X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=docs%2Fusers_guide%2Fglasgow_exts.xml;h=a08ace929f371526fc1deb49d94a2bbd0e385c06;hb=f1779d1350e7f30c446e51f3d33355858533fe13;hp=ec0821038f62126c266243f7ad43375706dae728;hpb=c0ed1c0e24cbbdcba6a9918f09902f1d7a719d76;p=ghc-hetmet.git diff --git a/docs/users_guide/glasgow_exts.xml b/docs/users_guide/glasgow_exts.xml index ec08210..a08ace9 100644 --- a/docs/users_guide/glasgow_exts.xml +++ b/docs/users_guide/glasgow_exts.xml @@ -38,19 +38,20 @@ documentation describes all the libraries that come with GHC. extensionsoptions controlling - The language option flag control what variation of the language are + The language option flags control what variation of the language are permitted. Leaving out all of them gives you standard Haskell 98. - Generally speaking, all the language options are introduced by "", - e.g. . - - - All the language options can be turned off by using the prefix ""; - e.g. "". - - Language options recognised by Cabal can also be enabled using the LANGUAGE pragma, - thus {-# LANGUAGE TemplateHaskell #-} (see >). + Language options can be controlled in two ways: + + Every language option can switched on by a command-line flag "" + (e.g. ), and switched off by the flag ""; + (e.g. ). + + Language options recognised by Cabal can also be enabled using the LANGUAGE pragma, + thus {-# LANGUAGE TemplateHaskell #-} (see ). + + The flag @@ -334,6 +335,75 @@ Indeed, the bindings can even be recursive. Syntactic extensions + + Unicode syntax + The language + extension + enables Unicode characters to be used to stand for certain ASCII + character sequences. The following alternatives are provided: + + + + + + ASCII + Unicode alternative + Code point + Name + + + + + :: + :: + 0x2237 + PROPORTION + + + + + => + + 0x21D2 + RIGHTWARDS DOUBLE ARROW + + + + + forall + + 0x2200 + FOR ALL + + + + + -> + + 0x2192 + RIGHTWARDS ARROW + + + + + <- + + 0x2190 + LEFTWARDS ARROW + + + + + .. + + 0x22EF + MIDLINE HORIZONTAL ELLIPSIS + + + + + + The magic hash The language extension allows "#" as a @@ -390,7 +460,7 @@ Indeed, the bindings can even be recursive. the syntax by eliminating odd cases like Prelude... For example, when NewQualifiedOperators is on, it is possible to - write the enerated sequence [Monday..] + write the enumerated sequence [Monday..] without spaces, whereas in Haskell 98 this would be a reference to the operator ‘.‘ from module Monday. @@ -938,6 +1008,7 @@ This name is not supported by GHC. paper Comprehensive comprehensions: comprehensions with "order by" and "group by", except that the syntax we use differs slightly from the paper. +The extension is enabled with the flag . Here is an example: employees = [ ("Simon", "MS", 80) @@ -2283,6 +2354,16 @@ otherwise is a generalised data type ( +As with other type signatures, you can give a single signature for several data constructors. +In this example we give a single signature for T1 and T2: + + data T a where + T1,T2 :: a -> T a + T3 :: T a + + + + The type signature of each constructor is independent, and is implicitly universally quantified as usual. Different constructors may have different universally-quantified type variables @@ -2612,7 +2693,7 @@ GHC always treats the last parameter of the instance -Deriving clause for classes <literal>Typeable</literal> and <literal>Data</literal> +Deriving clause for extra classes (<literal>Typeable</literal>, <literal>Data</literal>, etc) Haskell 98 allows the programmer to add "deriving( Eq, Ord )" to a data type @@ -2622,11 +2703,11 @@ classes Eq, Ord, Enum, Ix, Bounded, Read, and Show. -GHC extends this list with two more classes that may be automatically derived -(provided the flag is specified): -Typeable, and Data. These classes are defined in the library -modules Data.Typeable and Data.Generics respectively, and the -appropriate class must be in scope before it can be mentioned in the deriving clause. +GHC extends this list with several more classes that may be automatically derived: + + With , you can derive instances of the classes +Typeable, and Data, defined in the library +modules Data.Typeable and Data.Generics respectively. An instance of Typeable can only be derived if the data type has seven or fewer type parameters, all of kind *. @@ -2642,6 +2723,26 @@ In other cases, there is nothing to stop the programmer writing a Typab class, whose kind suits that of the data type constructor, and then writing the data type instance by hand. + + + With , you can derive instances of +the class Functor, +defined in GHC.Base. + + + With , you can derive instances of +the class Foldable, +defined in Data.Foldable. + + + With , you can derive instances of +the class Traversable, +defined in Data.Traversable. + + +In each case the appropriate class must be in scope before it +can be mentioned in the deriving clause. + @@ -3860,37 +3961,71 @@ data instance GMap (Either a b) v = GMapEither (GMap a v) (GMap b v) can be any number. - Data and newtype instance declarations are only legit when an - appropriate family declaration is in scope - just like class instances - require the class declaration to be visible. Moreover, each instance + Data and newtype instance declarations are only permitted when an + appropriate family declaration is in scope - just as a class instance declaratoin + requires the class declaration to be visible. Moreover, each instance declaration has to conform to the kind determined by its family declaration. This implies that the number of parameters of an instance declaration matches the arity determined by the kind of the family. - Although, all data families are declared with - the data keyword, instances can be - either data or newtypes, or a mix - of both. + A data family instance declaration can use the full exprssiveness of + ordinary data or newtype declarations: + + Although, a data family is introduced with + the keyword "data", a data family instance can + use either data or newtype. For example: + +data family T a +data instance T Int = T1 Int | T2 Bool +newtype instance T Char = TC Bool + + + A data instance can use GADT syntax for the data constructors, + and indeed can define a GADT. For example: + +data family G a b +data instance G [a] b where + G1 :: c -> G [Int] b + G2 :: G [a] Bool + + + You can use a deriving clause on a + data instance or newtype instance + declaration. + + + + + Even if type families are defined as toplevel declarations, functions - that perform different computations for different family instances still + that perform different computations for different family instances may still need to be defined as methods of type classes. In particular, the following is not possible: data family T a data instance T Int = A data instance T Char = B -nonsence :: T a -> Int -nonsence A = 1 -- WRONG: These two equations together... -nonsence B = 2 -- ...will produce a type error. +foo :: T a -> Int +foo A = 1 -- WRONG: These two equations together... +foo B = 2 -- ...will produce a type error. + +Instead, you would have to write foo as a class operation, thus: + +class C a where + foo :: T a -> Int +instance Foo Int where + foo A = 1 +instance Foo Char where + foo B = 2 - Given the functionality provided by GADTs (Generalised Algebraic Data + (Given the functionality provided by GADTs (Generalised Algebraic Data Types), it might seem as if a definition, such as the above, should be feasible. However, type families are - in contrast to GADTs - are open; i.e., new instances can always be added, possibly in other modules. Supporting pattern matching across different data instances - would require a form of extensible case construct. + would require a form of extensible case construct.) @@ -5729,6 +5864,8 @@ Wiki page. an expression; the spliced expression must have type Q Exp + an type; the spliced expression must + have type Q Typ a list of top-level declarations; the spliced expression must have type Q [Dec] @@ -5777,7 +5914,7 @@ Wiki page. (Compared to the original paper, there are many differences of detail. The syntax for a declaration splice uses "$" not "splice". The type of the enclosed expression must be Q [Dec], not [Q Dec]. -Type splices are not implemented, and neither are pattern splices or quotations. +Pattern splices and quotations are not implemented.) @@ -6578,13 +6715,24 @@ Because the preprocessor targets Haskell (rather than Core), Bang patterns GHC supports an extension of pattern matching called bang -patterns. Bang patterns are under consideration for Haskell Prime. +patterns, written !pat. +Bang patterns are under consideration for Haskell Prime. The Haskell prime feature description contains more discussion and examples than the material below. +The key change is the addition of a new rule to the +semantics of pattern matching in the Haskell 98 report. +Add new bullet 10, saying: Matching the pattern !pat +against a value v behaves as follows: + +if v is bottom, the match diverges +otherwise, pat is matched against v + + + Bang patterns are enabled by the flag . @@ -6615,9 +6763,40 @@ A bang only really has an effect if it precedes a variable or wild-card pattern: f3 !(x,y) = [x,y] f4 (x,y) = [x,y] -Here, f3 and f4 are identical; putting a bang before a pattern that +Here, f3 and f4 are identical; +putting a bang before a pattern that forces evaluation anyway does nothing. - + + +There is one (apparent) exception to this general rule that a bang only +makes a difference when it precedes a variable or wild-card: a bang at the +top level of a let or where +binding makes the binding strict, regardless of the pattern. For example: + +let ![x,y] = e in b + +is a strict binding: operationally, it evaluates e, matches +it against the pattern [x,y], and then evaluates b. +(We say "apparent" exception because the Right Way to think of it is that the bang +at the top of a binding is not part of the pattern; rather it +is part of the syntax of the binding.) +Nested bangs in a pattern binding behave uniformly with all other forms of +pattern matching. For example + +let (!x,[y]) = e in b + +is equivalent to this: + +let { t = case e of (x,[y]) -> x `seq` (x,y) + x = fst t + y = snd t } +in b + +The binding is lazy, but when either x or y is +evaluated by b the entire pattern is matched, including forcing the +evaluation of x. + + Bang patterns work in case expressions too, of course: g5 x = let y = f x in body @@ -6627,18 +6806,6 @@ g7 x = case f x of { !y -> body } The functions g5 and g6 mean exactly the same thing. But g7 evaluates (f x), binds y to the result, and then evaluates body. - -Bang patterns work in let and where -definitions too. For example: - -let ![x,y] = e in b - -is a strict pattern: operationally, it evaluates e, matches -it against the pattern [x,y], and then evaluates b -The "!" should not be regarded as part of the pattern; after all, -in a function argument ![x,y] means the -same as [x,y]. Rather, the "!" -is part of the syntax of let bindings. @@ -6824,14 +6991,31 @@ Assertion failures can be caught, see the documentation for the word. The various values for word that GHC understands are described in the following sections; any pragma encountered with an - unrecognised word is (silently) + unrecognised word is ignored. The layout rule applies in pragmas, so the closing #-} should start in a column to the right of the opening {-#. - Certain pragmas are file-header pragmas. A file-header - pragma must precede the module keyword in the file. + Certain pragmas are file-header pragmas: + + + A file-header + pragma must precede the module keyword in the file. + + There can be as many file-header pragmas as you please, and they can be - preceded or followed by comments. + preceded or followed by comments. + + + File-header pragmas are read once only, before + pre-processing the file (e.g. with cpp). + + + The file-header pragmas are: {-# LANGUAGE #-}, + {-# OPTIONS_GHC #-}, and + {-# INCLUDE #-}. + + + LANGUAGE pragma @@ -7179,7 +7363,7 @@ foo = ... please give the GHC team a shout. - However, apart from these restrictions, many things are allowed, including expressions which not fully evaluated! + However, apart from these restrictions, many things are allowed, including expressions which are not fully evaluated! Annotation expressions will be evaluated by the compiler just like Template Haskell splices are. So, this annotation is fine: @@ -8120,7 +8304,7 @@ r) -> Special built-in functions GHC has a few built-in functions with special behaviour. These are now described in the module GHC.Prim +url="../libraries/ghc-prim/GHC-Prim.html">GHC.Prim in the library documentation.