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| author | Dr. ERDI Gergo <gergo@erdi.hu> | 2014-01-13 20:12:34 +0800 |
|---|---|---|
| committer | Austin Seipp <austin@well-typed.com> | 2014-01-20 11:30:22 -0600 |
| commit | 4f8369bf47d27b11415db251e816ef1a2e1eb3d8 (patch) | |
| tree | 61437b3b947951aace16f66379c462f2374fc709 /compiler/ghc.mk | |
| parent | 59cb44a3ee4b25fce6dc19816e9647e92e5ff743 (diff) | |
| download | haskell-4f8369bf47d27b11415db251e816ef1a2e1eb3d8.tar.gz | |
Implement pattern synonyms
This patch implements Pattern Synonyms (enabled by -XPatternSynonyms),
allowing y ou to assign names to a pattern and abstract over it.
The rundown is this:
* Named patterns are introduced by the new 'pattern' keyword, and can
be either *unidirectional* or *bidirectional*. A unidirectional
pattern is, in the simplest sense, simply an 'alias' for a pattern,
where the LHS may mention variables to occur in the RHS. A
bidirectional pattern synonym occurs when a pattern may also be used
in expression context.
* Unidirectional patterns are declared like thus:
pattern P x <- x:_
The synonym 'P' may only occur in a pattern context:
foo :: [Int] -> Maybe Int
foo (P x) = Just x
foo _ = Nothing
* Bidirectional patterns are declared like thus:
pattern P x y = [x, y]
Here, P may not only occur as a pattern, but also as an expression
when given values for 'x' and 'y', i.e.
bar :: Int -> [Int]
bar x = P x 10
* Patterns can't yet have their own type signatures; signatures are inferred.
* Pattern synonyms may not be recursive, c.f. type synonyms.
* Pattern synonyms are also exported/imported using the 'pattern'
keyword in an import/export decl, i.e.
module Foo (pattern Bar) where ...
Note that pattern synonyms share the namespace of constructors, so
this disambiguation is required as a there may also be a 'Bar'
type in scope as well as the 'Bar' pattern.
* The semantics of a pattern synonym differ slightly from a typical
pattern: when using a synonym, the pattern itself is matched,
followed by all the arguments. This means that the strictness
differs slightly:
pattern P x y <- [x, y]
f (P True True) = True
f _ = False
g [True, True] = True
g _ = False
In the example, while `g (False:undefined)` evaluates to False,
`f (False:undefined)` results in undefined as both `x` and `y`
arguments are matched to `True`.
For more information, see the wiki:
https://ghc.haskell.org/trac/ghc/wiki/PatternSynonyms
https://ghc.haskell.org/trac/ghc/wiki/PatternSynonyms/Implementation
Reviewed-by: Simon Peyton Jones <simonpj@microsoft.com>
Signed-off-by: Austin Seipp <austin@well-typed.com>
Diffstat (limited to 'compiler/ghc.mk')
| -rw-r--r-- | compiler/ghc.mk | 2 |
1 files changed, 2 insertions, 0 deletions
diff --git a/compiler/ghc.mk b/compiler/ghc.mk index 3d0a981d17..0a1871307e 100644 --- a/compiler/ghc.mk +++ b/compiler/ghc.mk @@ -479,6 +479,7 @@ compiler_stage2_dll0_MODULES = \ CmmType \ CmmUtils \ CoAxiom \ + ConLike \ CodeGen.Platform \ CodeGen.Platform.ARM \ CodeGen.Platform.NoRegs \ @@ -563,6 +564,7 @@ compiler_stage2_dll0_MODULES = \ Packages \ Pair \ Panic \ + PatSyn \ PipelineMonad \ Platform \ PlatformConstants \ |