Go package porting the standard hashing algorithms to a more efficient implementation.
Note
Segment has paused maintenance on this project, but may return it to an active status in the future. Issues and pull requests from external contributors are not being considered, although internal contributions may appear from time to time. The project remains available under its open source license for anyone to use.
Go has great support for hashing algorithms in the standard library, but the APIs are all exposed as interfaces, which means passing strings or byte slices to those require dynamic memory allocations. Hashing a string typically requires 2 allocations, one for the Hash value, and one to covert the string to a byte slice.
This package attempts to solve this issue by exposing functions that implement string hashing algorithms and don't require dynamic memory alloations.
To ensure consistency between the fasthash
package and the standard library,
all tests must be implemented to run against the standard hash functions and
validate that both packages produced the same results.
The implementations also have to prove that they are more efficient in terms of
CPU and memory usage than the functions found in the standard library.
Here's an example with fnv-1a:
BenchmarkHash64/standard_hash_function 20000000 105.0 ns/op 342.31 MB/s 56 B/op 2 allocs/op
BenchmarkHash64/hash_function 50000000 38.6 ns/op 932.35 MB/s 0 B/op 0 allocs/op
package main
import (
"fmt"
"github.com/segmentio/fasthash/fnv1a"
)
func main() {
// Hash a single string.
h1 := fnv1a.HashString64("Hello World!")
fmt.Println("FNV-1a hash of 'Hello World!':", h1)
// Incrementally compute a hash value from a sequence of strings.
h2 := fnv1a.Init64
h2 = fnv1a.AddString64(h2, "A")
h2 = fnv1a.AddString64(h2, "B")
h2 = fnv1a.AddString64(h2, "C")
fmt.Println("FNV-1a hash of 'ABC':", h2)
}