haskell-src-exts-simple-1.20.0.0/0000755000000000000000000000000013220512773014600 5ustar0000000000000000haskell-src-exts-simple-1.20.0.0/CHANGELOG.md0000644000000000000000000000076113220512773016415 0ustar0000000000000000# Revision history for haskell-src-exts-simple ## 1.20.0.0 -- 2017-12-?? * support haskell-src-exts 1.20.0 ## 1.19.0.0 -- 2016-11-20 * support haskell-src-exts 1.19.0 * implement `Language.Haskell.Exts.Simple.Syntax.ImportDecl` as a record pattern synonym for ghc-8.0 ## 1.18.0.1.1 -- 2016-08-05 * package description should now look fine on hackage ## 1.18.0.1 -- 2016-08-02 * ghc-7.8 compatibility (see COMPATIBILITY.md for caveats) ## 1.18.0 -- 2016-07-31 * Initial release. haskell-src-exts-simple-1.20.0.0/haskell-src-exts-simple.cabal0000644000000000000000000000275713220512773022257 0ustar0000000000000000name: haskell-src-exts-simple version: 1.20.0.0 synopsis: A simplified view on the haskell-src-exts AST description: This package provides a shim for haskell-src-exts (HSE), exposing the same AST but without annotations, using ghc's pattern synonyms. . See README.md for further information and compatibility considerations. license: MIT license-file: LICENSE author: Bertram Felgenhauer maintainer: Bertram Felgenhauer copyright: 2016, Bertram Felgenhauer category: Development build-type: Simple extra-source-files: README.md, CHANGELOG.md homepage: https://github.com/int-e/haskell-src-exts-simple cabal-version: >=1.10 source-repository head type: git location: https://github.com/int-e/haskell-src-exts-simple library exposed-modules: Language.Haskell.Exts.Simple, Language.Haskell.Exts.Simple.Build, Language.Haskell.Exts.Simple.Extension, Language.Haskell.Exts.Simple.Fixity, Language.Haskell.Exts.Simple.Parser, Language.Haskell.Exts.Simple.Pretty, Language.Haskell.Exts.Simple.Syntax -- other-modules: other-extensions: CPP, PatternSynonyms, ScopedTypeVariables build-depends: base >= 4.7 && < 5, haskell-src-exts >= 1.20 && < 1.21 hs-source-dirs: src default-language: Haskell2010 haskell-src-exts-simple-1.20.0.0/LICENSE0000644000000000000000000000204713220512773015610 0ustar0000000000000000Copyright (c) 2016 Bertram Felgenhauer Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. haskell-src-exts-simple-1.20.0.0/README.md0000644000000000000000000000434413220512773016064 0ustar0000000000000000# haskell-src-exts-simple ## Synopsis This package provides a shim for haskell-src-exts, exposing the same AST but without annotations, using ghc's pattern synonyms. This package is useful for synthesizing and manipulating HSE ASTs that don't carry source location information. It may also aid in porting packages from haskell-src-exts 1.17 to 1.18, but it is *not* a drop-in replacement for the old annotation-free AST. See the Compatibility section for details. ## Versioning To be able to track the haskell-src-exts version numbers conveniently, the first *three* components of the version will be treated as the major version, followed by the minor version as usual. This deviates from the PVP. ## Compatibility ### Comparison to haskell-src-exts 1.17 (as of version 1.18): haskell-src-exts-simple provides a simplified view of the annotated AST in haskell-src-exts, so there are differences to the unannotated AST provided by earlier versions of haskell-src-exts: * some constructors carried `SrcLoc` information, which is no longer available, notably - most constructors of the `Decl`, `ModulePragma`, `ImportDecl`, `IPBind`, `ClassDecl`, `InstDecl`, `QualConDecl`, `GadtDecl` datatypes - the `Lambda`, `ExpTypeSig` and `Proc` constructors of the `Exp` type (and a few XML related ones) - the `Generator` constructor of `Stmt` - the `Alt` constructor of `Alt` - the `PatTypeSig` constructor of `Pat` * the second, fourth and fifth fields of the `Module` constructor have been combined into a single field of type `ModuleHead` (this list is probably incomplete) ### ghc compatibility * haskell-src-exts-simple requires ghc-7.8 or later * Note that with ghc-7.8, the constructors of the `Language.Haskell.Exts.Simple.Syntax.Literal` type are only available for pattern matching, because construction relies on explicitly bidirectional pattern synonyms for literals. For ghc-7.8 compatibility, you should use the `*L` (`intL` etc.) functions for constructing `Literal` values. * Support for record pattern synonyms was added in ghc-8.0. Therefore, with ghc-7.10 and earlier, the constructor of the `Language.Haskell.Exts.Simple.Syntax.ImportDecl` type is exported as a plain constructor, and the selectors as functions. haskell-src-exts-simple-1.20.0.0/Setup.hs0000644000000000000000000000005613220512773016235 0ustar0000000000000000import Distribution.Simple main = defaultMain haskell-src-exts-simple-1.20.0.0/src/0000755000000000000000000000000013220512773015367 5ustar0000000000000000haskell-src-exts-simple-1.20.0.0/src/Language/0000755000000000000000000000000013220512773017112 5ustar0000000000000000haskell-src-exts-simple-1.20.0.0/src/Language/Haskell/0000755000000000000000000000000013220512773020475 5ustar0000000000000000haskell-src-exts-simple-1.20.0.0/src/Language/Haskell/Exts/0000755000000000000000000000000013220512773021420 5ustar0000000000000000haskell-src-exts-simple-1.20.0.0/src/Language/Haskell/Exts/Simple.hs0000644000000000000000000000356613220512773023217 0ustar0000000000000000-- | -- This module exports all relevant modules of the haskell-src-exts-simple package. -- -- The most important module is "Language.Haskell.Exts.Simple.Syntax". {-# LANGUAGE PatternSynonyms #-} module Language.Haskell.Exts.Simple ( module Language.Haskell.Exts.Simple.Syntax, module Language.Haskell.Exts.Simple.Build, module Language.Haskell.Exts.Simple.Pretty, module Language.Haskell.Exts.Simple.Fixity, module Language.Haskell.Exts.Simple.Extension, module Language.Haskell.Exts.Simple.Parser, module Language.Haskell.Exts.SrcLoc, module Language.Haskell.Exts.Simple ) where import qualified Language.Haskell.Exts as H import Language.Haskell.Exts ( readExtensions, ) import Language.Haskell.Exts.Simple.Syntax import Language.Haskell.Exts.Simple.Build import Language.Haskell.Exts.Simple.Pretty import Language.Haskell.Exts.Simple.Fixity import Language.Haskell.Exts.Simple.Extension import Language.Haskell.Exts.Simple.Parser import Language.Haskell.Exts.SrcLoc -- useful for interpreting parse errors -- * Functions parseFile :: FilePath -> IO (ParseResult Module) parseFile = fmap (fmap (fmap (const ()))) . H.parseFile parseFileWithExts :: [Extension] -> FilePath -> IO (ParseResult Module) parseFileWithExts e = fmap (fmap (fmap (const ()))) . H.parseFileWithExts e parseFileWithMode :: ParseMode -> FilePath -> IO (ParseResult Module) parseFileWithMode m = fmap (fmap (fmap (const ()))) . H.parseFileWithMode m parseFileContents :: String -> ParseResult Module parseFileContents = fmap (fmap (const ())) . H.parseFileContents parseFileContentsWithExts :: [Extension] -> String -> ParseResult Module parseFileContentsWithExts e = fmap (fmap (const ())) . H.parseFileContentsWithExts e parseFileContentsWithMode :: ParseMode -> String -> ParseResult Module parseFileContentsWithMode m = fmap (fmap (const ())) . H.parseFileContentsWithMode m haskell-src-exts-simple-1.20.0.0/src/Language/Haskell/Exts/Simple/0000755000000000000000000000000013220512773022651 5ustar0000000000000000haskell-src-exts-simple-1.20.0.0/src/Language/Haskell/Exts/Simple/Build.hs0000644000000000000000000000027513220512773024250 0ustar0000000000000000-- | -- This module reexports "Language.Haskell.Exts.Build". module Language.Haskell.Exts.Simple.Build ( module Language.Haskell.Exts.Build ) where import Language.Haskell.Exts.Build haskell-src-exts-simple-1.20.0.0/src/Language/Haskell/Exts/Simple/Parser.hs0000644000000000000000000001242413220512773024444 0ustar0000000000000000{-# LANGUAGE CPP #-} {-# LANGUAGE PatternSynonyms #-} {-# LANGUAGE ScopedTypeVariables #-} -- | -- This module partially reexports "Language.Haskell.Exts.Parser" with adaptations. -- -- __IMPORTANT__: if you require compatiblity with ghc 7.8, you should use the -- function `listOf` for constructing `ListOf` values! module Language.Haskell.Exts.Simple.Parser ( module Language.Haskell.Exts.Simple.Parser, module Language.Haskell.Exts.Parser ) where import qualified Language.Haskell.Exts.Parser as H import qualified Language.Haskell.Exts.SrcLoc as H import Language.Haskell.Exts.Parser ( Parseable, ParseResult (..), ParseMode (..), defaultParseMode, fromParseResult, NonGreedy (..), unListOf, ) import Language.Haskell.Exts.Simple.Syntax -- * Datatypes and Constructors -- ** `H.ListOf` -- | Beware that the `ListOf` constructor only works in a pattern context -- in ghc-7.8, because that version does not support explicitly bidirectional -- pattern synonyms. -- -- For code that needs to work with ghc-7.8, we provide the `listOf` function -- constructing `ListOf` values. type ListOf = H.ListOf pattern ListOf a <- H.ListOf _ a #if __GLASGOW_HASKELL__ > 708 where ListOf a = listOf a #endif listOf :: [a] -> ListOf a listOf a = H.ListOf H.noSrcSpan a -- ** `H.PragmasAndModuleName` type PragmasAndModuleName = H.PragmasAndModuleName () pattern PragmasAndModuleName a b = H.PragmasAndModuleName () (a :: [ModulePragma]) (b :: Maybe ModuleName) :: PragmasAndModuleName -- ** `H.PragmasAndModuleHead` type PragmasAndModuleHead = H.PragmasAndModuleHead () pattern PragmasAndModuleHead a b = H.PragmasAndModuleHead () (a :: [ModulePragma]) (b :: Maybe ModuleHead) -- ** `H.ModuleHeadAndImports` type ModuleHeadAndImports = H.ModuleHeadAndImports () pattern ModuleHeadAndImports a b c = H.ModuleHeadAndImports () (a :: [ModulePragma]) (b :: Maybe ModuleHead) (c :: [ImportDecl]) -- * Functions parse :: (Parseable (ast H.SrcSpanInfo), Functor ast) => String -> ParseResult (ast ()) parse = fmap (fmap (const () :: H.SrcSpanInfo -> ())) . H.parse parseWithMode :: (Parseable (ast H.SrcSpanInfo), Functor ast) => ParseMode -> String -> ParseResult (ast ()) parseWithMode m = fmap (fmap (const () :: H.SrcSpanInfo -> ())) . H.parseWithMode m parseModule :: String -> ParseResult Module parseModule = fmap (fmap (const ())) . H.parseModule parseModuleWithMode :: ParseMode -> String -> ParseResult Module parseModuleWithMode m = fmap (fmap (const ())) . H.parseModuleWithMode m parseExp :: String -> ParseResult Exp parseExp = fmap (fmap (const ())) . H.parseExp parseExpWithMode :: ParseMode -> String -> ParseResult Exp parseExpWithMode m = fmap (fmap (const ())) . H.parseExpWithMode m parseStmt :: String -> ParseResult Stmt parseStmt = fmap (fmap (const ())) . H.parseStmt parseStmtWithMode :: ParseMode -> String -> ParseResult Stmt parseStmtWithMode m = fmap (fmap (const ())) . H.parseStmtWithMode m parsePat :: String -> ParseResult Pat parsePat = fmap (fmap (const ())) . H.parsePat parsePatWithMode :: ParseMode -> String -> ParseResult Pat parsePatWithMode m = fmap (fmap (const ())) . H.parsePatWithMode m parseDecl :: String -> ParseResult Decl parseDecl = fmap (fmap (const ())) . H.parseDecl parseDeclWithMode :: ParseMode -> String -> ParseResult Decl parseDeclWithMode m = fmap (fmap (const ())) . H.parseDeclWithMode m parseType :: String -> ParseResult Type parseType = fmap (fmap (const ())) . H.parseType parseTypeWithMode :: ParseMode -> String -> ParseResult Type parseTypeWithMode m = fmap (fmap (const ())) . H.parseTypeWithMode m parseImportDecl :: String -> ParseResult ImportDecl parseImportDecl = fmap (fmap (const ())) . H.parseImportDecl parseImportDeclWithMode :: ParseMode -> String -> ParseResult ImportDecl parseImportDeclWithMode m = fmap (fmap (const ())) . H.parseImportDeclWithMode m getTopPragmas :: String -> ParseResult [ModulePragma] getTopPragmas = fmap (fmap (fmap (const ()))) . H.getTopPragmas -- omitted parsing functions, new in haskell-source-exts-1.20: -- -- normalParser :: AppFixity a => -- P (a SrcSpanInfo) -> Maybe [Fixity] -> P (a SrcSpanInfo) -- -- normalParserNoFixity :: -- P (a SrcSpanInfo) -> Maybe [Fixity] -> P (a SrcSpanInfo) -- -- parseModuleWithComments :: -- ParseMode -> String -> ParseResult (Module SrcSpanInfo, [Comment]) -- -- parseExpWithComments :: -- ParseMode -> String -> ParseResult (Exp SrcSpanInfo, [Comment]) -- -- parsePatWithComments :: -- ParseMode -> String -> ParseResult (Pat SrcSpanInfo, [Comment]) -- -- parseDeclWithComments :: -- ParseMode -> String -> ParseResult (Decl SrcSpanInfo, [Comment]) -- -- parseTypeWithComments :: -- ParseMode -> String -> ParseResult (Type SrcSpanInfo, [Comment]) -- -- parseStmt :: -- String -> ParseResult (Stmt SrcSpanInfo) -- -- parseStmtWithMode :: -- ParseMode -> String -> ParseResult (Stmt SrcSpanInfo) -- -- parseStmtWithComments :: -- ParseMode -> String -> ParseResult (Stmt SrcSpanInfo, [Comment]) -- -- ParseMode -> String -> ParseResult (ImportDecl SrcSpanInfo, [Comment]) -- parseImportDeclWithComments :: -- -- nglistParserNoFixity :: -- P ([a SrcSpanInfo], [SrcSpan], SrcSpanInfo) -> -- Maybe [Fixity] -> P (NonGreedy (ListOf (a SrcSpanInfo))) -- omitted: data NonGreedy a -- omitted: toListOf :: ([a], [SrcSpan], SrcSpanInfo) -> ListOf a haskell-src-exts-simple-1.20.0.0/src/Language/Haskell/Exts/Simple/Syntax.hs0000644000000000000000000010263313220512773024500 0ustar0000000000000000{-# LANGUAGE CPP #-} {-# LANGUAGE PatternSynonyms #-} {-# LANGUAGE ScopedTypeVariables #-} -- | -- This module reexports a simplified view on "Language.Haskell.Exts.Syntax". -- The idea is to expose datatypes like -- -- > data Name l = Ident l String | Symbol l String -- -- using ghc's pattern synonyms: -- -- > type Name = H.Name () -- > pattern Ident a = H.Ident () a -- > pattern Symbol a = H.Symbol () a -- -- This works nicely for all datatypes with two exception: -- -- * `ImportDecl` has a record constructor. Record type synonyms are only -- supported ghc-8.0 and later, so for ghc-7.10 and earlier, the -- constructor is exported as a plain constructor, and the record fields -- as function. -- * `Literal` has constructors with an extra `String` argument that is not -- used by `Language.Haskell.Exts.Simple.Pretty`. This module uses explicitly -- bidirectional pattern synonyms to support this type, but support for that -- is only available in ghc-7.10 and later. -- -- __IMPORTANT__: if you require compatiblity with ghc 7.8, you should use the -- functions `charL`, `stringL` etc. for constructing `Literal` values! module Language.Haskell.Exts.Simple.Syntax ( module Language.Haskell.Exts.Simple.Syntax, module Language.Haskell.Exts.Syntax ) where import qualified Language.Haskell.Exts.Syntax as H import Language.Haskell.Exts.Syntax ( Boxed (..), Tool (..), ) -- * Datatypes and Constructors -- ** `H.ModuleName` type ModuleName = H.ModuleName () pattern ModuleName a = H.ModuleName () (a :: String) :: ModuleName -- ** `H.SpecialCon` type SpecialCon = H.SpecialCon () pattern UnitCon = H.UnitCon () :: SpecialCon pattern ListCon = H.ListCon () :: SpecialCon pattern FunCon = H.FunCon () :: SpecialCon pattern TupleCon a b = H.TupleCon () (a :: Boxed) (b :: Int) :: SpecialCon pattern Cons = H.Cons () :: SpecialCon pattern UnboxedSingleCon = H.UnboxedSingleCon () :: SpecialCon pattern ExprHole = H.ExprHole () :: SpecialCon -- ** `H.QName` type QName = H.QName () pattern Qual a b = H.Qual () (a :: ModuleName) (b :: Name) :: QName pattern UnQual a = H.UnQual () (a :: Name) :: QName pattern Special a = H.Special () (a :: SpecialCon) :: QName -- ** `H.Name` type Name = H.Name () pattern Ident a = H.Ident () (a :: String) :: Name pattern Symbol a = H.Symbol () (a :: String) :: Name -- ** `H.IPName` type IPName = H.IPName () pattern IPDup a = H.IPDup () (a :: String) :: IPName pattern IPLin a = H.IPLin () (a :: String) :: IPName -- ** `H.QOp` type QOp = H.QOp () pattern QVarOp a = H.QVarOp () (a :: QName) :: QOp pattern QConOp a = H.QConOp () (a :: QName) :: QOp -- ** `H.Op` type Op = H.Op () pattern VarOp a = H.VarOp () (a :: Name) :: Op pattern ConOp a = H.ConOp () (a :: Name) :: Op -- ** `H.CName` type CName = H.CName () pattern VarName a = H.VarName () (a :: Name) :: CName pattern ConName a = H.ConName () (a :: Name) :: CName -- ** `H.Module` type Module = H.Module () pattern Module a b c d = H.Module () (a :: (Maybe ModuleHead)) (b :: [ModulePragma]) (c :: [ImportDecl]) (d :: [Decl]) :: Module pattern XmlPage a b c d e f = H.XmlPage () (a :: ModuleName) (b :: [ModulePragma]) (c :: XName) (d :: [XAttr]) (e :: (Maybe Exp)) (f :: [Exp]) :: Module pattern XmlHybrid a b c d e f g h = H.XmlHybrid () (a :: (Maybe ModuleHead)) (b :: [ModulePragma]) (c :: [ImportDecl]) (d :: [Decl]) (e :: XName) (f :: [XAttr]) (g :: (Maybe Exp)) (h :: [Exp]) :: Module -- ** `H.ModuleHead` type ModuleHead = H.ModuleHead () pattern ModuleHead a b c = H.ModuleHead () (a :: ModuleName) (b :: (Maybe WarningText)) (c :: (Maybe ExportSpecList)) :: ModuleHead -- ** `H.ExportSpecList` type ExportSpecList = H.ExportSpecList () pattern ExportSpecList a = H.ExportSpecList () (a :: [ExportSpec]) :: ExportSpecList -- ** `H.ExportSpec` type ExportSpec = H.ExportSpec () pattern EVar a = H.EVar () (a :: QName) :: ExportSpec pattern EAbs a b = H.EAbs () (a :: Namespace) (b :: QName) :: ExportSpec pattern EThingWith a b c = H.EThingWith () (a :: EWildcard) (b :: QName) (c :: [CName]) :: ExportSpec pattern EModuleContents a = H.EModuleContents () (a :: ModuleName) :: ExportSpec -- ** `H.EWildcard` type EWildcard = H.EWildcard () pattern NoWildcard = H.NoWildcard () :: EWildcard pattern EWildcard a = H.EWildcard () (a :: Int) :: EWildcard -- ** `H.Namespace` type Namespace = H.Namespace () pattern NoNamespace = H.NoNamespace () :: Namespace pattern TypeNamespace = H.TypeNamespace () :: Namespace pattern PatternNamespace = H.PatternNamespace () :: Namespace -- ** `H.ImportDecl` type ImportDecl = H.ImportDecl () -- | Note, this is originally a record constructor, and we use a pattern record synonym for ghc-8.0. But for earlier ghc versions, `ImportDecl` is a plain pattern synonym, and the selectors are exported as functions. #if __GLASGOW_HASKELL__ < 800 pattern ImportDecl a b c d e f g = H.ImportDecl () (a :: ModuleName) (b :: Bool) (c :: Bool) (d :: Bool) (e :: Maybe String) (f :: Maybe ModuleName) (g :: Maybe ImportSpecList) :: ImportDecl importModule :: ImportDecl -> ModuleName importModule = H.importModule importQualified :: ImportDecl -> Bool importQualified = H.importQualified importSrc :: ImportDecl -> Bool importSrc = H.importSrc importSafe :: ImportDecl -> Bool importSafe = H.importSafe importPkg :: ImportDecl -> Maybe String importPkg = H.importPkg importAs :: ImportDecl -> Maybe ModuleName importAs = H.importAs importSpecs :: ImportDecl -> Maybe ImportSpecList importSpecs = H.importSpecs #else pattern ImportDecl { importModule, importQualified, importSrc, importSafe, importPkg, importAs, importSpecs } = H.ImportDecl () importModule importQualified importSrc importSafe importPkg importAs importSpecs :: ImportDecl #endif -- ** `H.ImportSpecList` type ImportSpecList = H.ImportSpecList () pattern ImportSpecList a b = H.ImportSpecList () (a :: Bool) (b :: [ImportSpec]) :: ImportSpecList -- ** `H.ImportSpec` type ImportSpec = H.ImportSpec () pattern IVar a = H.IVar () (a :: Name) :: ImportSpec pattern IAbs a b = H.IAbs () (a :: Namespace) (b :: Name) :: ImportSpec pattern IThingAll a = H.IThingAll () (a :: Name) :: ImportSpec pattern IThingWith a b = H.IThingWith () (a :: Name) (b :: [CName]) :: ImportSpec -- ** `H.Assoc` type Assoc = H.Assoc () pattern AssocNone = H.AssocNone () :: Assoc pattern AssocLeft = H.AssocLeft () :: Assoc pattern AssocRight = H.AssocRight () :: Assoc -- ** `H.Decl` type Decl = H.Decl () pattern TypeDecl a b = H.TypeDecl () (a :: DeclHead) (b :: Type) :: Decl pattern TypeFamDecl a b c = H.TypeFamDecl () (a :: DeclHead) (b :: (Maybe ResultSig)) (c :: (Maybe InjectivityInfo)) :: Decl pattern ClosedTypeFamDecl a b c d = H.ClosedTypeFamDecl () (a :: DeclHead) (b :: (Maybe ResultSig)) (c :: (Maybe InjectivityInfo)) (d :: [TypeEqn]) :: Decl pattern DataDecl a b c d e = H.DataDecl () (a :: DataOrNew) (b :: (Maybe Context)) (c :: DeclHead) (d :: [QualConDecl]) (e :: [Deriving]) :: Decl pattern GDataDecl a b c d e f = H.GDataDecl () (a :: DataOrNew) (b :: (Maybe Context)) (c :: DeclHead) (d :: (Maybe Kind)) (e :: [GadtDecl]) (f :: [Deriving]) :: Decl pattern DataFamDecl a b c = H.DataFamDecl () (a :: (Maybe Context)) (b :: DeclHead) (c :: (Maybe ResultSig)) :: Decl pattern TypeInsDecl a b = H.TypeInsDecl () (a :: Type) (b :: Type) :: Decl pattern DataInsDecl a b c d = H.DataInsDecl () (a :: DataOrNew) (b :: Type) (c :: [QualConDecl]) (d :: [Deriving]) :: Decl pattern GDataInsDecl a b c d e = H.GDataInsDecl () (a :: DataOrNew) (b :: Type) (c :: (Maybe Kind)) (d :: [GadtDecl]) (e :: [Deriving]) :: Decl pattern ClassDecl a b c d = H.ClassDecl () (a :: (Maybe Context)) (b :: DeclHead) (c :: [FunDep]) (d :: (Maybe [ClassDecl])) :: Decl pattern InstDecl a b c = H.InstDecl () (a :: (Maybe Overlap)) (b :: InstRule) (c :: (Maybe [InstDecl])) :: Decl pattern DerivDecl a b c = H.DerivDecl () (a :: (Maybe DerivStrategy)) (b :: (Maybe Overlap)) (c :: InstRule) :: Decl pattern InfixDecl a b c = H.InfixDecl () (a :: Assoc) (b :: (Maybe Int)) (c :: [Op]) :: Decl pattern DefaultDecl a = H.DefaultDecl () (a :: [Type]) :: Decl pattern SpliceDecl a = H.SpliceDecl () (a :: Exp) :: Decl pattern TypeSig a b = H.TypeSig () (a :: [Name]) (b :: Type) :: Decl pattern PatSynSig a b c d e = H.PatSynSig () (a :: [Name]) (b :: (Maybe [TyVarBind])) (c :: (Maybe Context)) (d :: (Maybe Context)) (e :: Type) :: Decl pattern FunBind a = H.FunBind () (a :: [Match]) :: Decl pattern PatBind a b c = H.PatBind () (a :: Pat) (b :: Rhs) (c :: (Maybe Binds)) :: Decl pattern PatSyn a b c = H.PatSyn () (a :: Pat) (b :: Pat) (c :: PatternSynDirection) :: Decl pattern ForImp a b c d e = H.ForImp () (a :: CallConv) (b :: (Maybe Safety)) (c :: (Maybe String)) (d :: Name) (e :: Type) :: Decl pattern ForExp a b c d = H.ForExp () (a :: CallConv) (b :: (Maybe String)) (c :: Name) (d :: Type) :: Decl pattern RulePragmaDecl a = H.RulePragmaDecl () (a :: [Rule]) :: Decl pattern DeprPragmaDecl a = H.DeprPragmaDecl () (a :: [([Name], String)]) :: Decl pattern WarnPragmaDecl a = H.WarnPragmaDecl () (a :: [([Name], String)]) :: Decl pattern InlineSig a b c = H.InlineSig () (a :: Bool) (b :: (Maybe Activation)) (c :: QName) :: Decl pattern InlineConlikeSig a b = H.InlineConlikeSig () (a :: (Maybe Activation)) (b :: QName) :: Decl pattern SpecSig a b c = H.SpecSig () (a :: (Maybe Activation)) (b :: QName) (c :: [Type]) :: Decl pattern SpecInlineSig a b c d = H.SpecInlineSig () (a :: Bool) (b :: (Maybe Activation)) (c :: QName) (d :: [Type]) :: Decl pattern InstSig a = H.InstSig () (a :: InstRule) :: Decl pattern AnnPragma a = H.AnnPragma () (a :: Annotation) :: Decl pattern MinimalPragma a = H.MinimalPragma () (a :: (Maybe BooleanFormula)) :: Decl pattern RoleAnnotDecl a b = H.RoleAnnotDecl () (a :: QName) (b :: [Role]) :: Decl pattern CompletePragma a b = H.CompletePragma () (a :: [Name]) (b :: (Maybe QName)) :: Decl -- ** `H.PatternSynDirection` type PatternSynDirection = H.PatternSynDirection () pattern Unidirectional = H.Unidirectional :: PatternSynDirection pattern ImplicitBidirectional = H.ImplicitBidirectional :: PatternSynDirection pattern ExplicitBidirectional a = H.ExplicitBidirectional () (a :: [Decl]) :: PatternSynDirection -- ** `H.TypeEqn` type TypeEqn = H.TypeEqn () pattern TypeEqn a b = H.TypeEqn () (a :: Type) (b :: Type) :: TypeEqn -- ** `H.Annotation` type Annotation = H.Annotation () pattern Ann a b = H.Ann () (a :: Name) (b :: Exp) :: Annotation pattern TypeAnn a b = H.TypeAnn () (a :: Name) (b :: Exp) :: Annotation pattern ModuleAnn a = H.ModuleAnn () (a :: Exp) :: Annotation -- ** `H.BooleanFormula` type BooleanFormula = H.BooleanFormula () pattern VarFormula a = H.VarFormula () (a :: Name) :: BooleanFormula pattern AndFormula a = H.AndFormula () (a :: [BooleanFormula]) :: BooleanFormula pattern OrFormula a = H.OrFormula () (a :: [BooleanFormula]) :: BooleanFormula pattern ParenFormula a = H.ParenFormula () (a :: BooleanFormula) :: BooleanFormula -- ** `H.Role` type Role = H.Role () pattern Nominal = H.Nominal () :: Role pattern Representational = H.Representational () :: Role pattern Phantom = H.Phantom () :: Role pattern RoleWildcard = H.RoleWildcard () :: Role -- ** `H.DataOrNew` type DataOrNew = H.DataOrNew () pattern DataType = H.DataType () :: DataOrNew pattern NewType = H.NewType () :: DataOrNew -- ** `H.InjectivityInfo` type InjectivityInfo = H.InjectivityInfo () pattern InjectivityInfo a b = H.InjectivityInfo () (a :: Name) (b :: [Name]) :: InjectivityInfo -- ** `H.ResultSig` type ResultSig = H.ResultSig () pattern KindSig a = H.KindSig () (a :: Kind) :: ResultSig pattern TyVarSig a = H.TyVarSig () (a :: TyVarBind) :: ResultSig -- ** `H.DeclHead` type DeclHead = H.DeclHead () pattern DHead a = H.DHead () (a :: Name) :: DeclHead pattern DHInfix a b = H.DHInfix () (a :: TyVarBind) (b :: Name) :: DeclHead pattern DHParen a = H.DHParen () (a :: DeclHead) :: DeclHead pattern DHApp a b = H.DHApp () (a :: DeclHead) (b :: TyVarBind) :: DeclHead -- ** `H.InstRule` type InstRule = H.InstRule () pattern IRule a b c = H.IRule () (a :: (Maybe [TyVarBind])) (b :: (Maybe Context)) (c :: InstHead) :: InstRule pattern IParen a = H.IParen () (a :: InstRule) :: InstRule -- ** `H.InstHead` type InstHead = H.InstHead () pattern IHCon a = H.IHCon () (a :: QName) :: InstHead pattern IHInfix a b = H.IHInfix () (a :: Type) (b :: QName) :: InstHead pattern IHParen a = H.IHParen () (a :: InstHead) :: InstHead pattern IHApp a b = H.IHApp () (a :: InstHead) (b :: Type) :: InstHead -- ** `H.Deriving` type Deriving = H.Deriving () pattern Deriving a b = H.Deriving () (a :: (Maybe DerivStrategy)) (b :: [InstRule]) :: Deriving -- ** `H.DerivStrategy` type DerivStrategy = H.DerivStrategy () pattern DerivStock = H.DerivStock () :: DerivStrategy pattern DerivAnyclass = H.DerivAnyclass () :: DerivStrategy pattern DerivNewtype = H.DerivNewtype () :: DerivStrategy -- ** `H.Binds` type Binds = H.Binds () pattern BDecls a = H.BDecls () (a :: [Decl]) :: Binds pattern IPBinds a = H.IPBinds () (a :: [IPBind]) :: Binds -- ** `H.IPBind` type IPBind = H.IPBind () pattern IPBind a b = H.IPBind () (a :: IPName) (b :: Exp) :: IPBind -- ** `H.Match` type Match = H.Match () pattern Match a b c d = H.Match () (a :: Name) (b :: [Pat]) (c :: Rhs) (d :: (Maybe Binds)) :: Match pattern InfixMatch a b c d e = H.InfixMatch () (a :: Pat) (b :: Name) (c :: [Pat]) (d :: Rhs) (e :: (Maybe Binds)) :: Match -- ** `H.QualConDecl` type QualConDecl = H.QualConDecl () pattern QualConDecl a b c = H.QualConDecl () (a :: (Maybe [TyVarBind])) (b :: (Maybe Context)) (c :: ConDecl) :: QualConDecl -- ** `H.ConDecl` type ConDecl = H.ConDecl () pattern ConDecl a b = H.ConDecl () (a :: Name) (b :: [Type]) :: ConDecl pattern InfixConDecl a b c = H.InfixConDecl () (a :: Type) (b :: Name) (c :: Type) :: ConDecl pattern RecDecl a b = H.RecDecl () (a :: Name) (b :: [FieldDecl]) :: ConDecl -- ** `H.FieldDecl` type FieldDecl = H.FieldDecl () pattern FieldDecl a b = H.FieldDecl () (a :: [Name]) (b :: Type) :: FieldDecl -- ** `H.GadtDecl` type GadtDecl = H.GadtDecl () pattern GadtDecl a b c = H.GadtDecl () (a :: Name) (b :: (Maybe [FieldDecl])) (c :: Type) :: GadtDecl -- ** `H.ClassDecl` type ClassDecl = H.ClassDecl () pattern ClsDecl a = H.ClsDecl () (a :: Decl) :: ClassDecl pattern ClsDataFam a b c = H.ClsDataFam () (a :: (Maybe Context)) (b :: DeclHead) (c :: (Maybe ResultSig)) :: ClassDecl pattern ClsTyFam a b c = H.ClsTyFam () (a :: DeclHead) (b :: (Maybe ResultSig)) (c :: (Maybe InjectivityInfo)) :: ClassDecl pattern ClsTyDef a = H.ClsTyDef () (a :: TypeEqn) :: ClassDecl pattern ClsDefSig a b = H.ClsDefSig () (a :: Name) (b :: Type) :: ClassDecl -- ** `H.InstDecl` type InstDecl = H.InstDecl () pattern InsDecl a = H.InsDecl () (a :: Decl) :: InstDecl pattern InsType a b = H.InsType () (a :: Type) (b :: Type) :: InstDecl pattern InsData a b c d = H.InsData () (a :: DataOrNew) (b :: Type) (c :: [QualConDecl]) (d :: [Deriving]) :: InstDecl pattern InsGData a b c d e = H.InsGData () (a :: DataOrNew) (b :: Type) (c :: (Maybe Kind)) (d :: [GadtDecl]) (e :: [Deriving]) :: InstDecl -- ** `H.BangType` type BangType = H.BangType () pattern BangedTy = H.BangedTy () :: BangType pattern LazyTy = H.LazyTy () :: BangType pattern NoStrictAnnot = H.NoStrictAnnot () :: BangType -- ** `H.Unpackedness` type Unpackedness = H.Unpackedness () pattern Unpack = H.Unpack () :: Unpackedness pattern NoUnpack = H.NoUnpack () :: Unpackedness pattern NoUnpackPragma = H.NoUnpackPragma () :: Unpackedness -- ** `H.Rhs` type Rhs = H.Rhs () pattern UnGuardedRhs a = H.UnGuardedRhs () (a :: Exp) :: Rhs pattern GuardedRhss a = H.GuardedRhss () (a :: [GuardedRhs]) :: Rhs -- ** `H.GuardedRhs` type GuardedRhs = H.GuardedRhs () pattern GuardedRhs a b = H.GuardedRhs () (a :: [Stmt]) (b :: Exp) :: GuardedRhs -- ** `H.Type` type Type = H.Type () pattern TyForall a b c = H.TyForall () (a :: (Maybe [TyVarBind])) (b :: (Maybe Context)) (c :: Type) :: Type pattern TyFun a b = H.TyFun () (a :: Type) (b :: Type) :: Type pattern TyTuple a b = H.TyTuple () (a :: Boxed) (b :: [Type]) :: Type pattern TyUnboxedSum a = H.TyUnboxedSum () (a :: [Type]) :: Type pattern TyList a = H.TyList () (a :: Type) :: Type pattern TyParArray a = H.TyParArray () (a :: Type) :: Type pattern TyApp a b = H.TyApp () (a :: Type) (b :: Type) :: Type pattern TyVar a = H.TyVar () (a :: Name) :: Type pattern TyCon a = H.TyCon () (a :: QName) :: Type pattern TyParen a = H.TyParen () (a :: Type) :: Type pattern TyInfix a b c = H.TyInfix () (a :: Type) (b :: MaybePromotedName) (c :: Type) :: Type pattern TyKind a b = H.TyKind () (a :: Type) (b :: Kind) :: Type pattern TyPromoted a = H.TyPromoted () (a :: Promoted) :: Type pattern TyEquals a b = H.TyEquals () (a :: Type) (b :: Type) :: Type pattern TySplice a = H.TySplice () (a :: Splice) :: Type pattern TyBang a b c = H.TyBang () (a :: BangType) (b :: Unpackedness) (c :: Type) :: Type pattern TyWildCard a = H.TyWildCard () (a :: (Maybe Name)) :: Type pattern TyQuasiQuote a b = H.TyQuasiQuote () (a :: String) (b :: String) :: Type -- ** `H.MaybePromotedName` type MaybePromotedName = H.MaybePromotedName () pattern PromotedName a = H.PromotedName () (a :: QName) :: MaybePromotedName pattern UnpromotedName a = H.UnpromotedName () (a :: QName) :: MaybePromotedName -- ** `H.Promoted` type Promoted = H.Promoted () pattern PromotedInteger a b = H.PromotedInteger () (a :: Integer) (b :: String) :: Promoted pattern PromotedString a b = H.PromotedString () (a :: String) (b :: String) :: Promoted pattern PromotedCon a b = H.PromotedCon () (a :: Bool) (b :: QName) :: Promoted pattern PromotedList a b = H.PromotedList () (a :: Bool) (b :: [Type]) :: Promoted pattern PromotedTuple a = H.PromotedTuple () (a :: [Type]) :: Promoted pattern PromotedUnit = H.PromotedUnit () :: Promoted -- skipped: data Boxed -- ** `H.TyVarBind` type TyVarBind = H.TyVarBind () pattern KindedVar a b = H.KindedVar () (a :: Name) (b :: Kind) :: TyVarBind pattern UnkindedVar a = H.UnkindedVar () (a :: Name) :: TyVarBind -- ** `H.Kind` type Kind = H.Kind () pattern KindStar = H.KindStar () :: Kind pattern KindFn a b = H.KindFn () (a :: Kind) (b :: Kind) :: Kind pattern KindParen a = H.KindParen () (a :: Kind) :: Kind pattern KindVar a = H.KindVar () (a :: QName) :: Kind pattern KindApp a b = H.KindApp () (a :: Kind) (b :: Kind) :: Kind pattern KindTuple a = H.KindTuple () (a :: [Kind]) :: Kind pattern KindList a = H.KindList () (a :: Kind) :: Kind -- ** `H.FunDep` type FunDep = H.FunDep () pattern FunDep a b = H.FunDep () (a :: [Name]) (b :: [Name]) :: FunDep -- ** `H.Context` type Context = H.Context () pattern CxSingle a = H.CxSingle () (a :: Asst) :: Context pattern CxTuple a = H.CxTuple () (a :: [Asst]) :: Context pattern CxEmpty = H.CxEmpty () :: Context -- ** `H.Asst` type Asst = H.Asst () pattern ClassA a b = H.ClassA () (a :: QName) (b :: [Type]) :: Asst pattern AppA a b = H.AppA () (a :: Name) (b :: [Type]) :: Asst pattern InfixA a b c = H.InfixA () (a :: Type) (b :: QName) (c :: Type) :: Asst pattern IParam a b = H.IParam () (a :: IPName) (b :: Type) :: Asst pattern EqualP a b = H.EqualP () (a :: Type) (b :: Type) :: Asst pattern ParenA a = H.ParenA () (a :: Asst) :: Asst pattern WildCardA a = H.WildCardA () (a :: (Maybe Name)) :: Asst -- ** `H.Literal` -- | Beware that the constructors only work in a pattern context in ghc-7.8, -- because that version does not support explicitly bidirectional pattern -- synonyms. -- -- For code that needs to work with ghc-7.8, we provide functions `charL`, -- `stringL`, `intL`, `fracL`, etc. for constructing `Literal` values. type Literal = H.Literal () #if __GLASGOW_HASKELL__ <= 708 #define where -- #endif pattern Char a <- H.Char () (a :: Char) _ :: Literal where Char a = H.Char () a [a] charL :: Char -> Literal charL a = H.Char () a [a] pattern String a <- H.String () (a :: String) _ :: Literal where String a = stringL a stringL :: String -> Literal stringL a = H.String () a a pattern Int a <- H.Int () (a :: Integer) _ :: Literal where Int a = intL a intL :: Integer -> Literal intL a = H.Int () a (show a) pattern Frac a <- H.Frac () (a :: Rational) _ :: Literal where Frac a = fracL a fracL :: Rational -> Literal fracL a = H.Frac () a (show a) pattern PrimInt a <- H.PrimInt () (a :: Integer) _ :: Literal where PrimInt a = primIntL a primIntL :: Integer -> Literal primIntL a = H.PrimInt () a (show a) pattern PrimWord a <- H.PrimWord () (a :: Integer) _ :: Literal where PrimWord a = primWordL a primWordL :: Integer -> Literal primWordL a = H.PrimWord () a (show a) pattern PrimFloat a <- H.PrimFloat () (a :: Rational) _ :: Literal where PrimFloat a = primFloatL a primFloatL :: Rational -> Literal primFloatL a = H.PrimFloat () a (show (fromRational a :: Float)) pattern PrimDouble a <- H.PrimDouble () (a :: Rational) _ :: Literal where PrimDouble a = primDoubleL a primDoubleL :: Rational -> Literal primDoubleL a = H.PrimDouble () a (show (fromRational a :: Double)) pattern PrimChar a <- H.PrimChar () (a :: Char) _ :: Literal where PrimChar a = primCharL a primCharL :: Char -> Literal primCharL a = H.PrimChar () a [a] pattern PrimString a <- H.PrimString () (a :: String) _ :: Literal where PrimString a = primStringL a primStringL :: String -> Literal primStringL a = H.PrimString () a a #undef where -- ** `H.Sign` type Sign = H.Sign () pattern Signless = H.Signless () :: Sign pattern Negative = H.Negative () :: Sign -- ** `H.Exp` type Exp = H.Exp () pattern Var a = H.Var () (a :: QName) :: Exp pattern OverloadedLabel a = H.OverloadedLabel () (a :: String) :: Exp pattern IPVar a = H.IPVar () (a :: IPName) :: Exp pattern Con a = H.Con () (a :: QName) :: Exp pattern Lit a = H.Lit () (a :: Literal) :: Exp pattern InfixApp a b c = H.InfixApp () (a :: Exp) (b :: QOp) (c :: Exp) :: Exp pattern App a b = H.App () (a :: Exp) (b :: Exp) :: Exp pattern NegApp a = H.NegApp () (a :: Exp) :: Exp pattern Lambda a b = H.Lambda () (a :: [Pat]) (b :: Exp) :: Exp pattern Let a b = H.Let () (a :: Binds) (b :: Exp) :: Exp pattern If a b c = H.If () (a :: Exp) (b :: Exp) (c :: Exp) :: Exp pattern MultiIf a = H.MultiIf () (a :: [GuardedRhs]) :: Exp pattern Case a b = H.Case () (a :: Exp) (b :: [Alt]) :: Exp pattern Do a = H.Do () (a :: [Stmt]) :: Exp pattern MDo a = H.MDo () (a :: [Stmt]) :: Exp pattern Tuple a b = H.Tuple () (a :: Boxed) (b :: [Exp]) :: Exp pattern UnboxedSum a b c = H.UnboxedSum () (a :: Int) (b :: Int) (c :: Exp) :: Exp pattern TupleSection a b = H.TupleSection () (a :: Boxed) (b :: [Maybe Exp]) :: Exp pattern List a = H.List () (a :: [Exp]) :: Exp pattern ParArray a = H.ParArray () (a :: [Exp]) :: Exp pattern Paren a = H.Paren () (a :: Exp) :: Exp pattern LeftSection a b = H.LeftSection () (a :: Exp) (b :: QOp) :: Exp pattern RightSection a b = H.RightSection () (a :: QOp) (b :: Exp) :: Exp pattern RecConstr a b = H.RecConstr () (a :: QName) (b :: [FieldUpdate]) :: Exp pattern RecUpdate a b = H.RecUpdate () (a :: Exp) (b :: [FieldUpdate]) :: Exp pattern EnumFrom a = H.EnumFrom () (a :: Exp) :: Exp pattern EnumFromTo a b = H.EnumFromTo () (a :: Exp) (b :: Exp) :: Exp pattern EnumFromThen a b = H.EnumFromThen () (a :: Exp) (b :: Exp) :: Exp pattern EnumFromThenTo a b c = H.EnumFromThenTo () (a :: Exp) (b :: Exp) (c :: Exp) :: Exp pattern ParArrayFromTo a b = H.ParArrayFromTo () (a :: Exp) (b :: Exp) :: Exp pattern ParArrayFromThenTo a b c = H.ParArrayFromThenTo () (a :: Exp) (b :: Exp) (c :: Exp) :: Exp pattern ListComp a b = H.ListComp () (a :: Exp) (b :: [QualStmt]) :: Exp pattern ParComp a b = H.ParComp () (a :: Exp) (b :: [[QualStmt]]) :: Exp pattern ParArrayComp a b = H.ParArrayComp () (a :: Exp) (b :: [[QualStmt]]) :: Exp pattern ExpTypeSig a b = H.ExpTypeSig () (a :: Exp) (b :: Type) :: Exp pattern VarQuote a = H.VarQuote () (a :: QName) :: Exp pattern TypQuote a = H.TypQuote () (a :: QName) :: Exp pattern BracketExp a = H.BracketExp () (a :: Bracket) :: Exp pattern SpliceExp a = H.SpliceExp () (a :: Splice) :: Exp pattern QuasiQuote a b = H.QuasiQuote () (a :: String) (b :: String) :: Exp pattern TypeApp a = H.TypeApp () (a :: Type) :: Exp pattern XTag a b c d = H.XTag () (a :: XName) (b :: [XAttr]) (c :: (Maybe Exp)) (d :: [Exp]) :: Exp pattern XETag a b c = H.XETag () (a :: XName) (b :: [XAttr]) (c :: (Maybe Exp)) :: Exp pattern XPcdata a = H.XPcdata () (a :: String) :: Exp pattern XExpTag a = H.XExpTag () (a :: Exp) :: Exp pattern XChildTag a = H.XChildTag () (a :: [Exp]) :: Exp pattern CorePragma a b = H.CorePragma () (a :: String) (b :: Exp) :: Exp pattern SCCPragma a b = H.SCCPragma () (a :: String) (b :: Exp) :: Exp pattern GenPragma a b c d = H.GenPragma () (a :: String) (b :: (Int, Int)) (c :: (Int, Int)) (d :: Exp) :: Exp pattern Proc a b = H.Proc () (a :: Pat) (b :: Exp) :: Exp pattern LeftArrApp a b = H.LeftArrApp () (a :: Exp) (b :: Exp) :: Exp pattern RightArrApp a b = H.RightArrApp () (a :: Exp) (b :: Exp) :: Exp pattern LeftArrHighApp a b = H.LeftArrHighApp () (a :: Exp) (b :: Exp) :: Exp pattern RightArrHighApp a b = H.RightArrHighApp () (a :: Exp) (b :: Exp) :: Exp pattern LCase a = H.LCase () (a :: [Alt]) :: Exp -- ** `H.XName` type XName = H.XName () pattern XName a = H.XName () (a :: String) :: XName pattern XDomName a b = H.XDomName () (a :: String) (b :: String) :: XName -- ** `H.XAttr` type XAttr = H.XAttr () pattern XAttr a b = H.XAttr () (a :: XName) (b :: Exp) :: XAttr -- ** `H.Bracket` type Bracket = H.Bracket () pattern ExpBracket a = H.ExpBracket () (a :: Exp) :: Bracket pattern PatBracket a = H.PatBracket () (a :: Pat) :: Bracket pattern TypeBracket a = H.TypeBracket () (a :: Type) :: Bracket pattern DeclBracket a = H.DeclBracket () (a :: [Decl]) :: Bracket -- ** `H.Splice` type Splice = H.Splice () pattern IdSplice a = H.IdSplice () (a :: String) :: Splice pattern ParenSplice a = H.ParenSplice () (a :: Exp) :: Splice -- ** `H.Safety` type Safety = H.Safety () pattern PlayRisky = H.PlayRisky () :: Safety pattern PlaySafe a = H.PlaySafe () (a :: Bool) :: Safety pattern PlayInterruptible = H.PlayInterruptible () :: Safety -- ** `H.CallConv` type CallConv = H.CallConv () pattern StdCall = H.StdCall () :: CallConv pattern CCall = H.CCall () :: CallConv pattern CPlusPlus = H.CPlusPlus () :: CallConv pattern DotNet = H.DotNet () :: CallConv pattern Jvm = H.Jvm () :: CallConv pattern Js = H.Js () :: CallConv pattern JavaScript = H.JavaScript () :: CallConv pattern CApi = H.CApi () :: CallConv -- ** `H.ModulePragma` type ModulePragma = H.ModulePragma () pattern LanguagePragma a = H.LanguagePragma () (a :: [Name]) :: ModulePragma pattern OptionsPragma a b = H.OptionsPragma () (a :: (Maybe Tool)) (b :: String) :: ModulePragma pattern AnnModulePragma a = H.AnnModulePragma () (a :: Annotation) :: ModulePragma -- skipped: data Tool -- ** `H.Overlap` type Overlap = H.Overlap () pattern NoOverlap = H.NoOverlap () :: Overlap pattern Overlap = H.Overlap () :: Overlap pattern Overlapping = H.Overlapping () :: Overlap pattern Overlaps = H.Overlaps () :: Overlap pattern Overlappable = H.Overlappable () :: Overlap pattern Incoherent = H.Incoherent () :: Overlap -- ** `H.Activation` type Activation = H.Activation () pattern ActiveFrom a = H.ActiveFrom () (a :: Int) :: Activation pattern ActiveUntil a = H.ActiveUntil () (a :: Int) :: Activation -- ** `H.Rule` type Rule = H.Rule () pattern Rule a b c d e = H.Rule () (a :: String) (b :: (Maybe Activation)) (c :: (Maybe [RuleVar])) (d :: Exp) (e :: Exp) :: Rule -- ** `H.RuleVar` type RuleVar = H.RuleVar () pattern RuleVar a = H.RuleVar () (a :: Name) :: RuleVar pattern TypedRuleVar a b = H.TypedRuleVar () (a :: Name) (b :: Type) :: RuleVar -- ** `H.WarningText` type WarningText = H.WarningText () pattern DeprText a = H.DeprText () (a :: String) :: WarningText pattern WarnText a = H.WarnText () (a :: String) :: WarningText -- ** `H.Pat` type Pat = H.Pat () pattern PVar a = H.PVar () (a :: Name) :: Pat pattern PLit a b = H.PLit () (a :: Sign) (b :: Literal) :: Pat pattern PNPlusK a b = H.PNPlusK () (a :: Name) (b :: Integer) :: Pat pattern PInfixApp a b c = H.PInfixApp () (a :: Pat) (b :: QName) (c :: Pat) :: Pat pattern PApp a b = H.PApp () (a :: QName) (b :: [Pat]) :: Pat pattern PTuple a b = H.PTuple () (a :: Boxed) (b :: [Pat]) :: Pat pattern PUnboxedSum a b c = H.PUnboxedSum () (a :: Int) (b :: Int) (c :: Pat) :: Pat pattern PList a = H.PList () (a :: [Pat]) :: Pat pattern PParen a = H.PParen () (a :: Pat) :: Pat pattern PRec a b = H.PRec () (a :: QName) (b :: [PatField]) :: Pat pattern PAsPat a b = H.PAsPat () (a :: Name) (b :: Pat) :: Pat pattern PWildCard = H.PWildCard () :: Pat pattern PIrrPat a = H.PIrrPat () (a :: Pat) :: Pat pattern PatTypeSig a b = H.PatTypeSig () (a :: Pat) (b :: Type) :: Pat pattern PViewPat a b = H.PViewPat () (a :: Exp) (b :: Pat) :: Pat pattern PRPat a = H.PRPat () (a :: [RPat]) :: Pat pattern PXTag a b c d = H.PXTag () (a :: XName) (b :: [PXAttr]) (c :: (Maybe Pat)) (d :: [Pat]) :: Pat pattern PXETag a b c = H.PXETag () (a :: XName) (b :: [PXAttr]) (c :: (Maybe Pat)) :: Pat pattern PXPcdata a = H.PXPcdata () (a :: String) :: Pat pattern PXPatTag a = H.PXPatTag () (a :: Pat) :: Pat pattern PXRPats a = H.PXRPats () (a :: [RPat]) :: Pat pattern PSplice a = H.PSplice () (a :: Splice) :: Pat pattern PQuasiQuote a b = H.PQuasiQuote () (a :: String) (b :: String) :: Pat pattern PBangPat a = H.PBangPat () (a :: Pat) :: Pat -- ** `H.PXAttr` type PXAttr = H.PXAttr () pattern PXAttr a b = H.PXAttr () (a :: XName) (b :: Pat) :: PXAttr -- ** `H.RPatOp` type RPatOp = H.RPatOp () pattern RPStar = H.RPStar () :: RPatOp pattern RPStarG = H.RPStarG () :: RPatOp pattern RPPlus = H.RPPlus () :: RPatOp pattern RPPlusG = H.RPPlusG () :: RPatOp pattern RPOpt = H.RPOpt () :: RPatOp pattern RPOptG = H.RPOptG () :: RPatOp -- ** `H.RPat` type RPat = H.RPat () pattern RPOp a b = H.RPOp () (a :: RPat) (b :: RPatOp) :: RPat pattern RPEither a b = H.RPEither () (a :: RPat) (b :: RPat) :: RPat pattern RPSeq a = H.RPSeq () (a :: [RPat]) :: RPat pattern RPGuard a b = H.RPGuard () (a :: Pat) (b :: [Stmt]) :: RPat pattern RPCAs a b = H.RPCAs () (a :: Name) (b :: RPat) :: RPat pattern RPAs a b = H.RPAs () (a :: Name) (b :: RPat) :: RPat pattern RPParen a = H.RPParen () (a :: RPat) :: RPat pattern RPPat a = H.RPPat () (a :: Pat) :: RPat -- ** `H.PatField` type PatField = H.PatField () pattern PFieldPat a b = H.PFieldPat () (a :: QName) (b :: Pat) :: PatField pattern PFieldPun a = H.PFieldPun () (a :: QName) :: PatField pattern PFieldWildcard = H.PFieldWildcard () :: PatField -- ** `H.Stmt` type Stmt = H.Stmt () pattern Generator a b = H.Generator () (a :: Pat) (b :: Exp) :: Stmt pattern Qualifier a = H.Qualifier () (a :: Exp) :: Stmt pattern LetStmt a = H.LetStmt () (a :: Binds) :: Stmt pattern RecStmt a = H.RecStmt () (a :: [Stmt]) :: Stmt -- ** `H.QualStmt` type QualStmt = H.QualStmt () pattern QualStmt a = H.QualStmt () (a :: Stmt) :: QualStmt pattern ThenTrans a = H.ThenTrans () (a :: Exp) :: QualStmt pattern ThenBy a b = H.ThenBy () (a :: Exp) (b :: Exp) :: QualStmt pattern GroupBy a = H.GroupBy () (a :: Exp) :: QualStmt pattern GroupUsing a = H.GroupUsing () (a :: Exp) :: QualStmt pattern GroupByUsing a b = H.GroupByUsing () (a :: Exp) (b :: Exp) :: QualStmt -- ** `H.FieldUpdate` type FieldUpdate = H.FieldUpdate () pattern FieldUpdate a b = H.FieldUpdate () (a :: QName) (b :: Exp) :: FieldUpdate pattern FieldPun a = H.FieldPun () (a :: QName) :: FieldUpdate pattern FieldWildcard = H.FieldWildcard () :: FieldUpdate -- ** `H.Alt` type Alt = H.Alt () pattern Alt a b c = H.Alt () (a :: Pat) (b :: Rhs) (c :: (Maybe Binds)) :: Alt -- * Functions prelude_mod, main_mod :: ModuleName prelude_mod = H.prelude_mod () main_mod = H.main_mod () main_name :: Name main_name = H.main_name () unit_con_name :: QName unit_con_name = H.unit_con_name () tuple_con_name :: Boxed -> Int -> QName tuple_con_name = H.tuple_con_name () list_cons_name :: QName list_cons_name = H.list_cons_name () unboxed_singleton_con_name :: QName unboxed_singleton_con_name = H.unboxed_singleton_con_name () unit_con :: Exp unit_con = H.unit_con () tuple_con :: Boxed -> Int -> Exp tuple_con = H.tuple_con () unboxed_singleton_con :: Exp unboxed_singleton_con = H.unboxed_singleton_con () as_name, qualified_name, hiding_name, minus_name, bang_name, dot_name, star_name :: Name as_name = H.as_name () qualified_name = H.qualified_name () hiding_name = H.hiding_name () minus_name = H.minus_name () bang_name = H.bang_name () dot_name = H.dot_name () star_name = H.star_name () hole_name :: QName hole_name = H.hole_name () export_name, safe_name, unsafe_name, interruptible_name, threadsafe_name, stdcall_name, ccall_name, cplusplus_name, dotnet_name, jvm_name, js_name, javascript_name, capi_name, forall_name, family_name, role_name, stock_name, anyclass_name :: Name export_name = H.export_name () safe_name = H.safe_name () unsafe_name = H.unsafe_name () interruptible_name = H.interruptible_name () threadsafe_name = H.threadsafe_name () stdcall_name = H.stdcall_name () ccall_name = H.ccall_name () cplusplus_name = H.cplusplus_name () dotnet_name = H.dotnet_name () jvm_name = H.jvm_name () js_name = H.js_name () javascript_name = H.javascript_name () capi_name = H.capi_name () forall_name = H.forall_name () family_name = H.family_name () role_name = H.role_name () stock_name = H.stock_name () anyclass_name = H.anyclass_name () unit_tycon_name, fun_tycon_name, list_tycon_name, unboxed_singleton_tycon_name :: QName unit_tycon_name = H.unit_tycon_name () fun_tycon_name = H.fun_tycon_name () list_tycon_name = H.list_tycon_name () unboxed_singleton_tycon_name = H.unboxed_singleton_tycon_name () tuple_tycon_name :: Boxed -> Int -> QName tuple_tycon_name = H.tuple_tycon_name () unit_tycon, fun_tycon, list_tycon, unboxed_singleton_tycon :: Type unit_tycon = H.unit_tycon () fun_tycon = H.fun_tycon () list_tycon = H.list_tycon () unboxed_singleton_tycon = H.unboxed_singleton_tycon () tuple_tycon :: Boxed -> Int -> Type tuple_tycon = H.tuple_tycon () -- skipped: (=~=) :: (Annotated a, Eq (a ())) => a l1 -> a l2 -> Bool -- skipped: class Annotated ast haskell-src-exts-simple-1.20.0.0/src/Language/Haskell/Exts/Simple/Fixity.hs0000644000000000000000000000314413220512773024463 0ustar0000000000000000-- | -- This module partially reexports "Language.Haskell.Exts.Fixity", adapting `applyFixityies`. module Language.Haskell.Exts.Simple.Fixity ( module Language.Haskell.Exts.Simple.Fixity, module Language.Haskell.Exts.Fixity ) where import qualified Language.Haskell.Exts.Fixity as H import Language.Haskell.Exts.Fixity ( Fixity(..), infix_, infixl_, infixr_, preludeFixities, baseFixities, AppFixity, ) import Language.Haskell.Exts.Simple.Syntax import Language.Haskell.Exts.SrcLoc import Control.Monad -- * Functions applyFixities :: (AppFixity ast, Functor ast, Monad m) => [Fixity] -> ast () -> m (ast ()) applyFixities fixs = liftM (fmap (const ())) . H.applyFixities fixs . fmap (const noSrcSpan) -- omitted fixity functionality, new in haskell-source-exts-1.20: -- assocNone, assocLeft, assocRight :: Assoc () -- -- askFixity :: [Fixity] -> QOp l -> (Assoc (), Int) -- -- askFixityP :: [Fixity] -> QName l -> (Assoc (), Int) -- -- askFix :: [Fixity] -> QName l -> (Assoc (), Int) -- -- prefixMinusFixity :: (Assoc (), Int) -- -- fixity :: Assoc () -> Int -> [String] -> [Fixity] -- -- appFixDecls :: Monad m => -- Maybe (ModuleName SrcSpanInfo) -> -- [Fixity] -> [Decl SrcSpanInfo] -> m [Decl SrcSpanInfo] -- -- getFixities :: Maybe (ModuleName l) -> [Decl l] -> [Fixity] -- -- getFixity :: Maybe (ModuleName l) -> Decl l -> [Fixity] -- -- scrub :: Functor f => f a -> f () -- -- getBindFixities :: Binds l -> [Fixity] -- -- leafFix :: Monad m => -- [Fixity] -> Exp SrcSpanInfo -> m (Exp SrcSpanInfo) -- -- leafFixP :: Monad m => -- [Fixity] -> Pat SrcSpanInfo -> m (Pat SrcSpanInfo) haskell-src-exts-simple-1.20.0.0/src/Language/Haskell/Exts/Simple/Extension.hs0000644000000000000000000000031513220512773025160 0ustar0000000000000000-- | -- This module reexports "Language.Haskell.Exts.Extension". module Language.Haskell.Exts.Simple.Extension ( module Language.Haskell.Exts.Extension ) where import Language.Haskell.Exts.Extension haskell-src-exts-simple-1.20.0.0/src/Language/Haskell/Exts/Simple/Pretty.hs0000644000000000000000000000030113220512773024466 0ustar0000000000000000-- | -- This module reexports "Language.Haskell.Exts.Pretty". module Language.Haskell.Exts.Simple.Pretty ( module Language.Haskell.Exts.Pretty ) where import Language.Haskell.Exts.Pretty