Copyright | (c) The University of Glasgow 2001 |
---|---|
License | BSD-style (see the file libraries/base/LICENSE) |
Maintainer | libraries@haskell.org |
Stability | stable |
Portability | non-portable |
Safe Haskell | Safe |
Language | Haskell2010 |
Stable names are a way of performing fast ( \(\mathcal{O}(1)\) ), not-quite-exact comparison between objects.
Stable names solve the following problem: suppose you want to build a hash table with Haskell objects as keys, but you want to use pointer equality for comparison; maybe because the keys are large and hashing would be slow, or perhaps because the keys are infinite in size. We can't build a hash table using the address of the object as the key, because objects get moved around by the garbage collector, meaning a re-hash would be necessary after every garbage collection.
See Stretching the storage manager: weak pointers and stable names in
Haskell
by Simon Peyton Jones, Simon Marlow and Conal Elliott for detailed discussion
of stable names. An implementation of a memo table with stable names
can be found in stable-memo
package.
Synopsis
- data StableName a
- makeStableName :: a -> IO (StableName a)
- hashStableName :: StableName a -> Int
- eqStableName :: StableName a -> StableName b -> Bool
Stable Names
data StableName a Source #
An abstract name for an object, that supports equality and hashing.
Stable names have the following property:
- If
sn1 :: StableName
andsn2 :: StableName
andsn1 == sn2
thensn1
andsn2
were created by calls tomakeStableName
on the same object.
The reverse is not necessarily true: if two stable names are not
equal, then the objects they name may still be equal. Note in particular
that makeStableName
may return a different StableName
after an
object is evaluated.
Stable Names are similar to Stable Pointers (Foreign.StablePtr), but differ in the following ways:
- There is no
freeStableName
operation, unlike Foreign.StablePtrs. Stable names are reclaimed by the runtime system when they are no longer needed. - There is no
deRefStableName
operation. You can't get back from a stable name to the original Haskell object. The reason for this is that the existence of a stable name for an object does not guarantee the existence of the object itself; it can still be garbage collected.
Instances
Eq (StableName a) Source # | @since base-2.01 |
Defined in GHC.Internal.StableName (==) :: StableName a -> StableName a -> Bool Source # (/=) :: StableName a -> StableName a -> Bool Source # |
makeStableName :: a -> IO (StableName a) Source #
Makes a StableName
for an arbitrary object. The object passed as
the first argument is not evaluated by makeStableName
.
hashStableName :: StableName a -> Int Source #
Convert a StableName
to an Int
. The Int
returned is not
necessarily unique; several StableName
s may map to the same Int
(in practice however, the chances of this are small, so the result
of hashStableName
makes a good hash key).
eqStableName :: StableName a -> StableName b -> Bool Source #
Equality on StableName
that does not require that the types of
the arguments match.
@since base-4.7.0.0