Crate polymur_hash

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§PolymurHash for Rust

Crates.io Documentation License: MIT

A fast, non-cryptographic hash function for Rust. This is a Rust port of the PolymurHash universal hash function.

§Features

  • 🚀 High Performance: Optimized for speed with performance comparable to XXH3
  • 🔒 No Unsafe Code: Completely safe Rust implementation
  • 📦 No Dependencies: Zero runtime dependencies
  • 🎯 no_std Compatible: Can be used in embedded and kernel contexts
  • 🔧 Flexible Seeding: Multiple ways to initialize with different seed types

§Installation

Add this to your Cargo.toml:

[dependencies]
polymur-hash = "0.2"

§Usage

§Basic Usage

use polymur_hash::PolymurHash;

// Create a hasher with a default seed
let hasher = PolymurHash::new(0);

// Hash some data
let data = b"Hello, world!";
let hash = hasher.hash(data);
println!("Hash: {:x}", hash);

§Custom Seeds

use polymur_hash::PolymurHash;

// From a 64-bit seed
let hasher = PolymurHash::from_u64_seed(0xDEADBEEF);

// From a 128-bit seed
let hasher = PolymurHash::new(0x123456789ABCDEF0u128 << 64 | 0xFEDCBA9876543210u128);

// From two 64-bit seeds (key and state)
let hasher = PolymurHash::from_u64x2_seed(0x12345678, 0x9ABCDEF0);

§Using Tweaks

Tweaks allow you to generate different hash values from the same key without reinitializing:

use polymur_hash::PolymurHash;

let hasher = PolymurHash::new(42);
let data = b"Some data";

// Generate multiple independent hashes
let hash1 = hasher.hash_with_tweak(data, 0);
let hash2 = hasher.hash_with_tweak(data, 1);
let hash3 = hasher.hash_with_tweak(data, 2);

// All hashes will be different
assert_ne!(hash1, hash2);
assert_ne!(hash2, hash3);

§Performance

PolymurHash is designed for high performance. On modern processors, it achieves speeds comparable to other fast non-cryptographic hash functions like XXH3.

To run the benchmarks:

cargo bench

§Algorithm Details

PolymurHash is based on polynomial evaluation in the finite field GF(2^61-1). It uses:

  • Efficient 61-bit arithmetic with lazy reduction
  • Optimized mixing functions for good avalanche properties
  • Different code paths for small (<= 7 bytes), medium (8-49 bytes), and large (>= 50 bytes) inputs

§Safety

This implementation:

  • Uses no unsafe code
  • Is #![forbid(unsafe_code)] enforced
  • Has been tested against the reference C implementation test vectors

§License

This project is licensed under the MIT License - see the LICENSE file for details.

Structs§

PolymurHash
A fast, non-cryptographic hash function based on polynomial evaluation.
PolymurHasher
A hasher that implements the core library’s Hasher trait.