@Beta public interface HashFunction
A hash function is a collision-averse pure function that maps an arbitrary block of data to a number called a hash code.
Unpacking this definition:
Hasher
), but this is merely a convenience; these are
always translated into raw byte sequences under the covers.
bits()
). For example, Hashing.sha1()
produces a
160-bit number, while Hashing.murmur3_32()
yields only 32 bits. Because a
long
value is clearly insufficient to hold all hash code values, this API
represents a hash code as an instance of HashCode
.
HashFunction
instances
should always be stateless, and therefore thread-safe.
Summarizing the last two points: “equal yield equal always; unequal yield unequal often.” This is the most important characteristic of all hash functions.
A high-quality hash function strives for some subset of the following virtues:
Hashing.sha512()
are
designed to make it as infeasible as possible to reverse-engineer the input that
produced a given hash code, or even to discover any two distinct inputs that
yield the same result. These are called cryptographic hash functions. But,
whenever it is learned that either of these feats has become computationally
feasible, the function is deemed "broken" and should no longer be used for secure
purposes. (This is the likely eventual fate of all cryptographic hashes.)
The primary way to provide the data that your hash function should act on is via a Hasher
. Obtain a new hasher from the hash function using newHasher()
, “push” the relevant data into it using methods like Hasher.putBytes(byte[])
, and finally ask for the HashCode
when finished using Hasher.hash()
. (See an example of this.)
If all you want to hash is a single byte array, string or long
value, there are convenient shortcut methods defined directly on HashFunction
to make this easier.
Hasher accepts primitive data types, but can also accept any Object of type T
provided that you implement a Funnel
to specify how to “feed” data from that object into the function. (See an example of this.)
Compatibility note: Throughout this API, multibyte values are always interpreted in little-endian order. That is, hashing the byte array {0x01, 0x02, 0x03, 0x04}
is equivalent to hashing the int
value 0x04030201
. If this isn’t what you need, methods such as Integer.reverseBytes(int)
and Ints.toByteArray(int)
will help.
Object.hashCode()
Java’s baked-in concept of hash codes is constrained to 32 bits, and provides no separation between hash algorithms and the data they act on, so alternate hash algorithms can’t be easily substituted. Also, implementations of hashCode
tend to be poor-quality, in part because they end up depending on other existing poor-quality hashCode
implementations, including those in many JDK classes.
Object.hashCode
implementations tend to be very fast, but have weak collision prevention and no expectation of bit dispersion. This leaves them perfectly suitable for use in hash tables, because extra collisions cause only a slight performance hit, while poor bit dispersion is easily corrected using a secondary hash function (which all reasonable hash table implementations in Java use). For the many uses of hash functions beyond data structures, however, Object.hashCode
almost always falls short – hence this library.
Modifier and Type | Method and Description |
---|---|
int |
bits()
Returns the number of bits (a multiple of 32) that each hash code produced by this hash function has.
|
HashCode |
hashBytes(byte[] input)
Shortcut for
newHasher().putBytes(input).hash() . |
HashCode |
hashBytes(byte[] input,
int off,
int len)
Shortcut for
newHasher().putBytes(input, off, len).hash() . |
HashCode |
hashInt(int input)
Shortcut for
newHasher().putInt(input).hash() ; returns the hash code for the given int value, interpreted in little-endian byte order. |
HashCode |
hashLong(long input)
Shortcut for
newHasher().putLong(input).hash() ; returns the hash code for the given long value, interpreted in little-endian byte order. |
<T> HashCode |
hashObject(T instance,
Funnel<? super T> funnel)
Shortcut for
newHasher().putObject(instance, funnel).hash() . |
HashCode |
hashString(CharSequence input,
Charset charset)
Shortcut for
newHasher().putString(input, charset).hash() . |
HashCode |
hashUnencodedChars(CharSequence input)
Shortcut for
newHasher().putUnencodedChars(input).hash() . |
Hasher |
newHasher()
Begins a new hash code computation by returning an initialized, stateful
Hasher instance that is ready to receive data. |
Hasher |
newHasher(int expectedInputSize)
Begins a new hash code computation as
newHasher() , but provides a hint of the expected size of the input (in bytes). |
Hasher newHasher()
Begins a new hash code computation by returning an initialized, stateful Hasher
instance that is ready to receive data. Example:
HashFunction hf = Hashing.md5();
HashCode hc = hf.newHasher()
.putLong(id)
.putBoolean(isActive)
.hash();
Hasher newHasher(int expectedInputSize)
Begins a new hash code computation as newHasher()
, but provides a hint of the expected size of the input (in bytes). This is only important for non-streaming hash functions (hash functions that need to buffer their whole input before processing any of it).
HashCode hashInt(int input)
Shortcut for newHasher().putInt(input).hash()
; returns the hash code for the given int
value, interpreted in little-endian byte order. The implementation might perform better than its longhand equivalent, but should not perform worse.
HashCode hashLong(long input)
Shortcut for newHasher().putLong(input).hash()
; returns the hash code for the given long
value, interpreted in little-endian byte order. The implementation might perform better than its longhand equivalent, but should not perform worse.
HashCode hashBytes(byte[] input)
Shortcut for newHasher().putBytes(input).hash()
. The implementation might perform better than its longhand equivalent, but should not perform worse.
HashCode hashBytes(byte[] input, int off, int len)
Shortcut for newHasher().putBytes(input, off, len).hash()
. The implementation might perform better than its longhand equivalent, but should not perform worse.
IndexOutOfBoundsException
- if off < 0
or off + len > bytes.length
or len < 0
HashCode hashUnencodedChars(CharSequence input)
Shortcut for newHasher().putUnencodedChars(input).hash()
. The implementation might perform better than its longhand equivalent, but should not perform worse. Note that no character encoding is performed; the low byte and high byte of each char
are hashed directly (in that order).
HashCode hashString(CharSequence input, Charset charset)
Shortcut for newHasher().putString(input, charset).hash()
. Characters are encoded using the given Charset
. The implementation might perform better than its longhand equivalent, but should not perform worse.
<T> HashCode hashObject(T instance, Funnel<? super T> funnel)
Shortcut for newHasher().putObject(instance, funnel).hash()
. The implementation might perform better than its longhand equivalent, but should not perform worse.
int bits()
Returns the number of bits (a multiple of 32) that each hash code produced by this hash function has.