{-# LANGUAGE DeriveDataTypeable, DeriveGeneric #-} ----------------------------------------------------------------------------- -- | -- Module : Language.Haskell.Exts.Syntax -- Copyright : (c) Niklas Broberg 2004-2009, -- (c) The GHC Team, 1997-2000 -- License : BSD-style (see the file LICENSE.txt) -- -- Maintainer : Niklas Broberg, d00nibro@chalmers.se -- Stability : stable -- Portability : portable -- -- A suite of datatypes describing the abstract syntax of Haskell 98 -- <http://www.haskell.org/onlinereport/> plus registered extensions, including: -- -- * multi-parameter type classes with functional dependencies (MultiParamTypeClasses, FunctionalDependencies) -- -- * parameters of type class assertions are unrestricted (FlexibleContexts) -- -- * 'forall' types as universal and existential quantification (RankNTypes, ExistentialQuantification, etc) -- -- * pattern guards (PatternGuards) -- -- * implicit parameters (ImplicitParameters) -- -- * generalised algebraic data types (GADTs) -- -- * template haskell (TemplateHaskell) -- -- * empty data type declarations (EmptyDataDecls) -- -- * unboxed tuples (UnboxedTuples) -- -- * regular patterns (RegularPatterns) -- -- * HSP-style XML expressions and patterns (XmlSyntax) -- ----------------------------------------------------------------------------- module Language.Haskell.Exts.Syntax ( -- * Modules Module(..), WarningText(..), ExportSpec(..), ImportDecl(..), ImportSpec(..), Assoc(..), Namespace(..), -- * Declarations Decl(..), Binds(..), IPBind(..), -- ** Type classes and instances ClassDecl(..), InstDecl(..), Deriving, -- ** Data type declarations DataOrNew(..), ConDecl(..), QualConDecl(..), GadtDecl(..), BangType(..), -- ** Function bindings Match(..), Rhs(..), GuardedRhs(..), -- * Class Assertions and Contexts Context, FunDep(..), Asst(..), -- * Types Type(..), Boxed(..), Kind(..), TyVarBind(..), Promoted(..), TypeEqn (..), -- * Expressions Exp(..), Stmt(..), QualStmt(..), FieldUpdate(..), Alt(..), XAttr(..), -- * Patterns Pat(..), PatField(..), PXAttr(..), RPat(..), RPatOp(..), -- * Literals Literal(..), Sign(..), -- * Variables, Constructors and Operators ModuleName(..), QName(..), Name(..), QOp(..), Op(..), SpecialCon(..), CName(..), IPName(..), XName(..), -- * Template Haskell Bracket(..), Splice(..), -- * FFI Safety(..), CallConv(..), -- * Pragmas ModulePragma(..), Tool(..), Overlap(..), Rule(..), RuleVar(..), Activation(..), Annotation(..), BooleanFormula(..), -- * Builtin names -- ** Modules prelude_mod, main_mod, -- ** Main function of a program main_name, -- ** Constructors unit_con_name, tuple_con_name, list_cons_name, unboxed_singleton_con_name, unit_con, tuple_con, unboxed_singleton_con, -- ** Special identifiers as_name, qualified_name, hiding_name, minus_name, bang_name, dot_name, star_name, export_name, safe_name, unsafe_name, interruptible_name, threadsafe_name, stdcall_name, ccall_name, cplusplus_name, dotnet_name, jvm_name, js_name, capi_name, forall_name, family_name, -- ** Type constructors unit_tycon_name, fun_tycon_name, list_tycon_name, tuple_tycon_name, unboxed_singleton_tycon_name, unit_tycon, fun_tycon, list_tycon, tuple_tycon, unboxed_singleton_tycon, -- * Source coordinates SrcLoc(..), ) where import Data.Data import GHC.Generics (Generic) import Language.Haskell.Exts.SrcLoc (SrcLoc(..)) import Language.Haskell.Exts.Annotated.Syntax (Boxed(..), Tool(..)) -- | The name of a Haskell module. newtype ModuleName = ModuleName String deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Constructors with special syntax. -- These names are never qualified, and always refer to builtin type or -- data constructors. data SpecialCon = UnitCon -- ^ unit type and data constructor @()@ | ListCon -- ^ list type constructor @[]@ | FunCon -- ^ function type constructor @->@ | TupleCon Boxed Int -- ^ /n/-ary tuple type and data -- constructors @(,)@ etc, possibly boxed @(\#,\#)@ | Cons -- ^ list data constructor @(:)@ | UnboxedSingleCon -- ^ unboxed singleton tuple constructor @(\# \#)@ deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | This type is used to represent qualified variables, and also -- qualified constructors. data QName = Qual ModuleName Name -- ^ name qualified with a module name | UnQual Name -- ^ unqualified local name | Special SpecialCon -- ^ built-in constructor with special syntax deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | This type is used to represent variables, and also constructors. data Name = Ident String -- ^ /varid/ or /conid/. | Symbol String -- ^ /varsym/ or /consym/ deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | An implicit parameter name. data IPName = IPDup String -- ^ ?/ident/, non-linear implicit parameter | IPLin String -- ^ %/ident/, linear implicit parameter deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Possibly qualified infix operators (/qop/), appearing in expressions. data QOp = QVarOp QName -- ^ variable operator (/qvarop/) | QConOp QName -- ^ constructor operator (/qconop/) deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Operators appearing in @infix@ declarations are never qualified. data Op = VarOp Name -- ^ variable operator (/varop/) | ConOp Name -- ^ constructor operator (/conop/) deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A name (/cname/) of a component of a class or data type in an @import@ -- or export specification. data CName = VarName Name -- ^ name of a method or field | ConName Name -- ^ name of a data constructor deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A complete Haskell source module. data Module = Module SrcLoc ModuleName [ModulePragma] (Maybe WarningText) (Maybe [ExportSpec]) [ImportDecl] [Decl] deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | An item in a module's export specification. data ExportSpec = EVar Namespace QName -- ^ variable. | EAbs QName -- ^ @T@: -- a class or datatype exported abstractly, -- or a type synonym. | EThingAll QName -- ^ @T(..)@: -- a class exported with all of its methods, or -- a datatype exported with all of its constructors. | EThingWith QName [CName] -- ^ @T(C_1,...,C_n)@: -- a class exported with some of its methods, or -- a datatype exported with some of its constructors. | EModuleContents ModuleName -- ^ @module M@: -- re-export a module. deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Namespaces for imports/exports. data Namespace = NoNamespace | TypeNamespace deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | An import declaration. data ImportDecl = ImportDecl { importLoc :: SrcLoc -- ^ position of the @import@ keyword. , importModule :: ModuleName -- ^ name of the module imported. , importQualified :: Bool -- ^ imported @qualified@? , importSrc :: Bool -- ^ imported with @{-\# SOURCE \#-}@? , importSafe :: Bool -- ^ Import @safe@? , importPkg :: Maybe String -- ^ imported with explicit package name , importAs :: Maybe ModuleName -- ^ optional alias name in an @as@ clause. , importSpecs :: Maybe (Bool,[ImportSpec]) -- ^ optional list of import specifications. -- The 'Bool' is 'True' if the names are excluded -- by @hiding@. } deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | An import specification, representing a single explicit item imported -- (or hidden) from a module. data ImportSpec = IVar Namespace Name -- ^ variable. | IAbs Name -- ^ @T@: -- the name of a class, datatype or type synonym. | IThingAll Name -- ^ @T(..)@: -- a class imported with all of its methods, or -- a datatype imported with all of its constructors. | IThingWith Name [CName] -- ^ @T(C_1,...,C_n)@: -- a class imported with some of its methods, or -- a datatype imported with some of its constructors. deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Associativity of an operator. data Assoc = AssocNone -- ^ non-associative operator (declared with @infix@) | AssocLeft -- ^ left-associative operator (declared with @infixl@). | AssocRight -- ^ right-associative operator (declared with @infixr@) deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A single derived instance, which may have arguments since it may be a MPTC. type Deriving = (QName, [Type]) -- | A top-level declaration. data Decl = TypeDecl SrcLoc Name [TyVarBind] Type -- ^ A type declaration | TypeFamDecl SrcLoc Name [TyVarBind] (Maybe Kind) -- ^ A type family declaration | ClosedTypeFamDecl SrcLoc Name [TyVarBind] (Maybe Kind) [TypeEqn] -- ^ A closed type family declaration | DataDecl SrcLoc DataOrNew Context Name [TyVarBind] [QualConDecl] [Deriving] -- ^ A data OR newtype declaration | GDataDecl SrcLoc DataOrNew Context Name [TyVarBind] (Maybe Kind) [GadtDecl] [Deriving] -- ^ A data OR newtype declaration, GADT style | DataFamDecl SrcLoc {-data-} Context Name [TyVarBind] (Maybe Kind) -- ^ A data family declaration | TypeInsDecl SrcLoc Type Type -- ^ A type family instance declaration | DataInsDecl SrcLoc DataOrNew Type [QualConDecl] [Deriving] -- ^ A data family instance declaration | GDataInsDecl SrcLoc DataOrNew Type (Maybe Kind) [GadtDecl] [Deriving] -- ^ A data family instance declaration, GADT style | ClassDecl SrcLoc Context Name [TyVarBind] [FunDep] [ClassDecl] -- ^ A declaration of a type class | InstDecl SrcLoc (Maybe Overlap) [TyVarBind] Context QName [Type] [InstDecl] -- ^ An declaration of a type class instance | DerivDecl SrcLoc (Maybe Overlap) [TyVarBind] Context QName [Type] -- ^ A standalone deriving declaration | InfixDecl SrcLoc Assoc Int [Op] -- ^ A declaration of operator fixity | DefaultDecl SrcLoc [Type] -- ^ A declaration of default types | SpliceDecl SrcLoc Exp -- ^ A Template Haskell splicing declaration | TypeSig SrcLoc [Name] Type -- ^ A type signature declaration | FunBind [Match] -- ^ A set of function binding clauses | PatBind SrcLoc Pat Rhs {-where-} Binds -- ^ A pattern binding | ForImp SrcLoc CallConv Safety String Name Type -- ^ A foreign import declaration | ForExp SrcLoc CallConv String Name Type -- ^ A foreign export declaration | RulePragmaDecl SrcLoc [Rule] -- ^ A RULES pragma | DeprPragmaDecl SrcLoc [([Name], String)] -- ^ A DEPRECATED pragma | WarnPragmaDecl SrcLoc [([Name], String)] -- ^ A WARNING pragma | InlineSig SrcLoc Bool Activation QName -- ^ An INLINE pragma | InlineConlikeSig SrcLoc Activation QName -- ^ An INLINE CONLIKE pragma | SpecSig SrcLoc Activation QName [Type] -- ^ A SPECIALISE pragma | SpecInlineSig SrcLoc Bool Activation QName [Type] -- ^ A SPECIALISE INLINE pragma | InstSig SrcLoc [TyVarBind] Context QName [Type] -- ^ A SPECIALISE instance pragma | AnnPragma SrcLoc Annotation -- ^ An ANN pragma | MinimalPragma SrcLoc (Maybe BooleanFormula) -- ^ A MINIMAL pragma deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A type equation of the form @rhs = lhs@ used in closed type families. data TypeEqn = TypeEqn Type Type deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | An annotation through an ANN pragma. data Annotation = Ann Name Exp -- ^ An annotation for a declared name. | TypeAnn Name Exp -- ^ An annotation for a declared type. | ModuleAnn Exp -- ^ An annotation for the defining module. deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A boolean formula for MINIMAL pragmas. data BooleanFormula = VarFormula Name -- ^ A variable. | AndFormula [BooleanFormula] -- ^ And boolean formulas. | OrFormula [BooleanFormula] -- ^ Or boolean formulas. | ParenFormula BooleanFormula -- ^ Parenthesized boolean formulas. deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A flag stating whether a declaration is a data or newtype declaration. data DataOrNew = DataType | NewType deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A binding group inside a @let@ or @where@ clause. data Binds = BDecls [Decl] -- ^ An ordinary binding group | IPBinds [IPBind] -- ^ A binding group for implicit parameters deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A binding of an implicit parameter. data IPBind = IPBind SrcLoc IPName Exp deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Clauses of a function binding. data Match = Match SrcLoc Name [Pat] (Maybe Type) Rhs {-where-} Binds deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A single constructor declaration within a data type declaration, -- which may have an existential quantification binding. data QualConDecl = QualConDecl SrcLoc {-forall-} [TyVarBind] {- . -} Context {- => -} ConDecl deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Declaration of an ordinary data constructor. data ConDecl = ConDecl Name [Type] -- ^ ordinary data constructor | InfixConDecl Type Name Type -- ^ infix data constructor | RecDecl Name [([Name],Type)] -- ^ record constructor deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A single constructor declaration in a GADT data type declaration. data GadtDecl = GadtDecl SrcLoc Name [([Name], Type)] Type deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Declarations inside a class declaration. data ClassDecl = ClsDecl Decl -- ^ ordinary declaration | ClsDataFam SrcLoc Context Name [TyVarBind] (Maybe Kind) -- ^ declaration of an associated data type | ClsTyFam SrcLoc Name [TyVarBind] (Maybe Kind) -- ^ declaration of an associated type synonym | ClsTyDef SrcLoc Type Type -- ^ default choice for an associated type synonym | ClsDefSig SrcLoc Name Type -- ^ default signature deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Declarations inside an instance declaration. data InstDecl = InsDecl Decl -- ^ ordinary declaration | InsType SrcLoc Type Type -- ^ an associated type definition | InsData SrcLoc DataOrNew Type [QualConDecl] [Deriving] -- ^ an associated data type implementation | InsGData SrcLoc DataOrNew Type (Maybe Kind) [GadtDecl] [Deriving] -- ^ an associated data type implemented using GADT style deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | The type of a constructor argument or field, optionally including -- a strictness annotation. data BangType = BangedTy -- ^ strict component, marked with \"@!@\" | UnpackedTy -- ^ unboxed component, marked with an UNPACK pragma deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | The right hand side of a function binding, pattern binding, or a case -- alternative. data Rhs = UnGuardedRhs Exp -- ^ unguarded right hand side (/exp/) | GuardedRhss [GuardedRhs] -- ^ guarded right hand side (/gdrhs/) deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A guarded right hand side @|@ /stmts/ @=@ /exp/, or @|@ /stmts/ @->@ /exp/ -- for case alternatives. -- The guard is a series of statements when using pattern guards, -- otherwise it will be a single qualifier expression. data GuardedRhs = GuardedRhs SrcLoc [Stmt] Exp deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A type qualified with a context. -- An unqualified type has an empty context. data Type = TyForall (Maybe [TyVarBind]) Context Type -- ^ qualified type | TyFun Type Type -- ^ function type | TyTuple Boxed [Type] -- ^ tuple type, possibly boxed | TyList Type -- ^ list syntax, e.g. [a], as opposed to [] a | TyParArray Type -- ^ parallel array syntax, e.g. [:a:] | TyApp Type Type -- ^ application of a type constructor | TyVar Name -- ^ type variable | TyCon QName -- ^ named type or type constructor | TyParen Type -- ^ type surrounded by parentheses | TyInfix Type QName Type -- ^ infix type constructor | TyKind Type Kind -- ^ type with explicit kind signature | TyPromoted Promoted -- ^ promoted data type (-XDataKinds) | TyEquals Type Type -- ^ type equality predicate enabled by ConstraintKinds | TySplice Splice -- ^ template haskell splice type | TyBang BangType Type -- ^ Strict type marked with \"@!@\" or type marked with UNPACK pragma. deriving (Eq,Ord,Show,Typeable,Data) data Promoted = PromotedInteger Integer | PromotedString String | PromotedCon Bool QName | PromotedList Bool [Promoted] | PromotedTuple [Promoted] | PromotedUnit deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A type variable declaration, optionally with an explicit kind annotation. data TyVarBind = KindedVar Name Kind -- ^ variable binding with kind annotation | UnkindedVar Name -- ^ ordinary variable binding deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | An explicit kind annotation. data Kind = KindStar -- ^ @*@, the kind of types | KindBang -- ^ @!@, the kind of unboxed types | KindFn Kind Kind -- ^ @->@, the kind of a type constructor | KindParen Kind -- ^ a kind surrounded by parentheses | KindVar QName -- ^ a kind variable (as of yet unsupported by compilers) | KindApp Kind Kind -- ^ @k1 k2@ | KindTuple [Kind] -- ^ @'(k1,k2,k3)@, a promoted tuple | KindList [Kind] -- ^ @'[k1,k2,k3]@, a promoted list literal deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A functional dependency, given on the form -- l1 l2 ... ln -> r2 r3 .. rn data FunDep = FunDep [Name] [Name] deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A context is a set of assertions type Context = [Asst] -- | Class assertions. -- In Haskell 98, the argument would be a /tyvar/, but this definition -- allows multiple parameters, and allows them to be /type/s. -- Also extended with support for implicit parameters and equality constraints. data Asst = ClassA QName [Type] -- ^ ordinary class assertion | VarA Name -- ^ constraint kind assertion, @Dict :: cxt => Dict cxt@ | InfixA Type QName Type -- ^ class assertion where the class name is given infix | IParam IPName Type -- ^ implicit parameter assertion | EqualP Type Type -- ^ type equality constraint | ParenA Asst -- ^ parenthesised class assertion deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | /literal/ -- Values of this type hold the abstract value of the literal, not the -- precise string representation used. For example, @10@, @0o12@ and @0xa@ -- have the same representation. data Literal = Char Char -- ^ character literal | String String -- ^ string literal | Int Integer -- ^ integer literal | Frac Rational -- ^ floating point literal | PrimInt Integer -- ^ unboxed integer literal | PrimWord Integer -- ^ unboxed word literal | PrimFloat Rational -- ^ unboxed float literal | PrimDouble Rational -- ^ unboxed double literal | PrimChar Char -- ^ unboxed character literal | PrimString String -- ^ unboxed string literal deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | An indication whether a literal pattern has been negated or not. data Sign = Signless | Negative deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Haskell expressions. data Exp = Var QName -- ^ variable | IPVar IPName -- ^ implicit parameter variable | Con QName -- ^ data constructor | Lit Literal -- ^ literal constant | InfixApp Exp QOp Exp -- ^ infix application | App Exp Exp -- ^ ordinary application | NegApp Exp -- ^ negation expression @-/exp/@ (unary minus) | Lambda SrcLoc [Pat] Exp -- ^ lambda expression | Let Binds Exp -- ^ local declarations with @let@ ... @in@ ... | If Exp Exp Exp -- ^ @if@ /exp/ @then@ /exp/ @else@ /exp/ | MultiIf [GuardedRhs] -- ^ @if@ @|@ /exp/ @->@ /exp/ ... | Case Exp [Alt] -- ^ @case@ /exp/ @of@ /alts/ | Do [Stmt] -- ^ @do@-expression: -- the last statement in the list -- should be an expression. | MDo [Stmt] -- ^ @mdo@-expression | Tuple Boxed [Exp] -- ^ tuple expression | TupleSection Boxed [Maybe Exp] -- ^ tuple section expression, e.g. @(,,3)@ | List [Exp] -- ^ list expression | ParArray [Exp] -- ^ parallel array expression | Paren Exp -- ^ parenthesised expression | LeftSection Exp QOp -- ^ left section @(@/exp/ /qop/@)@ | RightSection QOp Exp -- ^ right section @(@/qop/ /exp/@)@ | RecConstr QName [FieldUpdate] -- ^ record construction expression | RecUpdate Exp [FieldUpdate] -- ^ record update expression | EnumFrom Exp -- ^ unbounded arithmetic sequence, -- incrementing by 1: @[from ..]@ | EnumFromTo Exp Exp -- ^ bounded arithmetic sequence, -- incrementing by 1 @[from .. to]@ | EnumFromThen Exp Exp -- ^ unbounded arithmetic sequence, -- with first two elements given @[from, then ..]@ | EnumFromThenTo Exp Exp Exp -- ^ bounded arithmetic sequence, -- with first two elements given @[from, then .. to]@ | ParArrayFromTo Exp Exp -- ^ bounded arithmetic sequence, -- incrementing by 1 @[from .. to]@ | ParArrayFromThenTo Exp Exp Exp -- ^ bounded arithmetic sequence, -- with first two elements given @[from, then .. to]@ | ListComp Exp [QualStmt] -- ^ ordinary list comprehension | ParComp Exp [[QualStmt]] -- ^ parallel list comprehension | ParArrayComp Exp [[QualStmt]] -- ^ parallel array comprehension | ExpTypeSig SrcLoc Exp Type -- ^ expression with explicit type signature | VarQuote QName -- ^ @'x@ for template haskell reifying of expressions | TypQuote QName -- ^ @''T@ for template haskell reifying of types | BracketExp Bracket -- ^ template haskell bracket expression | SpliceExp Splice -- ^ template haskell splice expression | QuasiQuote String String -- ^ quasi-quotaion: @[$/name/| /string/ |]@ -- Hsx | XTag SrcLoc XName [XAttr] (Maybe Exp) [Exp] -- ^ xml element, with attributes and children | XETag SrcLoc XName [XAttr] (Maybe Exp) -- ^ empty xml element, with attributes | XPcdata String -- ^ PCDATA child element | XExpTag Exp -- ^ escaped haskell expression inside xml | XChildTag SrcLoc [Exp] -- ^ children of an xml element -- Pragmas | CorePragma String Exp -- ^ CORE pragma | SCCPragma String Exp -- ^ SCC pragma | GenPragma String (Int, Int) (Int, Int) Exp -- ^ GENERATED pragma -- Arrows | Proc SrcLoc Pat Exp -- ^ arrows proc: @proc@ /pat/ @->@ /exp/ | LeftArrApp Exp Exp -- ^ arrow application (from left): /exp/ @-<@ /exp/ | RightArrApp Exp Exp -- ^ arrow application (from right): /exp/ @>-@ /exp/ | LeftArrHighApp Exp Exp -- ^ higher-order arrow application (from left): /exp/ @-<<@ /exp/ | RightArrHighApp Exp Exp -- ^ higher-order arrow application (from right): /exp/ @>>-@ /exp/ -- LambdaCase | LCase [Alt] -- ^ @\case@ /alts/ deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | The name of an xml element or attribute, -- possibly qualified with a namespace. data XName = XName String -- <name ... | XDomName String String -- <dom:name ... deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | An xml attribute, which is a name-expression pair. data XAttr = XAttr XName Exp deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A template haskell bracket expression. data Bracket = ExpBracket Exp -- ^ expression bracket: @[| ... |]@ | PatBracket Pat -- ^ pattern bracket: @[p| ... |]@ | TypeBracket Type -- ^ type bracket: @[t| ... |]@ | DeclBracket [Decl] -- ^ declaration bracket: @[d| ... |]@ deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A template haskell splice expression data Splice = IdSplice String -- ^ variable splice: @$var@ | ParenSplice Exp -- ^ parenthesised expression splice: @$(/exp/)@ deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | The safety of a foreign function call. data Safety = PlayRisky -- ^ unsafe | PlaySafe Bool -- ^ safe ('False') or threadsafe ('True') | PlayInterruptible -- ^ interruptible deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | The calling convention of a foreign function call. data CallConv = StdCall | CCall | CPlusPlus | DotNet | Jvm | Js | CApi deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A top level options pragma, preceding the module header. data ModulePragma = LanguagePragma SrcLoc [Name] -- ^ LANGUAGE pragma | OptionsPragma SrcLoc (Maybe Tool) String -- ^ OPTIONS pragma, possibly qualified with a tool, e.g. OPTIONS_GHC | AnnModulePragma SrcLoc Annotation -- ^ ANN pragma with module scope deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Recognised overlaps for overlap pragmas. data Overlap = NoOverlap -- ^ NO_OVERLAP pragma | Overlap -- ^ OVERLAP pragma | Incoherent -- ^ INCOHERENT pragma deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Activation clause of a RULES pragma. data Activation = AlwaysActive | ActiveFrom Int | ActiveUntil Int deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | The body of a RULES pragma. data Rule = Rule String Activation (Maybe [RuleVar]) Exp Exp deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Variables used in a RULES pragma, optionally annotated with types data RuleVar = RuleVar Name | TypedRuleVar Name Type deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | Warning text to optionally use in the module header of e.g. -- a deprecated module. data WarningText = DeprText String | WarnText String deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A pattern, to be matched against a value. data Pat = PVar Name -- ^ variable | PLit Sign Literal -- ^ literal constant | PNPlusK Name Integer -- ^ n+k pattern | PInfixApp Pat QName Pat -- ^ pattern with an infix data constructor | PApp QName [Pat] -- ^ data constructor and argument patterns | PTuple Boxed [Pat] -- ^ tuple pattern | PList [Pat] -- ^ list pattern | PParen Pat -- ^ parenthesized pattern | PRec QName [PatField] -- ^ labelled pattern, record style | PAsPat Name Pat -- ^ @\@@-pattern | PWildCard -- ^ wildcard pattern: @_@ | PIrrPat Pat -- ^ irrefutable pattern: @~/pat/@ | PatTypeSig SrcLoc Pat Type -- ^ pattern with type signature | PViewPat Exp Pat -- ^ view patterns of the form @(/exp/ -> /pat/)@ | PRPat [RPat] -- ^ regular list pattern | PXTag SrcLoc XName [PXAttr] (Maybe Pat) [Pat] -- ^ XML element pattern | PXETag SrcLoc XName [PXAttr] (Maybe Pat) -- ^ XML singleton element pattern | PXPcdata String -- ^ XML PCDATA pattern | PXPatTag Pat -- ^ XML embedded pattern | PXRPats [RPat] -- ^ XML regular list pattern | PQuasiQuote String String -- ^ quasi quote patter: @[$/name/| /string/ |]@ | PBangPat Pat -- ^ strict (bang) pattern: @f !x = ...@ deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | An XML attribute in a pattern. data PXAttr = PXAttr XName Pat deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A regular pattern operator. data RPatOp = RPStar -- ^ @*@ = 0 or more | RPStarG -- ^ @*!@ = 0 or more, greedy | RPPlus -- ^ @+@ = 1 or more | RPPlusG -- ^ @+!@ = 1 or more, greedy | RPOpt -- ^ @?@ = 0 or 1 | RPOptG -- ^ @?!@ = 0 or 1, greedy deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | An entity in a regular pattern. data RPat = RPOp RPat RPatOp -- ^ operator pattern, e.g. pat* | RPEither RPat RPat -- ^ choice pattern, e.g. (1 | 2) | RPSeq [RPat] -- ^ sequence pattern, e.g. (| 1, 2, 3 |) | RPGuard Pat [Stmt] -- ^ guarded pattern, e.g. (| p | p < 3 |) | RPCAs Name RPat -- ^ non-linear variable binding, e.g. (foo\@:(1 | 2))* | RPAs Name RPat -- ^ linear variable binding, e.g. foo\@(1 | 2) | RPParen RPat -- ^ parenthesised pattern, e.g. (2*) | RPPat Pat -- ^ an ordinary pattern deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | An /fpat/ in a labeled record pattern. data PatField = PFieldPat QName Pat -- ^ ordinary label-pattern pair | PFieldPun QName -- ^ record field pun | PFieldWildcard -- ^ record field wildcard deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A statement, representing both a /stmt/ in a @do@-expression, -- an ordinary /qual/ in a list comprehension, as well as a /stmt/ -- in a pattern guard. data Stmt = Generator SrcLoc Pat Exp -- ^ a generator: /pat/ @<-@ /exp/ | Qualifier Exp -- ^ an /exp/ by itself: in a @do@-expression, -- an action whose result is discarded; -- in a list comprehension and pattern guard, -- a guard expression | LetStmt Binds -- ^ local bindings | RecStmt [Stmt] -- ^ a recursive binding group for arrows deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | A general /transqual/ in a list comprehension, -- which could potentially be a transform of the kind -- enabled by TransformListComp. data QualStmt = QualStmt Stmt -- ^ an ordinary statement | ThenTrans Exp -- ^ @then@ /exp/ | ThenBy Exp Exp -- ^ @then@ /exp/ @by@ /exp/ | GroupBy Exp -- ^ @then@ @group@ @by@ /exp/ | GroupUsing Exp -- ^ @then@ @group@ @using@ /exp/ | GroupByUsing Exp Exp -- ^ @then@ @group@ @by@ /exp/ @using@ /exp/ deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | An /fbind/ in a labeled construction or update expression. data FieldUpdate = FieldUpdate QName Exp -- ^ ordinary label-expresion pair | FieldPun QName -- ^ record field pun | FieldWildcard -- ^ record field wildcard deriving (Eq,Ord,Show,Typeable,Data,Generic) -- | An /alt/ alternative in a @case@ expression. data Alt = Alt SrcLoc Pat Rhs Binds deriving (Eq,Ord,Show,Typeable,Data,Generic) ----------------------------------------------------------------------------- -- Builtin names. prelude_mod, main_mod :: ModuleName prelude_mod = ModuleName "Prelude" main_mod = ModuleName "Main" main_name :: Name main_name = Ident "main" unit_con_name :: QName unit_con_name = Special UnitCon tuple_con_name :: Boxed -> Int -> QName tuple_con_name b i = Special (TupleCon b (i+1)) list_cons_name :: QName list_cons_name = Special Cons unboxed_singleton_con_name :: QName unboxed_singleton_con_name = Special UnboxedSingleCon unit_con :: Exp unit_con = Con unit_con_name tuple_con :: Boxed -> Int -> Exp tuple_con b i = Con (tuple_con_name b i) unboxed_singleton_con :: Exp unboxed_singleton_con = Con unboxed_singleton_con_name as_name, qualified_name, hiding_name, minus_name, bang_name, dot_name, star_name :: Name as_name = Ident "as" qualified_name = Ident "qualified" hiding_name = Ident "hiding" minus_name = Symbol "-" bang_name = Symbol "!" dot_name = Symbol "." star_name = Symbol "*" export_name, safe_name, unsafe_name, interruptible_name, threadsafe_name, stdcall_name, ccall_name, cplusplus_name, dotnet_name, jvm_name, js_name, capi_name, forall_name, family_name :: Name export_name = Ident "export" safe_name = Ident "safe" unsafe_name = Ident "unsafe" interruptible_name = Ident "interruptible" threadsafe_name = Ident "threadsafe" stdcall_name = Ident "stdcall" ccall_name = Ident "ccall" cplusplus_name = Ident "cplusplus" dotnet_name = Ident "dotnet" jvm_name = Ident "jvm" js_name = Ident "js" capi_name = Ident "capi" forall_name = Ident "forall" family_name = Ident "family" unit_tycon_name, fun_tycon_name, list_tycon_name, unboxed_singleton_tycon_name :: QName unit_tycon_name = unit_con_name fun_tycon_name = Special FunCon list_tycon_name = Special ListCon unboxed_singleton_tycon_name = Special UnboxedSingleCon tuple_tycon_name :: Boxed -> Int -> QName tuple_tycon_name b i = tuple_con_name b i unit_tycon, fun_tycon, list_tycon, unboxed_singleton_tycon :: Type unit_tycon = TyCon unit_tycon_name fun_tycon = TyCon fun_tycon_name list_tycon = TyCon list_tycon_name unboxed_singleton_tycon = TyCon unboxed_singleton_tycon_name tuple_tycon :: Boxed -> Int -> Type tuple_tycon b i = TyCon (tuple_tycon_name b i)