Copyright | (c) The University of Glasgow 2009 |
---|---|
License | see libraries/ghc-prim/LICENSE |
Maintainer | cvs-ghc@haskell.org |
Stability | internal |
Portability | non-portable (GHC Extensions) |
Safe Haskell | Trustworthy |
Language | Haskell2010 |
GHC magic.
Use GHC.Exts from the base package instead of importing this module directly.
Synopsis
- inline :: a -> a
- noinline :: a -> a
- lazy :: a -> a
- oneShot :: forall (q :: RuntimeRep) (r :: RuntimeRep) (a :: TYPE q) (b :: TYPE r). (a -> b) -> a -> b
- runRW# :: forall (r :: RuntimeRep) (o :: TYPE r). (State# RealWorld -> o) -> o
Documentation
The call inline f
arranges that f
is inlined, regardless of
its size. More precisely, the call inline f
rewrites to the
right-hand side of f
's definition. This allows the programmer to
control inlining from a particular call site rather than the
definition site of the function (c.f. INLINE
pragmas).
This inlining occurs regardless of the argument to the call or the
size of f
's definition; it is unconditional. The main caveat is
that f
's definition must be visible to the compiler; it is
therefore recommended to mark the function with an INLINABLE
pragma at its definition so that GHC guarantees to record its
unfolding regardless of size.
If no inlining takes place, the inline
function expands to the
identity function in Phase zero, so its use imposes no overhead.
The call noinline f
arranges that f
will not be inlined.
It is removed during CorePrep so that its use imposes no overhead
(besides the fact that it blocks inlining.)
The lazy
function restrains strictness analysis a little. The
call lazy e
means the same as e
, but lazy
has a magical
property so far as strictness analysis is concerned: it is lazy in
its first argument, even though its semantics is strict. After
strictness analysis has run, calls to lazy
are inlined to be the
identity function.
This behaviour is occasionally useful when controlling evaluation
order. Notably, lazy
is used in the library definition of
par
:
par :: a -> b -> b par x y = case (par# x) of _ -> lazy y
If lazy
were not lazy, par
would look strict in
y
which would defeat the whole purpose of par
.
Like seq
, the argument of lazy
can have an unboxed type.
oneShot :: forall (q :: RuntimeRep) (r :: RuntimeRep) (a :: TYPE q) (b :: TYPE r). (a -> b) -> a -> b Source #
The oneShot
function can be used to give a hint to the compiler that its
argument will be called at most once, which may (or may not) enable certain
optimizations. It can be useful to improve the performance of code in continuation
passing style.
If oneShot
is used wrongly, then it may be that computations whose result
that would otherwise be shared are re-evaluated every time they are used. Otherwise,
the use of oneShot
is safe.
oneShot
is representation polymorphic: the type variables may refer to lifted
or unlifted types.