Trait Hash 

pub trait Hash {
    // Required method
    fn hash<H>(&self, state: &mut H)
       where H: Hasher;

    // Provided method
    fn hash_slice<H>(data: &[Self], state: &mut H)
       where H: Hasher,
             Self: Sized { ... }
}

A hashable type.

Types implementing Hash are able to be hashed with an instance of Hasher.

Implementing Hash

You can derive Hash with #[derive(Hash)] if all fields implement Hash. The resulting hash will be the combination of the values from calling hash on each field.

#[derive(Hash)]
struct Rustacean {
    name: String,
    country: String,
}

If you need more control over how a value is hashed, you can of course implement the Hash trait yourself:

use std::hash::{Hash, Hasher};

struct Person {
    id: u32,
    name: String,
    phone: u64,
}

impl Hash for Person {
    fn hash<H: Hasher>(&self, state: &mut H) {
        self.id.hash(state);
        self.phone.hash(state);
    }
}

Hash and Eq

When implementing both Hash and Eq, it is important that the following property holds:

k1 == k2 -> hash(k1) == hash(k2)

In other words, if two keys are equal, their hashes must also be equal. HashMap and HashSet both rely on this behavior.

Thankfully, you won’t need to worry about upholding this property when deriving both Eq and Hash with #[derive(PartialEq, Eq, Hash)].

Violating this property is a logic error. The behavior resulting from a logic error is not specified, but users of the trait must ensure that such logic errors do not result in undefined behavior. This means that unsafe code must not rely on the correctness of these methods.

Prefix collisions

Implementations of hash should ensure that the data they pass to the Hasher are prefix-free. That is, values which are not equal should cause two different sequences of values to be written, and neither of the two sequences should be a prefix of the other.

For example, the standard implementation of Hash for &str passes an extra 0xFF byte to the Hasher so that the values ("ab", "c") and ("a", "bc") hash differently.

Portability

Due to differences in endianness and type sizes, data fed by Hash to a Hasher should not be considered portable across platforms. Additionally the data passed by most standard library types should not be considered stable between compiler versions.

This means tests shouldn’t probe hard-coded hash values or data fed to a Hasher and instead should check consistency with Eq.

Serialization formats intended to be portable between platforms or compiler versions should either avoid encoding hashes or only rely on Hash and Hasher implementations that provide additional guarantees.

Required Methods

fn hash<H>(&self, state: &mut H)

where H: Hasher,

Feeds this value into the given Hasher.

Examples

use std::hash::{DefaultHasher, Hash, Hasher};

let mut hasher = DefaultHasher::new();
7920.hash(&mut hasher);
println!("Hash is {:x}!", hasher.finish());

Provided Methods

fn hash_slice<H>(data: &[Self], state: &mut H)

where H: Hasher, Self: Sized,

Feeds a slice of this type into the given Hasher.

This method is meant as a convenience, but its implementation is also explicitly left unspecified. It isn’t guaranteed to be equivalent to repeated calls of hash and implementations of Hash should keep that in mind and call hash themselves if the slice isn’t treated as a whole unit in the PartialEq implementation.

For example, a VecDeque implementation might naïvely call as_slices and then hash_slice on each slice, but this is wrong since the two slices can change with a call to make_contiguous without affecting the PartialEq result. Since these slices aren’t treated as singular units, and instead part of a larger deque, this method cannot be used.

Examples

use std::hash::{DefaultHasher, Hash, Hasher};

let mut hasher = DefaultHasher::new();
let numbers = [6, 28, 496, 8128];
Hash::hash_slice(&numbers, &mut hasher);
println!("Hash is {:x}!", hasher.finish());

Dyn Compatibility

This trait is not dyn compatible.

In older versions of Rust, dyn compatibility was called "object safety".

Implementors

impl Hash for !

impl Hash for ()

impl Hash for Alignment

impl Hash for ArchivedCString

impl Hash for ArchivedDuration

impl Hash for ArchivedIpAddr

impl Hash for ArchivedIpv4Addr

impl Hash for ArchivedIpv6Addr

impl Hash for ArchivedOptionNonZeroI8

impl Hash for ArchivedOptionNonZeroI16

impl Hash for ArchivedOptionNonZeroI32

impl Hash for ArchivedOptionNonZeroI64

impl Hash for ArchivedOptionNonZeroI128

impl Hash for ArchivedOptionNonZeroU8

impl Hash for ArchivedOptionNonZeroU16

impl Hash for ArchivedOptionNonZeroU32

impl Hash for ArchivedOptionNonZeroU64

impl Hash for ArchivedOptionNonZeroU128

impl Hash for ArchivedSocketAddr

impl Hash for ArchivedSocketAddrV4

impl Hash for ArchivedSocketAddrV6

impl Hash for ArchivedString

impl Hash for AsciiChar

impl Hash for ByteStr

impl Hash for ByteString

impl Hash for Bytes

impl Hash for CStr

impl Hash for CString

impl Hash for CharCase

impl Hash for CustomSectionIndex

impl Hash for DataIndex

impl Hash for Duration

impl Hash for ElemIndex

impl Hash for Error

impl Hash for ErrorKind

impl Hash for ExportIndex

impl Hash for ExternType

impl Hash for FieldId

impl Hash for FileType

impl Hash for FunctionIndex

impl Hash for FunctionType

impl Hash for GlobalIndex

impl Hash for GlobalType

impl Hash for ImportIndex

impl Hash for Infallible

impl Hash for Instant

impl Hash for IntErrorKind

impl Hash for IpAddr

impl Hash for Ipv4Addr

impl Hash for Ipv6Addr

impl Hash for Ipv6MulticastScope

impl Hash for Layout

impl Hash for LocalFunctionIndex

impl Hash for LocalGlobalIndex

impl Hash for LocalMemoryIndex

impl Hash for LocalTableIndex

impl Hash for Locality

impl Hash for Location<'_>

impl Hash for MemoryIndex

impl Hash for MemoryType

impl Hash for Mutability

impl Hash for wasmer_types::lib::std::cmp::Ordering

impl Hash for wasmer_types::lib::std::sync::atomic::Ordering

impl Hash for OsStr

impl Hash for OsString

impl Hash for OwnedTableInitializer

impl Hash for Pages

impl Hash for Path

impl Hash for PathBuf

impl Hash for PhantomPinned

impl Hash for PrefixComponent<'_>

impl Hash for RangeFull

impl Hash for SignatureIndex

impl Hash for SocketAddr

impl Hash for SocketAddrV4

impl Hash for SocketAddrV6

impl Hash for String

impl Hash for SystemTime

impl Hash for TableIndex

impl Hash for TableType

impl Hash for ThreadId

impl Hash for Type

impl Hash for TypeId

impl Hash for UCred

impl Hash for V128

impl Hash for bool

impl Hash for char

impl Hash for i8

impl Hash for i16

impl Hash for i32

impl Hash for i64

impl Hash for i128

impl Hash for isize

impl Hash for str

impl Hash for u8

impl Hash for u16

impl Hash for u32

impl Hash for u64

impl Hash for u128

impl Hash for usize

impl<'a> Hash for Component<'a>

impl<'a> Hash for PhantomContravariantLifetime<'a>

impl<'a> Hash for PhantomCovariantLifetime<'a>

impl<'a> Hash for PhantomInvariantLifetime<'a>

impl<'a> Hash for Prefix<'a>

impl<B, C> Hash for ControlFlow<B, C>

where B: Hash, C: Hash,

impl<B> Hash for Cow<'_, B>

where B: Hash + ToOwned + ?Sized,

impl<Dyn> Hash for wasmer_types::lib::std::ptr::DynMetadata<Dyn>

where Dyn: ?Sized,

impl<Dyn> Hash for ptr_meta::DynMetadata<Dyn>

where Dyn: ?Sized,

impl<F> Hash for F

where F: FnPtr,

impl<Idx> Hash for wasmer_types::lib::std::ops::Range<Idx>

where Idx: Hash,

impl<Idx> Hash for core::range::Range<Idx>

where Idx: Hash,

impl<Idx> Hash for wasmer_types::lib::std::ops::RangeFrom<Idx>

where Idx: Hash,

impl<Idx> Hash for core::range::RangeFrom<Idx>

where Idx: Hash,

impl<Idx> Hash for wasmer_types::lib::std::ops::RangeInclusive<Idx>

where Idx: Hash,

impl<Idx> Hash for core::range::RangeInclusive<Idx>

where Idx: Hash,

impl<Idx> Hash for RangeTo<Idx>

where Idx: Hash,

impl<Idx> Hash for wasmer_types::lib::std::ops::RangeToInclusive<Idx>

where Idx: Hash,

impl<Idx> Hash for core::range::RangeToInclusive<Idx>

where Idx: Hash,

impl<K, V, A> Hash for BTreeMap<K, V, A>

where K: Hash, V: Hash, A: Allocator + Clone,

impl<K, V: Hash> Hash for PrimaryMap<K, V>

where K: EntityRef + Hash,

impl<K, V> Hash for ArchivedBTreeMap<K, V>

where K: Hash, V: Hash,

impl<K> Hash for ArchivedBTreeSet<K>

where K: Hash,

impl<Ptr> Hash for Pin<Ptr>

where Ptr: Deref, <Ptr as Deref>::Target: Hash,

impl<S: Hash, T: Hash> Hash for Import<S, T>

impl<T, A> Hash for Arc<T, A>

where T: Hash + ?Sized, A: Allocator,

impl<T, A> Hash for BTreeSet<T, A>

where T: Hash, A: Allocator + Clone,

impl<T, A> Hash for Box<T, A>

where T: Hash + ?Sized, A: Allocator,

impl<T, A> Hash for LinkedList<T, A>

where T: Hash, A: Allocator,

impl<T, A> Hash for Rc<T, A>

where T: Hash + ?Sized, A: Allocator,

impl<T, A> Hash for UniqueArc<T, A>

where T: Hash + ?Sized, A: Allocator,

impl<T, A> Hash for UniqueRc<T, A>

where T: Hash + ?Sized, A: Allocator,

impl<T, A> Hash for Vec<T, A>

where T: Hash, A: Allocator,

The hash of a vector is the same as that of the corresponding slice, as required by the core::borrow::Borrow implementation.

use std::hash::BuildHasher;

let b = std::hash::RandomState::new();
let v: Vec<u8> = vec![0xa8, 0x3c, 0x09];
let s: &[u8] = &[0xa8, 0x3c, 0x09];
assert_eq!(b.hash_one(v), b.hash_one(s));

impl<T, A> Hash for VecDeque<T, A>

where T: Hash, A: Allocator,

impl<T, E> Hash for ArchivedResult<T, E>

where T: Hash, E: Hash,

impl<T, E> Hash for Result<T, E>

where T: Hash, E: Hash,

impl<T, F> Hash for ArchivedRc<T, F>

where T: ArchivePointee + Hash + ?Sized,

impl<T, const N: usize> Hash for Simd<T, N>

where T: SimdElement + Hash,

impl<T, const N: usize> Hash for [T; N]

where T: Hash,

The hash of an array is the same as that of the corresponding slice, as required by the Borrow implementation.

use std::hash::BuildHasher;

let b = std::hash::RandomState::new();
let a: [u8; 3] = [0xa8, 0x3c, 0x09];
let s: &[u8] = &[0xa8, 0x3c, 0x09];
assert_eq!(b.hash_one(a), b.hash_one(s));

impl<T, const VARIANT: u32, const FIELD: u32> Hash for FieldRepresentingType<T, VARIANT, FIELD>

where T: ?Sized,

impl<T: Hash + ReservedValue> Hash for PackedOption<T>

impl<T: Hash> Hash for ExportType<T>

impl<T> Hash for &T

where T: Hash + ?Sized,

impl<T> Hash for &mut T

where T: Hash + ?Sized,

impl<T> Hash for (T₁, T₂, …, Tₙ)

where T: Hash,

This trait is implemented for tuples up to twelve items long.

impl<T> Hash for *const T

where T: ?Sized,

impl<T> Hash for *mut T

where T: ?Sized,

impl<T> Hash for ArchivedBox<T>

where T: ArchivePointee + Hash + ?Sized,

impl<T> Hash for ArchivedOption<T>

where T: Hash,

impl<T> Hash for ArchivedOptionBox<T>

where T: ArchivePointee + Hash + ?Sized,

impl<T> Hash for ArchivedRange<T>

where T: Hash,

impl<T> Hash for ArchivedRangeFrom<T>

where T: Hash,

impl<T> Hash for ArchivedRangeInclusive<T>

where T: Hash,

impl<T> Hash for ArchivedRangeTo<T>

where T: Hash,

impl<T> Hash for ArchivedRangeToInclusive<T>

where T: Hash,

impl<T> Hash for ArchivedVec<T>

where T: Hash,

impl<T> Hash for Bound<T>

where T: Hash,

impl<T> Hash for Discriminant<T>

impl<T> Hash for ManuallyDrop<T>

where T: Hash + ?Sized,

impl<T> Hash for NonNull<T>

where T: ?Sized,

impl<T> Hash for NonZero<T>

where T: ZeroablePrimitive + Hash,

impl<T> Hash for Option<T>

where T: Hash,

impl<T> Hash for PhantomContravariant<T>

where T: ?Sized,

impl<T> Hash for PhantomCovariant<T>

where T: ?Sized,

impl<T> Hash for PhantomData<T>

where T: ?Sized,

impl<T> Hash for PhantomInvariant<T>

where T: ?Sized,

impl<T> Hash for Poll<T>

where T: Hash,

impl<T> Hash for RawArchivedVec<T>

where T: Hash,

impl<T> Hash for Reverse<T>

where T: Hash,

impl<T> Hash for Saturating<T>

where T: Hash,

impl<T> Hash for SyncView<T>

where T: Sync + Hash + ?Sized,

impl<T> Hash for Wrapping<T>

where T: Hash,

impl<T> Hash for [T]

where T: Hash,

impl<Y, R> Hash for CoroutineState<Y, R>

where Y: Hash, R: Hash,