Javascript FNV-1a Hashing Algorithm up to 1024 bits, with highly optimized 32bit and 52bit implementations.
The FNV-1a hash algorithm, often simply called "fnv", disperses hashes throughout the n-bit hash space with very good dispersion and is very fast.
Use this module to generate unique hash/checksum values for Javascript strings or objects. Note: The FNV-1a algorithm is not even remotely suitable as a cryptographic pseudo-random generator, and should not be used to secure any thing for any reason. It is designed for uniqueness, not randomness.
- It is the fastest FNV implementation available for Node.js (thanks desudesutalk). See Benchmarks.
- It is the only npm module that is capable of generating fnv hashes for keyspaces larger than 32 bits.
fnv-plus
is well-tested. Many other fnv implementations offer no unit tests to prove they work and are performant.fnv-plus
implements a 52bit version of FNV-1a which provides a larger hash space while still making use of Javascript's 53-bit integer space.
- No dependencies!
- Fast Variants that optimize for speed.
- You can easily define custom seeds.
- the
hash()
function can now take arbitrary Javascript objects as input. - changed default bitlength to 52
$ npm install fnv-plus --save
var fnv = require('fnv-plus'),
astring = 'hello world',
ahash52 = fnv.hash(astring), // 52-bit hash by default
ahash64 = fnv.hash(astring, 64); // 64-bit hash specified
console.log(ahash52.hex() == 'a65e7023cd59e'); //true
console.log(ahash52.str() == 'stglysbf6m'); //true
console.log(ahash52.dec() == '2926792616498590'); //true
console.log(ahash64.hex() == '779a65e7023cd2e7'); //true
console.log(ahash64.str() == '1th7cxzlyc0dj'); //true
console.log(ahash64.dec() == '8618312879776256743'); //true
// fast variants
console.log(fnv.fast1a32hex(astring) == 'd58b3fa7'); //true
console.log(fnv.fast1a52hex(astring) == 'a65e7023cd59e'); //true
fnv.seed('foobar testseed');
console.log(fnv.hash(astring, 64).hex() == ahash64.hex()); // false
// ^^ because the default seed is not 'foobar testseed'
- Hash a string using the given bit length (52 is default)
- returns a
FnvHash
object
- Seed the algorithm to produce different values. Hashing the same value with different seeds will very likely result in different results. To the extent your seed can be random, it can serve as a source of randomness, but nonetheless is not a replacement for a crypgographic PRG (pseudo-random generator).
- default seed is
chongo <Landon Curt Noll> /\>./\\
- Controls UTF-8 awareness of hash functions
- default is
false
Returns the hashed value as an ascii string
Returns the hashed value as a hexadecimal string
Returns the hashed value as a decimal string
This functions runs faster because they have no lib-overhead (see
benchmarks for more info). They always compute 1a
version of hashes and always use default seed. Directly returns hash values
(not FnvHash
object).
- Calculate FNV-1a 32bit hash
- returns int
- Calculate FNV-1a 32bit hash
- returns hex string
- Calculate FNV-1a 52bit hash
- returns int
- Calculate FNV-1a 52bit hash
- returns hex string
- Calculate FNV-1a 64bit hash
- returns hex string
- Calculate FNV-1a 32bit hash
- handles UTF-8 strings
- returns int
- Calculate FNV-1a 32bit hash
- handles UTF-8 strings
- returns hex string
- Calculate FNV-1a 52bit hash
- handles UTF-8 strings
- returns int
- Calculate FNV-1a 52bit hash
- handles UTF-8 strings
- returns hex string
- Calculate FNV-1a 64bit hash
- handles UTF-8 strings
- returns hex string
MIT