message or log a warning and retry a few times).

This method should guarantee that dest is entirely filled with new data, and may panic if this is impossible (e.g. reading past the end of a file that is being used as the source of randomness).

Fill dest entirely with random data.

This is the only method which allows an RNG to report errors while generating random data thus making this the primary method implemented by external (true) RNGs (e.g. OsRng) which can fail. It may be used directly to generate keys and to seed (infallible) PRNGs.

Other than error handling, this method is identical to fill_bytes; thus this may be implemented using Ok(self.fill_bytes(dest)) or fill_bytes may be implemented with self.try_fill_bytes(dest).unwrap() or more specific error handling.

Trait Implementations

impl Read for RngCore + 'static
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Pull some bytes from this source into the specified buffer, returning how many bytes were read. Read more

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🔬 This is a nightly-only experimental API. (read_initializer)

Determines if this Reader can work with buffers of uninitialized memory. Read more

1.0.0
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Read all bytes until EOF in this source, placing them into buf. Read more

1.0.0
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Read all bytes until EOF in this source, appending them to buf. Read more

1.6.0
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Read the exact number of bytes required to fill buf. Read more

Important traits for &'a mut W
1.0.0
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Creates a "by reference" adaptor for this instance of Read. Read more

Important traits for Bytes<R>
1.0.0
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Transforms this Read instance to an [Iterator] over its bytes. Read more

Important traits for Chars<R>
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🔬 This is a nightly-only experimental API. (io)

the semantics of a partial read/write of where errors happen is currently unclear and may change

Transforms this Read instance to an [Iterator] over [char]s. Read more

Important traits for Chain<T, U>
1.0.0
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Creates an adaptor which will chain this stream with another. Read more

Important traits for Take<T>
1.0.0
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Creates an adaptor which will read at most limit bytes from it. Read more

Implementations on Foreign Types

impl<R> RngCore for Box<R> where
    R: RngCore + ?Sized
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impl<R> RngCore for BlockRng64<R> where
    R: BlockRngCore<Item = u64>,
    <R as BlockRngCore>::Results: AsRef<[u64]>,
    <R as BlockRngCore>::Results: AsMut<[u64]>, 
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impl<R> RngCore for BlockRng<R> where
    R: BlockRngCore<Item = u32>,
    <R as BlockRngCore>::Results: AsRef<[u32]>,
    <R as BlockRngCore>::Results: AsMut<[u32]>, 
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impl<'a, R> RngCore for &'a mut R where
    R: RngCore + ?Sized
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Implementors