-- Hoogle documentation, generated by Haddock
-- See Hoogle, http://www.haskell.org/hoogle/


-- | Haskell AST for efficient tooling
--   
--   A representation of a Haskell Syntax tree that contain source-related
--   and semantic annotations. These annotations help developer tools to
--   work with the defined program. The source information enables
--   refactoring and program transformation tools to change the source code
--   without losing the original format (layout, comments) of the source.
--   Semantic information helps analyzing the program. The representation
--   is different from the GHC's syntax tree. It contains information from
--   all representations in GHC (different version of syntax trees, lexical
--   and module-level information). The module is split up to put the
--   representation of different language elements into different modules.
--   Additionally, it contains the representation of semantic and source
--   annotations, helper functions and generated instances for the
--   representation of language elements. Because langauge elements may
--   refer each other (there can be a pattern inside an expression in case
--   of a pattern match and an expression inside a pattern if view patterns
--   are enabled), we use hs-boot files to break up dependency cycles.
@package haskell-tools-ast
@version 1.1.0.1

module Language.Haskell.Tools.AST.SemaInfoTypes

-- | Semantic info type for any node not carrying additional semantic
--   information
data NoSemanticInfo

-- | Info for expressions that tells which definitions are in scope
data ScopeInfo

-- | Info corresponding to a name
data NameInfo n

-- | Info corresponding to a name that is correctly identified
data CNameInfo

-- | Info for the module element
data ModuleInfo n

-- | Info corresponding to an import declaration
data ImportInfo n

-- | Info corresponding to a record-wildcard
data ImplicitFieldInfo
type Scope = [[(Name, Maybe [UsageSpec], Maybe Name)]]
data UsageSpec
UsageSpec :: Bool -> String -> String -> UsageSpec
[usageQualified] :: UsageSpec -> Bool
[usageQualifier] :: UsageSpec -> String
[usageAs] :: UsageSpec -> String
data LiteralInfo
LiteralInfo :: Type -> LiteralInfo
[_literalType] :: LiteralInfo -> Type
data PreLiteralInfo
RealLiteralInfo :: Type -> PreLiteralInfo
[_realLiteralType] :: PreLiteralInfo -> Type
PreLiteralInfo :: SrcSpan -> PreLiteralInfo
[_preLiteralLoc] :: PreLiteralInfo -> SrcSpan
exprScopedLocals :: Lens ScopeInfo ScopeInfo Scope Scope
nameScopedLocals :: forall n_amLv. Lens (NameInfo n_amLv) (NameInfo n_amLv) Scope Scope
nameIsDefined :: forall n_amLv. Lens (NameInfo n_amLv) (NameInfo n_amLv) Bool Bool
nameInfo :: forall n_amLv n'_auwE. Partial (NameInfo n_amLv) (NameInfo n'_auwE) (IdP n_amLv) (IdP n'_auwE)
ambiguousName :: forall n_amLv. Partial (NameInfo n_amLv) (NameInfo n_amLv) RdrName RdrName
nameLocation :: forall n_amLv. Partial (NameInfo n_amLv) (NameInfo n_amLv) SrcSpan SrcSpan
implicitName :: forall n_amLv. Partial (NameInfo n_amLv) (NameInfo n_amLv) String String
cnameScopedLocals :: Lens CNameInfo CNameInfo Scope Scope
cnameIsDefined :: Lens CNameInfo CNameInfo Bool Bool
cnameInfo :: Lens CNameInfo CNameInfo Id Id
cnameFixity :: Lens CNameInfo CNameInfo (Maybe Fixity) (Maybe Fixity)
defModuleName :: forall n_amLt. Lens (ModuleInfo n_amLt) (ModuleInfo n_amLt) Module Module
defDynFlags :: forall n_amLt. Lens (ModuleInfo n_amLt) (ModuleInfo n_amLt) DynFlags DynFlags
defIsBootModule :: forall n_amLt. Lens (ModuleInfo n_amLt) (ModuleInfo n_amLt) Bool Bool
implicitNames :: forall n_amLt n'_auZt. Lens (ModuleInfo n_amLt) (ModuleInfo n'_auZt) [PName n_amLt] [PName n'_auZt]
importedModule :: forall n_amLs. Lens (ImportInfo n_amLs) (ImportInfo n_amLs) Module Module
availableNames :: forall n_amLs. Lens (ImportInfo n_amLs) (ImportInfo n_amLs) [IdP n_amLs] [IdP n_amLs]
importedNames :: forall n_amLs. Lens (ImportInfo n_amLs) (ImportInfo n_amLs) [PName n_amLs] [PName n_amLs]
implicitFieldBindings :: Lens ImplicitFieldInfo ImplicitFieldInfo [(Name, Name)] [(Name, Name)]
prelTransMods :: forall n_amLt. Lens (ModuleInfo n_amLt) (ModuleInfo n_amLt) [Module] [Module]
importTransMods :: forall n_amLs. Lens (ImportInfo n_amLs) (ImportInfo n_amLs) [Module] [Module]
literalType :: Lens LiteralInfo LiteralInfo Type Type
mkNoSemanticInfo :: NoSemanticInfo

-- | Creates the information about the definitions in scope
mkScopeInfo :: Scope -> ScopeInfo

-- | Creates semantic information for an unambiguous name
mkNameInfo :: Scope -> Bool -> IdP n -> NameInfo n

-- | Creates semantic information for a name that is ambiguous because the
--   lack of type info
mkAmbiguousNameInfo :: Scope -> Bool -> RdrName -> SrcSpan -> NameInfo n

-- | Creates semantic information for an implicit name
mkImplicitNameInfo :: Scope -> Bool -> String -> SrcSpan -> NameInfo n

-- | Create a typed name semantic information
mkCNameInfo :: Scope -> Bool -> Id -> Maybe Fixity -> CNameInfo

-- | Creates semantic information for the module element. Strict in the
--   list of implicitely imported, orphan and family instances.
mkModuleInfo :: Module -> DynFlags -> Bool -> [PName n] -> [Module] -> ModuleInfo n

-- | Creates semantic information for an import declaration Strict in the
--   list of the used and imported declarations, orphan and family
--   instances.
mkImportInfo :: Module -> [IdP n] -> [PName n] -> [Module] -> ImportInfo n

-- | Creates semantic information for a wildcard field binding
mkImplicitFieldInfo :: [(Name, Name)] -> ImplicitFieldInfo
data PName n
PName :: IdP n -> Maybe (IdP n) -> PName n
[_pName] :: PName n -> IdP n
[_pNameParent] :: PName n -> Maybe (IdP n)
pName :: forall n_amLu. Lens (PName n_amLu) (PName n_amLu) (IdP n_amLu) (IdP n_amLu)
pNameParent :: forall n_amLu. Lens (PName n_amLu) (PName n_amLu) (Maybe (IdP n_amLu)) (Maybe (IdP n_amLu))
trfPNames :: (IdP n -> IdP n') -> PName n -> PName n'
trfPNamesM :: Monad m => (IdP n -> m (IdP n')) -> PName n -> m (PName n')
trfImportInfo :: (IdP n -> IdP n') -> ImportInfo n -> ImportInfo n'
trfImportInfoM :: Monad m => (IdP n -> m (IdP n')) -> ImportInfo n -> m (ImportInfo n')
trfModuleInfoM :: Monad m => (IdP n -> m (IdP n')) -> ModuleInfo n -> m (ModuleInfo n')

-- | Gets the class and family instances from a module.
getInstances :: GhcMonad m => [Module] -> m ([ClsInst], [FamInst])
instance Data.Data.Data Language.Haskell.Tools.AST.SemaInfoTypes.ImplicitFieldInfo
instance Data.Data.Data Language.Haskell.Tools.AST.SemaInfoTypes.CNameInfo
instance Data.Data.Data Language.Haskell.Tools.AST.SemaInfoTypes.LiteralInfo
instance Data.Data.Data Language.Haskell.Tools.AST.SemaInfoTypes.PreLiteralInfo
instance Data.Data.Data Language.Haskell.Tools.AST.SemaInfoTypes.ScopeInfo
instance Data.Data.Data Language.Haskell.Tools.AST.SemaInfoTypes.NoSemanticInfo
instance Data.Data.Data Language.Haskell.Tools.AST.SemaInfoTypes.UsageSpec
instance (Data.Data.Data n, Data.Typeable.Internal.Typeable n, Data.Data.Data (HsExtension.IdP n)) => Data.Data.Data (Language.Haskell.Tools.AST.SemaInfoTypes.NameInfo n)
instance (Data.Data.Data n, Data.Typeable.Internal.Typeable n, Data.Data.Data (HsExtension.IdP n)) => Data.Data.Data (Language.Haskell.Tools.AST.SemaInfoTypes.PName n)
instance (Data.Data.Data n, Data.Typeable.Internal.Typeable n, Data.Data.Data (HsExtension.IdP n)) => Data.Data.Data (Language.Haskell.Tools.AST.SemaInfoTypes.ModuleInfo n)
instance (Data.Data.Data n, Data.Typeable.Internal.Typeable n, Data.Data.Data (HsExtension.IdP n)) => Data.Data.Data (Language.Haskell.Tools.AST.SemaInfoTypes.ImportInfo n)
instance Data.Data.Data FamInstEnv.FamInst
instance Data.Data.Data FamInstEnv.FamFlavor
instance Data.Data.Data DynFlags.DynFlags


-- | Parts of AST representation for keeping extra data
module Language.Haskell.Tools.AST.Ann

-- | A stage in which the nodes are marked with the ranges in the source
--   files which contain the source code of the given AST element.
data RangeStage

-- | A stage in which the nodes are still marked with ranges, but these
--   ranges are normalized. Optional and list elements also have ranges in
--   that state.
data NormRangeStage

-- | A stage in which AST elements are marked with templates. These
--   templates are hierarchical, and contain the places of the children
--   elements of the node.
data RngTemplateStage

-- | A stage where the annotation controls how the original source code can
--   be retrieved from the AST. A source template is assigned to each node.
--   It has holes where the content of an other node should be printed and
--   ranges for the source code of the node.
data SrcTemplateStage

-- | With this domain, semantic information can be parameterized. In
--   practice it is only used if the compilation cannot proceed past the
--   type checking phase.
data Dom name
data IdDom
type SemanticInfo (domain :: *) (node :: * -> * -> *) = SemanticInfo' domain (SemaInfoClassify node)
data SemaInfoNameCls
data SemaInfoLitCls
data SemaInfoExprCls
data SemaInfoImportCls
data SemaInfoModuleCls
data SemaInfoDefaultCls
data SemaInfoWildcardCls

-- | A semantic domain for the AST. The semantic domain maps semantic
--   information for the different types of nodes in the AST. The kind of
--   semantic domain for an AST depends on which stages of the compilation
--   it passed. However after transforming the GHC representation to our
--   AST, the domain stays the same. The domain is not applied to the AST
--   elements that are generated while refactoring.
type Domain d = (Typeable d, Data d, SemanticInfo' d SemaInfoDefaultCls ~ NoSemanticInfo, Data (SemanticInfo' d SemaInfoNameCls), Data (SemanticInfo' d SemaInfoLitCls), Data (SemanticInfo' d SemaInfoExprCls), Data (SemanticInfo' d SemaInfoImportCls), Data (SemanticInfo' d SemaInfoModuleCls), Data (SemanticInfo' d SemaInfoWildcardCls))
type DomainWith e d = (Data (SemanticInfo' d (SemaInfoClassify e)), Domain d)

-- | Extracts or modifies the concrete range corresponding to a given
--   source info. In case of lists and optional elements, it may not
--   contain the elements inside.
class HasRange a
getRange :: HasRange a => a -> SrcSpan
setRange :: HasRange a => SrcSpan -> a -> a

-- | Class for source information stages
class (Typeable stage, Data stage, Data (SpanInfo stage), Data (ListInfo stage), Data (OptionalInfo stage), HasRange (SpanInfo stage), HasRange (ListInfo stage), HasRange (OptionalInfo stage)) => SourceInfo stage where {
    data family SpanInfo stage :: *;
    data family ListInfo stage :: *;
    data family OptionalInfo stage :: *;
}

-- | A short form of showing a range, without file name, for debugging
--   purposes.
shortShowSpan :: SrcSpan -> String
shortShowSpanWithFile :: SrcSpan -> String

-- | A short form of showing a range, without file name, for debugging
--   purposes.
shortShowLoc :: SrcLoc -> String

-- | A class for marking a source information stage. All programs,
--   regardless of correct Haskell programs or not, must go through these
--   stages to be refactored.
class SourceInfo stage => RangeInfo stage
nodeSpan :: RangeInfo stage => Simple Lens (SpanInfo stage) SrcSpan
listPos :: RangeInfo stage => Simple Lens (ListInfo stage) SrcLoc
optionalPos :: RangeInfo stage => Simple Lens (OptionalInfo stage) SrcLoc

-- | Semantic and source code related information for an AST node.
data NodeInfo sema src
NodeInfo :: sema -> src -> NodeInfo sema src
[_semanticInfo] :: NodeInfo sema src -> sema
[_sourceInfo] :: NodeInfo sema src -> src
sourceInfo :: forall sema_aDXk src_aDXl src'_aGmK. Lens (NodeInfo sema_aDXk src_aDXl) (NodeInfo sema_aDXk src'_aGmK) src_aDXl src'_aGmK
semanticInfo :: forall sema_aDXk src_aDXl sema'_aGmH. Lens (NodeInfo sema_aDXk src_aDXl) (NodeInfo sema'_aGmH src_aDXl) sema_aDXk sema'_aGmH

-- | An element of the AST keeping extra information.
data Ann elem dom stage
Ann :: NodeInfo (SemanticInfo dom elem) (SpanInfo stage) -> elem dom stage -> Ann elem dom stage

-- | The extra information for the AST part
[_annotation] :: Ann elem dom stage -> NodeInfo (SemanticInfo dom elem) (SpanInfo stage)

-- | The original AST part
[_element] :: Ann elem dom stage -> elem dom stage
element :: forall elem_aGmT dom_aGmU stage_aGmV. Lens (Ann elem_aGmT dom_aGmU stage_aGmV) (Ann elem_aGmT dom_aGmU stage_aGmV) (elem_aGmT dom_aGmU stage_aGmV) (elem_aGmT dom_aGmU stage_aGmV)
annotation :: forall elem_aGmT dom_aGmU stage_aGmV. Lens (Ann elem_aGmT dom_aGmU stage_aGmV) (Ann elem_aGmT dom_aGmU stage_aGmV) (NodeInfo (SemanticInfo dom_aGmU elem_aGmT) (SpanInfo stage_aGmV)) (NodeInfo (SemanticInfo dom_aGmU elem_aGmT) (SpanInfo stage_aGmV))

-- | A list of AST elements
data AnnListG elem dom stage
AnnListG :: NodeInfo (SemanticInfo dom (AnnListG elem)) (ListInfo stage) -> [Ann elem dom stage] -> AnnListG elem dom stage
[_annListAnnot] :: AnnListG elem dom stage -> NodeInfo (SemanticInfo dom (AnnListG elem)) (ListInfo stage)
[_annListElems] :: AnnListG elem dom stage -> [Ann elem dom stage]
annListElems :: forall elem_aGqz dom_aGqA stage_aGqB. Lens (AnnListG elem_aGqz dom_aGqA stage_aGqB) (AnnListG elem_aGqz dom_aGqA stage_aGqB) [Ann elem_aGqz dom_aGqA stage_aGqB] [Ann elem_aGqz dom_aGqA stage_aGqB]
annListAnnot :: forall elem_aGqz dom_aGqA stage_aGqB. Lens (AnnListG elem_aGqz dom_aGqA stage_aGqB) (AnnListG elem_aGqz dom_aGqA stage_aGqB) (NodeInfo (SemanticInfo dom_aGqA (AnnListG elem_aGqz)) (ListInfo stage_aGqB)) (NodeInfo (SemanticInfo dom_aGqA (AnnListG elem_aGqz)) (ListInfo stage_aGqB))
annList :: Traversal (AnnListG e d s) (AnnListG e d s) (Ann e d s) (Ann e d s)

-- | An optional AST element
data AnnMaybeG elem dom stage
AnnMaybeG :: NodeInfo (SemanticInfo dom (AnnMaybeG elem)) (OptionalInfo stage) -> Maybe (Ann elem dom stage) -> AnnMaybeG elem dom stage
[_annMaybeAnnot] :: AnnMaybeG elem dom stage -> NodeInfo (SemanticInfo dom (AnnMaybeG elem)) (OptionalInfo stage)
[_annMaybe] :: AnnMaybeG elem dom stage -> Maybe (Ann elem dom stage)
annMaybeAnnot :: forall elem_aGts dom_aGtt stage_aGtu. Lens (AnnMaybeG elem_aGts dom_aGtt stage_aGtu) (AnnMaybeG elem_aGts dom_aGtt stage_aGtu) (NodeInfo (SemanticInfo dom_aGtt (AnnMaybeG elem_aGts)) (OptionalInfo stage_aGtu)) (NodeInfo (SemanticInfo dom_aGtt (AnnMaybeG elem_aGts)) (OptionalInfo stage_aGtu))
annMaybe :: forall elem_aGts dom_aGtt stage_aGtu. Lens (AnnMaybeG elem_aGts dom_aGtt stage_aGtu) (AnnMaybeG elem_aGts dom_aGtt stage_aGtu) (Maybe (Ann elem_aGts dom_aGtt stage_aGtu)) (Maybe (Ann elem_aGts dom_aGtt stage_aGtu))
class HasSourceInfo e where {
    type family SourceInfoType e :: *;
}
srcInfo :: HasSourceInfo e => Simple Lens e (SourceInfoType e)
annJust :: Partial (AnnMaybeG e d s) (AnnMaybeG e d s) (Ann e d s) (Ann e d s)

-- | An empty list of AST elements
annNil :: NodeInfo (SemanticInfo d (AnnListG e)) (ListInfo s) -> AnnListG e d s
isAnnNothing :: AnnMaybeG e d s -> Bool
isAnnJust :: AnnMaybeG e d s -> Bool
annLength :: AnnListG e d s -> Int

-- | A non-existing AST part
annNothing :: NodeInfo (SemanticInfo d (AnnMaybeG e)) (OptionalInfo s) -> AnnMaybeG e d s

-- | A class for changing semantic information throught the AST.
class ApplySemaChange cls
appSemaChange :: ApplySemaChange cls => SemaTrf f dom1 dom2 -> SemanticInfo' dom1 cls -> f (SemanticInfo' dom2 cls)

-- | A class for traversing semantic information in an AST
class ApplySemaChange (SemaInfoClassify a) => SemanticTraversal a
semaTraverse :: (SemanticTraversal a, Monad f) => SemaTrf f dom1 dom2 -> a dom1 st -> f (a dom2 st)

-- | A transformation on the possible semantic informations for a given
--   domain
data SemaTrf f dom1 dom2
SemaTrf :: SemanticInfo' dom1 SemaInfoNameCls -> f (SemanticInfo' dom2 SemaInfoNameCls) -> SemanticInfo' dom1 SemaInfoExprCls -> f (SemanticInfo' dom2 SemaInfoExprCls) -> SemanticInfo' dom1 SemaInfoLitCls -> f (SemanticInfo' dom2 SemaInfoLitCls) -> SemanticInfo' dom1 SemaInfoImportCls -> f (SemanticInfo' dom2 SemaInfoImportCls) -> SemanticInfo' dom1 SemaInfoModuleCls -> f (SemanticInfo' dom2 SemaInfoModuleCls) -> SemanticInfo' dom1 SemaInfoWildcardCls -> f (SemanticInfo' dom2 SemaInfoWildcardCls) -> SemanticInfo' dom1 SemaInfoDefaultCls -> f (SemanticInfo' dom2 SemaInfoDefaultCls) -> SemaTrf f dom1 dom2
[trfSemaNameCls] :: SemaTrf f dom1 dom2 -> SemanticInfo' dom1 SemaInfoNameCls -> f (SemanticInfo' dom2 SemaInfoNameCls)
[trfSemaExprCls] :: SemaTrf f dom1 dom2 -> SemanticInfo' dom1 SemaInfoExprCls -> f (SemanticInfo' dom2 SemaInfoExprCls)
[trfSemaLitCls] :: SemaTrf f dom1 dom2 -> SemanticInfo' dom1 SemaInfoLitCls -> f (SemanticInfo' dom2 SemaInfoLitCls)
[trfSemaImportCls] :: SemaTrf f dom1 dom2 -> SemanticInfo' dom1 SemaInfoImportCls -> f (SemanticInfo' dom2 SemaInfoImportCls)
[trfSemaModuleCls] :: SemaTrf f dom1 dom2 -> SemanticInfo' dom1 SemaInfoModuleCls -> f (SemanticInfo' dom2 SemaInfoModuleCls)
[trfSemaWildcardCls] :: SemaTrf f dom1 dom2 -> SemanticInfo' dom1 SemaInfoWildcardCls -> f (SemanticInfo' dom2 SemaInfoWildcardCls)
[trfSemaDefault] :: SemaTrf f dom1 dom2 -> SemanticInfo' dom1 SemaInfoDefaultCls -> f (SemanticInfo' dom2 SemaInfoDefaultCls)

-- | A class for traversing source information in an AST
class SourceInfoTraversal a
sourceInfoTraverseUp :: (SourceInfoTraversal a, Monad f) => SourceInfoTrf f st1 st2 -> f () -> f () -> a dom st1 -> f (a dom st2)
sourceInfoTraverseDown :: (SourceInfoTraversal a, Monad f) => SourceInfoTrf f st1 st2 -> f () -> f () -> a dom st1 -> f (a dom st2)
sourceInfoTraverse :: (SourceInfoTraversal a, Monad f) => SourceInfoTrf f st1 st2 -> a dom st1 -> f (a dom st2)

-- | A transformation on the possible source informations
data SourceInfoTrf f st1 st2
SourceInfoTrf :: SpanInfo st1 -> f (SpanInfo st2) -> ListInfo st1 -> f (ListInfo st2) -> OptionalInfo st1 -> f (OptionalInfo st2) -> SourceInfoTrf f st1 st2
[trfSpanInfo] :: SourceInfoTrf f st1 st2 -> SpanInfo st1 -> f (SpanInfo st2)
[trfListInfo] :: SourceInfoTrf f st1 st2 -> ListInfo st1 -> f (ListInfo st2)
[trfOptionalInfo] :: SourceInfoTrf f st1 st2 -> OptionalInfo st1 -> f (OptionalInfo st2)
instance Language.Haskell.Tools.AST.Ann.SourceInfoTraversal e => Language.Haskell.Tools.AST.Ann.SourceInfoTraversal (Language.Haskell.Tools.AST.Ann.Ann e)
instance Language.Haskell.Tools.AST.Ann.SourceInfoTraversal e => Language.Haskell.Tools.AST.Ann.SourceInfoTraversal (Language.Haskell.Tools.AST.Ann.AnnListG e)
instance Language.Haskell.Tools.AST.Ann.SourceInfoTraversal e => Language.Haskell.Tools.AST.Ann.SourceInfoTraversal (Language.Haskell.Tools.AST.Ann.AnnMaybeG e)
instance (Language.Haskell.Tools.AST.Ann.ApplySemaChange (Language.Haskell.Tools.AST.Ann.SemaInfoClassify e), Language.Haskell.Tools.AST.Ann.SemanticTraversal e) => Language.Haskell.Tools.AST.Ann.SemanticTraversal (Language.Haskell.Tools.AST.Ann.Ann e)
instance (Language.Haskell.Tools.AST.Ann.ApplySemaChange (Language.Haskell.Tools.AST.Ann.SemaInfoClassify e), Language.Haskell.Tools.AST.Ann.SemanticTraversal e) => Language.Haskell.Tools.AST.Ann.SemanticTraversal (Language.Haskell.Tools.AST.Ann.AnnListG e)
instance (Language.Haskell.Tools.AST.Ann.ApplySemaChange (Language.Haskell.Tools.AST.Ann.SemaInfoClassify e), Language.Haskell.Tools.AST.Ann.SemanticTraversal e) => Language.Haskell.Tools.AST.Ann.SemanticTraversal (Language.Haskell.Tools.AST.Ann.AnnMaybeG e)
instance Language.Haskell.Tools.AST.Ann.ApplySemaChange Language.Haskell.Tools.AST.Ann.SemaInfoNameCls
instance Language.Haskell.Tools.AST.Ann.ApplySemaChange Language.Haskell.Tools.AST.Ann.SemaInfoLitCls
instance Language.Haskell.Tools.AST.Ann.ApplySemaChange Language.Haskell.Tools.AST.Ann.SemaInfoExprCls
instance Language.Haskell.Tools.AST.Ann.ApplySemaChange Language.Haskell.Tools.AST.Ann.SemaInfoImportCls
instance Language.Haskell.Tools.AST.Ann.ApplySemaChange Language.Haskell.Tools.AST.Ann.SemaInfoModuleCls
instance Language.Haskell.Tools.AST.Ann.ApplySemaChange Language.Haskell.Tools.AST.Ann.SemaInfoWildcardCls
instance Language.Haskell.Tools.AST.Ann.ApplySemaChange Language.Haskell.Tools.AST.Ann.SemaInfoDefaultCls
instance Language.Haskell.Tools.AST.Ann.HasSourceInfo (Language.Haskell.Tools.AST.Ann.Ann elem dom stage)
instance Language.Haskell.Tools.AST.Ann.HasSourceInfo (Language.Haskell.Tools.AST.Ann.AnnListG elem dom stage)
instance Language.Haskell.Tools.AST.Ann.HasSourceInfo (Language.Haskell.Tools.AST.Ann.AnnMaybeG elem dom stage)
instance Language.Haskell.Tools.AST.Ann.HasRange (Language.Haskell.Tools.AST.Ann.SpanInfo Language.Haskell.Tools.AST.Ann.RangeStage)
instance Language.Haskell.Tools.AST.Ann.HasRange (Language.Haskell.Tools.AST.Ann.ListInfo Language.Haskell.Tools.AST.Ann.RangeStage)
instance Language.Haskell.Tools.AST.Ann.HasRange (Language.Haskell.Tools.AST.Ann.OptionalInfo Language.Haskell.Tools.AST.Ann.RangeStage)
instance Language.Haskell.Tools.AST.Ann.HasRange (Language.Haskell.Tools.AST.Ann.SpanInfo Language.Haskell.Tools.AST.Ann.NormRangeStage)
instance Language.Haskell.Tools.AST.Ann.HasRange (Language.Haskell.Tools.AST.Ann.ListInfo Language.Haskell.Tools.AST.Ann.NormRangeStage)
instance Language.Haskell.Tools.AST.Ann.HasRange (Language.Haskell.Tools.AST.Ann.OptionalInfo Language.Haskell.Tools.AST.Ann.NormRangeStage)
instance Language.Haskell.Tools.AST.Ann.SourceInfo stage => Language.Haskell.Tools.AST.Ann.HasRange (Language.Haskell.Tools.AST.Ann.Ann elem dom stage)
instance Language.Haskell.Tools.AST.Ann.SourceInfo stage => Language.Haskell.Tools.AST.Ann.HasRange (Language.Haskell.Tools.AST.Ann.AnnListG elem dom stage)
instance Language.Haskell.Tools.AST.Ann.SourceInfo stage => Language.Haskell.Tools.AST.Ann.HasRange (Language.Haskell.Tools.AST.Ann.AnnMaybeG elem dom stage)
instance Language.Haskell.Tools.AST.Ann.SourceInfo src => GHC.Classes.Eq (Language.Haskell.Tools.AST.Ann.Ann elem dom src)
instance (Data.Data.Data sema, Data.Data.Data src) => Data.Data.Data (Language.Haskell.Tools.AST.Ann.NodeInfo sema src)
instance (GHC.Show.Show sema, GHC.Show.Show src) => GHC.Show.Show (Language.Haskell.Tools.AST.Ann.NodeInfo sema src)
instance (GHC.Classes.Eq sema, GHC.Classes.Eq src) => GHC.Classes.Eq (Language.Haskell.Tools.AST.Ann.NodeInfo sema src)
instance Data.Data.Data (Language.Haskell.Tools.AST.Ann.OptionalInfo Language.Haskell.Tools.AST.Ann.RangeStage)
instance Data.Data.Data (Language.Haskell.Tools.AST.Ann.ListInfo Language.Haskell.Tools.AST.Ann.RangeStage)
instance Data.Data.Data (Language.Haskell.Tools.AST.Ann.SpanInfo Language.Haskell.Tools.AST.Ann.RangeStage)
instance Data.Data.Data (Language.Haskell.Tools.AST.Ann.OptionalInfo Language.Haskell.Tools.AST.Ann.NormRangeStage)
instance Data.Data.Data (Language.Haskell.Tools.AST.Ann.ListInfo Language.Haskell.Tools.AST.Ann.NormRangeStage)
instance Data.Data.Data (Language.Haskell.Tools.AST.Ann.SpanInfo Language.Haskell.Tools.AST.Ann.NormRangeStage)
instance Data.Data.Data Language.Haskell.Tools.AST.Ann.RangeStage
instance Data.Data.Data Language.Haskell.Tools.AST.Ann.NormRangeStage
instance Data.Data.Data Language.Haskell.Tools.AST.Ann.RngTemplateStage
instance Data.Data.Data Language.Haskell.Tools.AST.Ann.SrcTemplateStage
instance (Data.Data.Data name, Data.Typeable.Internal.Typeable name) => Data.Data.Data (Language.Haskell.Tools.AST.Ann.Dom name)
instance Data.Data.Data Language.Haskell.Tools.AST.Ann.IdDom
instance Language.Haskell.Tools.AST.Ann.RangeInfo Language.Haskell.Tools.AST.Ann.RangeStage
instance Language.Haskell.Tools.AST.Ann.SourceInfo Language.Haskell.Tools.AST.Ann.RangeStage
instance GHC.Show.Show (Language.Haskell.Tools.AST.Ann.SpanInfo Language.Haskell.Tools.AST.Ann.RangeStage)
instance GHC.Show.Show (Language.Haskell.Tools.AST.Ann.ListInfo Language.Haskell.Tools.AST.Ann.RangeStage)
instance GHC.Show.Show (Language.Haskell.Tools.AST.Ann.OptionalInfo Language.Haskell.Tools.AST.Ann.RangeStage)
instance Language.Haskell.Tools.AST.Ann.SourceInfo Language.Haskell.Tools.AST.Ann.NormRangeStage
instance GHC.Show.Show (Language.Haskell.Tools.AST.Ann.SpanInfo Language.Haskell.Tools.AST.Ann.NormRangeStage)
instance GHC.Show.Show (Language.Haskell.Tools.AST.Ann.ListInfo Language.Haskell.Tools.AST.Ann.NormRangeStage)
instance GHC.Show.Show (Language.Haskell.Tools.AST.Ann.OptionalInfo Language.Haskell.Tools.AST.Ann.NormRangeStage)

module Language.Haskell.Tools.AST.SemaInfoClasses
type HasNoSemanticInfo dom si = SemanticInfo dom si ~ NoSemanticInfo
class HasImplicitFieldsInfo' si
semanticsImplicitFlds :: HasImplicitFieldsInfo' si => si -> [(Name, Name)]
type HasImplicitFieldsInfo dom = (Domain dom, HasImplicitFieldsInfo' (SemanticInfo dom UFieldWildcard))
class HasImportInfo' si
semanticsImportedModule :: HasImportInfo' si => si -> Module
semanticsAvailable :: HasImportInfo' si => si -> [Name]
semanticsImported :: HasImportInfo' si => si -> [Name]
semanticsTransMods :: HasImportInfo' si => si -> [Module]
type HasImportInfo dom = (Domain dom, HasImportInfo' (SemanticInfo dom UImportDecl))
class HasModuleInfo' si
semanticsModule :: HasModuleInfo' si => si -> Module
semanticsDynFlags :: HasModuleInfo' si => si -> DynFlags
isBootModule :: HasModuleInfo' si => si -> Bool
semanticsImplicitImports :: HasModuleInfo' si => si -> [Name]
semanticsPrelTransMods :: HasModuleInfo' si => si -> [Module]
type HasModuleInfo dom = (Domain dom, HasModuleInfo' (SemanticInfo dom UModule))
class HasSourceInfoInSema' si
semanticsSourceInfo :: HasSourceInfoInSema' si => si -> Maybe SrcSpan

-- | Infos that store if they were used to define a name
class HasDefiningInfo' si
semanticsDefining :: HasDefiningInfo' si => si -> Bool
type HasDefiningInfo dom = (Domain dom, HasDefiningInfo' (SemanticInfo dom UQualifiedName))

-- | Infos that contain the names that are available in theirs scope
class HasScopeInfo' si
semanticsScope :: HasScopeInfo' si => si -> Scope
type HasScopeInfo dom = (Domain dom, HasScopeInfo' (SemanticInfo dom UQualifiedName), HasScopeInfo' (SemanticInfo dom UExpr))

-- | Infos that may have a fixity information
class HasFixityInfo' si
semanticsFixity :: HasFixityInfo' si => si -> Maybe Fixity
type HasFixityInfo dom = (Domain dom, HasFixityInfo' (SemanticInfo dom UQualifiedName))

-- | Infos that may have a typed name that can be extracted
class HasNameInfo' si => HasIdInfo' si
semanticsId :: HasIdInfo' si => si -> Id
type HasIdInfo dom = (Domain dom, HasIdInfo' (SemanticInfo dom UQualifiedName))

-- | Info of types
class HasLiteralInfo' si
semanticsLiteralType :: HasLiteralInfo' si => si -> Type

-- | Domains that have semantic information for literals
type HasLiteralInfo dom = (Domain dom, HasLiteralInfo' (SemanticInfo dom ULiteral))

-- | Infos that may have a name that can be extracted
class HasNameInfo' si
semanticsName :: HasNameInfo' si => si -> Maybe Name

-- | Domains that have semantic information for names
type HasNameInfo dom = (Domain dom, HasNameInfo' (SemanticInfo dom UQualifiedName))
semanticsLitType :: Ann ULiteral IdDom st -> Type

-- | Gets the class and family instances from a module.
getInstances :: GhcMonad m => [Module] -> m ([ClsInst], [FamInst])
data UsageSpec
UsageSpec :: Bool -> String -> String -> UsageSpec
[usageQualified] :: UsageSpec -> Bool
[usageQualifier] :: UsageSpec -> String
[usageAs] :: UsageSpec -> String
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasImplicitFieldsInfo dom => Language.Haskell.Tools.AST.SemaInfoClasses.HasImplicitFieldsInfo' (Language.Haskell.Tools.AST.Ann.Ann Language.Haskell.Tools.AST.Representation.Exprs.UFieldWildcard dom st)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasImplicitFieldsInfo' Language.Haskell.Tools.AST.SemaInfoTypes.ImplicitFieldInfo
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasImportInfo dom => Language.Haskell.Tools.AST.SemaInfoClasses.HasImportInfo' (Language.Haskell.Tools.AST.Ann.Ann Language.Haskell.Tools.AST.Representation.Modules.UImportDecl dom st)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasImportInfo' (Language.Haskell.Tools.AST.SemaInfoTypes.ImportInfo HsExtension.GhcRn)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasImportInfo' (Language.Haskell.Tools.AST.SemaInfoTypes.ImportInfo HsExtension.GhcTc)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasModuleInfo dom => Language.Haskell.Tools.AST.SemaInfoClasses.HasModuleInfo' (Language.Haskell.Tools.AST.Ann.Ann Language.Haskell.Tools.AST.Representation.Modules.UModule dom st)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasModuleInfo' (Language.Haskell.Tools.AST.SemaInfoTypes.ModuleInfo HsExtension.GhcRn)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasModuleInfo' (Language.Haskell.Tools.AST.SemaInfoTypes.ModuleInfo HsExtension.GhcTc)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasSourceInfoInSema' (Language.Haskell.Tools.AST.SemaInfoTypes.NameInfo n)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasDefiningInfo dom => Language.Haskell.Tools.AST.SemaInfoClasses.HasDefiningInfo' (Language.Haskell.Tools.AST.Ann.Ann Language.Haskell.Tools.AST.Representation.Names.UQualifiedName dom st)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasDefiningInfo' (Language.Haskell.Tools.AST.SemaInfoTypes.NameInfo n)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasDefiningInfo' Language.Haskell.Tools.AST.SemaInfoTypes.CNameInfo
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasScopeInfo dom => Language.Haskell.Tools.AST.SemaInfoClasses.HasScopeInfo' (Language.Haskell.Tools.AST.Ann.Ann Language.Haskell.Tools.AST.Representation.Exprs.UExpr dom st)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasScopeInfo dom => Language.Haskell.Tools.AST.SemaInfoClasses.HasScopeInfo' (Language.Haskell.Tools.AST.Ann.Ann Language.Haskell.Tools.AST.Representation.Names.UQualifiedName dom st)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasScopeInfo' (Language.Haskell.Tools.AST.SemaInfoTypes.NameInfo n)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasScopeInfo' Language.Haskell.Tools.AST.SemaInfoTypes.CNameInfo
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasScopeInfo' Language.Haskell.Tools.AST.SemaInfoTypes.ScopeInfo
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasFixityInfo dom => Language.Haskell.Tools.AST.SemaInfoClasses.HasFixityInfo' (Language.Haskell.Tools.AST.Ann.Ann Language.Haskell.Tools.AST.Representation.Names.UQualifiedName dom st)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasFixityInfo' Language.Haskell.Tools.AST.SemaInfoTypes.CNameInfo
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasIdInfo dom => Language.Haskell.Tools.AST.SemaInfoClasses.HasIdInfo' (Language.Haskell.Tools.AST.Ann.Ann Language.Haskell.Tools.AST.Representation.Names.UQualifiedName dom st)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasIdInfo dom => Language.Haskell.Tools.AST.SemaInfoClasses.HasIdInfo' (Language.Haskell.Tools.AST.Ann.Ann Language.Haskell.Tools.AST.Representation.Names.UName dom st)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasIdInfo' Language.Haskell.Tools.AST.SemaInfoTypes.CNameInfo
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasLiteralInfo dom => Language.Haskell.Tools.AST.SemaInfoClasses.HasLiteralInfo' (Language.Haskell.Tools.AST.Ann.Ann Language.Haskell.Tools.AST.Representation.Literals.ULiteral dom st)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasLiteralInfo' Language.Haskell.Tools.AST.SemaInfoTypes.LiteralInfo
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasNameInfo dom => Language.Haskell.Tools.AST.SemaInfoClasses.HasNameInfo' (Language.Haskell.Tools.AST.Ann.Ann Language.Haskell.Tools.AST.Representation.Names.UQualifiedName dom st)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasNameInfo dom => Language.Haskell.Tools.AST.SemaInfoClasses.HasNameInfo' (Language.Haskell.Tools.AST.Ann.Ann Language.Haskell.Tools.AST.Representation.Names.UName dom st)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasNameInfo' (Language.Haskell.Tools.AST.SemaInfoTypes.NameInfo HsExtension.GhcRn)
instance Language.Haskell.Tools.AST.SemaInfoClasses.HasNameInfo' Language.Haskell.Tools.AST.SemaInfoTypes.CNameInfo


-- | Generated references for AST elements.
module Language.Haskell.Tools.AST.References
modImports :: forall dom_a16Q4 stage_a16Q5. Lens (Ann UModule dom_a16Q4 stage_a16Q5) (Ann UModule dom_a16Q4 stage_a16Q5) (AnnListG UImportDecl dom_a16Q4 stage_a16Q5) (AnnListG UImportDecl dom_a16Q4 stage_a16Q5)
modHead :: forall dom_a16Q4 stage_a16Q5. Lens (Ann UModule dom_a16Q4 stage_a16Q5) (Ann UModule dom_a16Q4 stage_a16Q5) (AnnMaybeG UModuleHead dom_a16Q4 stage_a16Q5) (AnnMaybeG UModuleHead dom_a16Q4 stage_a16Q5)
modDecl :: forall dom_a16Q4 stage_a16Q5. Lens (Ann UModule dom_a16Q4 stage_a16Q5) (Ann UModule dom_a16Q4 stage_a16Q5) (AnnListG UDecl dom_a16Q4 stage_a16Q5) (AnnListG UDecl dom_a16Q4 stage_a16Q5)
filePragmas :: forall dom_a16Q4 stage_a16Q5. Lens (Ann UModule dom_a16Q4 stage_a16Q5) (Ann UModule dom_a16Q4 stage_a16Q5) (AnnListG UFilePragma dom_a16Q4 stage_a16Q5) (AnnListG UFilePragma dom_a16Q4 stage_a16Q5)
mhPragma :: forall dom_a16Q2 stage_a16Q3. Lens (Ann UModuleHead dom_a16Q2 stage_a16Q3) (Ann UModuleHead dom_a16Q2 stage_a16Q3) (AnnMaybeG UModulePragma dom_a16Q2 stage_a16Q3) (AnnMaybeG UModulePragma dom_a16Q2 stage_a16Q3)
mhName :: forall dom_a16Q2 stage_a16Q3. Lens (Ann UModuleHead dom_a16Q2 stage_a16Q3) (Ann UModuleHead dom_a16Q2 stage_a16Q3) (Ann UModuleName dom_a16Q2 stage_a16Q3) (Ann UModuleName dom_a16Q2 stage_a16Q3)
mhExports :: forall dom_a16Q2 stage_a16Q3. Lens (Ann UModuleHead dom_a16Q2 stage_a16Q3) (Ann UModuleHead dom_a16Q2 stage_a16Q3) (AnnMaybeG UExportSpecs dom_a16Q2 stage_a16Q3) (AnnMaybeG UExportSpecs dom_a16Q2 stage_a16Q3)
espExports :: forall dom_a16Q0 stage_a16Q1 dom'_a28fy stage'_a28fz. Lens (Ann UExportSpecs dom_a16Q0 stage_a16Q1) (Ann UExportSpecs dom_a16Q0 stage_a16Q1) (AnnListG UExportSpec dom_a16Q0 stage_a16Q1) (AnnListG UExportSpec dom_a16Q0 stage_a16Q1)
exportModuleName :: forall dom_a16PY stage_a16PZ. Partial (Ann UExportSpec dom_a16PY stage_a16PZ) (Ann UExportSpec dom_a16PY stage_a16PZ) (Ann UModuleName dom_a16PY stage_a16PZ) (Ann UModuleName dom_a16PY stage_a16PZ)
exportDecl :: forall dom_a16PY stage_a16PZ. Partial (Ann UExportSpec dom_a16PY stage_a16PZ) (Ann UExportSpec dom_a16PY stage_a16PZ) (Ann UIESpec dom_a16PY stage_a16PZ) (Ann UIESpec dom_a16PY stage_a16PZ)
ieSubspec :: forall dom_a16PW stage_a16PX. Lens (Ann UIESpec dom_a16PW stage_a16PX) (Ann UIESpec dom_a16PW stage_a16PX) (AnnMaybeG USubSpec dom_a16PW stage_a16PX) (AnnMaybeG USubSpec dom_a16PW stage_a16PX)
ieName :: forall dom_a16PW stage_a16PX. Lens (Ann UIESpec dom_a16PW stage_a16PX) (Ann UIESpec dom_a16PW stage_a16PX) (Ann UName dom_a16PW stage_a16PX) (Ann UName dom_a16PW stage_a16PX)
ieModifier :: forall dom_a16PW stage_a16PX. Lens (Ann UIESpec dom_a16PW stage_a16PX) (Ann UIESpec dom_a16PW stage_a16PX) (AnnMaybeG UImportModifier dom_a16PW stage_a16PX) (AnnMaybeG UImportModifier dom_a16PW stage_a16PX)
essList :: forall dom_a16PS stage_a16PT dom'_a28oT stage'_a28oU. Partial (Ann USubSpec dom_a16PS stage_a16PT) (Ann USubSpec dom_a16PS stage_a16PT) (AnnListG UName dom_a16PS stage_a16PT) (AnnListG UName dom_a16PS stage_a16PT)
modWarningStr :: forall dom_a16PO stage_a16PP. Partial (Ann UModulePragma dom_a16PO stage_a16PP) (Ann UModulePragma dom_a16PO stage_a16PP) (AnnListG UStringNode dom_a16PO stage_a16PP) (AnnListG UStringNode dom_a16PO stage_a16PP)
modDeprecatedPragma :: forall dom_a16PO stage_a16PP. Partial (Ann UModulePragma dom_a16PO stage_a16PP) (Ann UModulePragma dom_a16PO stage_a16PP) (AnnListG UStringNode dom_a16PO stage_a16PP) (AnnListG UStringNode dom_a16PO stage_a16PP)
opStr :: forall dom_a16PQ stage_a16PR. Partial (Ann UFilePragma dom_a16PQ stage_a16PR) (Ann UFilePragma dom_a16PQ stage_a16PR) (Ann UStringNode dom_a16PQ stage_a16PR) (Ann UStringNode dom_a16PQ stage_a16PR)
lpPragmas :: forall dom_a16PQ stage_a16PR. Partial (Ann UFilePragma dom_a16PQ stage_a16PR) (Ann UFilePragma dom_a16PQ stage_a16PR) (AnnListG ULanguageExtension dom_a16PQ stage_a16PR) (AnnListG ULanguageExtension dom_a16PQ stage_a16PR)
importSpec :: forall dom_a16PK stage_a16PL. Lens (Ann UImportDecl dom_a16PK stage_a16PL) (Ann UImportDecl dom_a16PK stage_a16PL) (AnnMaybeG UImportSpec dom_a16PK stage_a16PL) (AnnMaybeG UImportSpec dom_a16PK stage_a16PL)
importSource :: forall dom_a16PK stage_a16PL. Lens (Ann UImportDecl dom_a16PK stage_a16PL) (Ann UImportDecl dom_a16PK stage_a16PL) (AnnMaybeG UImportSource dom_a16PK stage_a16PL) (AnnMaybeG UImportSource dom_a16PK stage_a16PL)
importSafe :: forall dom_a16PK stage_a16PL. Lens (Ann UImportDecl dom_a16PK stage_a16PL) (Ann UImportDecl dom_a16PK stage_a16PL) (AnnMaybeG UImportSafe dom_a16PK stage_a16PL) (AnnMaybeG UImportSafe dom_a16PK stage_a16PL)
importQualified :: forall dom_a16PK stage_a16PL. Lens (Ann UImportDecl dom_a16PK stage_a16PL) (Ann UImportDecl dom_a16PK stage_a16PL) (AnnMaybeG UImportQualified dom_a16PK stage_a16PL) (AnnMaybeG UImportQualified dom_a16PK stage_a16PL)
importPkg :: forall dom_a16PK stage_a16PL. Lens (Ann UImportDecl dom_a16PK stage_a16PL) (Ann UImportDecl dom_a16PK stage_a16PL) (AnnMaybeG UStringNode dom_a16PK stage_a16PL) (AnnMaybeG UStringNode dom_a16PK stage_a16PL)
importModule :: forall dom_a16PK stage_a16PL. Lens (Ann UImportDecl dom_a16PK stage_a16PL) (Ann UImportDecl dom_a16PK stage_a16PL) (Ann UModuleName dom_a16PK stage_a16PL) (Ann UModuleName dom_a16PK stage_a16PL)
importAs :: forall dom_a16PK stage_a16PL. Lens (Ann UImportDecl dom_a16PK stage_a16PL) (Ann UImportDecl dom_a16PK stage_a16PL) (AnnMaybeG UImportRenaming dom_a16PK stage_a16PL) (AnnMaybeG UImportRenaming dom_a16PK stage_a16PL)
importSpecList :: forall dom_a16PI stage_a16PJ. Partial (Ann UImportSpec dom_a16PI stage_a16PJ) (Ann UImportSpec dom_a16PI stage_a16PJ) (AnnListG UIESpec dom_a16PI stage_a16PJ) (AnnListG UIESpec dom_a16PI stage_a16PJ)
importSpecHiding :: forall dom_a16PI stage_a16PJ. Partial (Ann UImportSpec dom_a16PI stage_a16PJ) (Ann UImportSpec dom_a16PI stage_a16PJ) (AnnListG UIESpec dom_a16PI stage_a16PJ) (AnnListG UIESpec dom_a16PI stage_a16PJ)
importRename :: forall dom_a16Py stage_a16Pz dom'_a28Mu stage'_a28Mv. Lens (Ann UImportRenaming dom_a16Py stage_a16Pz) (Ann UImportRenaming dom_a16Py stage_a16Pz) (Ann UModuleName dom_a16Py stage_a16Pz) (Ann UModuleName dom_a16Py stage_a16Pz)
moduleNameString :: forall dom_a16Pw stage_a16Px. Lens (Ann UModuleName dom_a16Pw stage_a16Px) (Ann UModuleName dom_a16Pw stage_a16Px) String String
langExt :: forall dom_a16PM stage_a16PN. Lens (Ann ULanguageExtension dom_a16PM stage_a16PN) (Ann ULanguageExtension dom_a16PM stage_a16PN) String String
declValBind :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UValueBind dom_a10LZ stage_a10M0) (Ann UValueBind dom_a10LZ stage_a10M0)
declTypes :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnListG UType dom_a10LZ stage_a10M0) (AnnListG UType dom_a10LZ stage_a10M0)
declTypeSig :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UTypeSignature dom_a10LZ stage_a10M0) (Ann UTypeSignature dom_a10LZ stage_a10M0)
declTypeFamily :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UTypeFamily dom_a10LZ stage_a10M0) (Ann UTypeFamily dom_a10LZ stage_a10M0)
declType :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UType dom_a10LZ stage_a10M0) (Ann UType dom_a10LZ stage_a10M0)
declSplice :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann USplice dom_a10LZ stage_a10M0) (Ann USplice dom_a10LZ stage_a10M0)
declSpec :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnMaybeG UTypeFamilySpec dom_a10LZ stage_a10M0) (AnnMaybeG UTypeFamilySpec dom_a10LZ stage_a10M0)
declSafety :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnMaybeG USafety dom_a10LZ stage_a10M0) (AnnMaybeG USafety dom_a10LZ stage_a10M0)
declRoles :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnListG URole dom_a10LZ stage_a10M0) (AnnListG URole dom_a10LZ stage_a10M0)
declRoleType :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UQualifiedName dom_a10LZ stage_a10M0) (Ann UQualifiedName dom_a10LZ stage_a10M0)
declPragma :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UTopLevelPragma dom_a10LZ stage_a10M0) (Ann UTopLevelPragma dom_a10LZ stage_a10M0)
declPatTypeSig :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UPatternTypeSignature dom_a10LZ stage_a10M0) (Ann UPatternTypeSignature dom_a10LZ stage_a10M0)
declPatSyn :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UPatternSynonym dom_a10LZ stage_a10M0) (Ann UPatternSynonym dom_a10LZ stage_a10M0)
declOverlap :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnMaybeG UOverlapPragma dom_a10LZ stage_a10M0) (AnnMaybeG UOverlapPragma dom_a10LZ stage_a10M0)
declNewtype :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDataOrNewtypeKeyword dom_a10LZ stage_a10M0) (Ann UDataOrNewtypeKeyword dom_a10LZ stage_a10M0)
declName :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UName dom_a10LZ stage_a10M0) (Ann UName dom_a10LZ stage_a10M0)
declKind :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnMaybeG UKindConstraint dom_a10LZ stage_a10M0) (AnnMaybeG UKindConstraint dom_a10LZ stage_a10M0)
declInstance :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UInstanceRule dom_a10LZ stage_a10M0) (Ann UInstanceRule dom_a10LZ stage_a10M0)
declInstRule :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UInstanceRule dom_a10LZ stage_a10M0) (Ann UInstanceRule dom_a10LZ stage_a10M0)
declInstDecl :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnMaybeG UInstBody dom_a10LZ stage_a10M0) (AnnMaybeG UInstBody dom_a10LZ stage_a10M0)
declHead :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDeclHead dom_a10LZ stage_a10M0) (Ann UDeclHead dom_a10LZ stage_a10M0)
declGadt :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnListG UGadtConDecl dom_a10LZ stage_a10M0) (AnnListG UGadtConDecl dom_a10LZ stage_a10M0)
declFunDeps :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnMaybeG UFunDeps dom_a10LZ stage_a10M0) (AnnMaybeG UFunDeps dom_a10LZ stage_a10M0)
declForeignType :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UType dom_a10LZ stage_a10M0) (Ann UType dom_a10LZ stage_a10M0)
declFixity :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UFixitySignature dom_a10LZ stage_a10M0) (Ann UFixitySignature dom_a10LZ stage_a10M0)
declDeriving :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnListG UDeriving dom_a10LZ stage_a10M0) (AnnListG UDeriving dom_a10LZ stage_a10M0)
declDerivStrat :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnMaybeG UDeriveStrategy dom_a10LZ stage_a10M0) (AnnMaybeG UDeriveStrategy dom_a10LZ stage_a10M0)
declDecl :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnListG UTypeEqn dom_a10LZ stage_a10M0) (AnnListG UTypeEqn dom_a10LZ stage_a10M0)
declCtx :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnMaybeG UContext dom_a10LZ stage_a10M0) (AnnMaybeG UContext dom_a10LZ stage_a10M0)
declCons :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnListG UConDecl dom_a10LZ stage_a10M0) (AnnListG UConDecl dom_a10LZ stage_a10M0)
declCallConv :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UCallConv dom_a10LZ stage_a10M0) (Ann UCallConv dom_a10LZ stage_a10M0)
declBody :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (AnnMaybeG UClassBody dom_a10LZ stage_a10M0) (AnnMaybeG UClassBody dom_a10LZ stage_a10M0)
declAssignedType :: forall dom_a10LZ stage_a10M0. Partial (Ann UDecl dom_a10LZ stage_a10M0) (Ann UDecl dom_a10LZ stage_a10M0) (Ann UType dom_a10LZ stage_a10M0) (Ann UType dom_a10LZ stage_a10M0)
cbElements :: forall dom_a10LV stage_a10LW dom'_a2b5C stage'_a2b5D. Lens (Ann UClassBody dom_a10LV stage_a10LW) (Ann UClassBody dom_a10LV stage_a10LW) (AnnListG UClassElement dom_a10LV stage_a10LW) (AnnListG UClassElement dom_a10LV stage_a10LW)
pragmaFormula :: forall dom_a10LT stage_a10LU. Partial (Ann UClassElement dom_a10LT stage_a10LU) (Ann UClassElement dom_a10LT stage_a10LU) (Ann UMinimalFormula dom_a10LT stage_a10LU) (Ann UMinimalFormula dom_a10LT stage_a10LU)
clsInline :: forall dom_a10LT stage_a10LU. Partial (Ann UClassElement dom_a10LT stage_a10LU) (Ann UClassElement dom_a10LT stage_a10LU) (Ann UInlinePragma dom_a10LT stage_a10LU) (Ann UInlinePragma dom_a10LT stage_a10LU)
clsFixity :: forall dom_a10LT stage_a10LU. Partial (Ann UClassElement dom_a10LT stage_a10LU) (Ann UClassElement dom_a10LT stage_a10LU) (Ann UFixitySignature dom_a10LT stage_a10LU) (Ann UFixitySignature dom_a10LT stage_a10LU)
ceTypeSig :: forall dom_a10LT stage_a10LU. Partial (Ann UClassElement dom_a10LT stage_a10LU) (Ann UClassElement dom_a10LT stage_a10LU) (Ann UTypeSignature dom_a10LT stage_a10LU) (Ann UTypeSignature dom_a10LT stage_a10LU)
ceTypeFam :: forall dom_a10LT stage_a10LU. Partial (Ann UClassElement dom_a10LT stage_a10LU) (Ann UClassElement dom_a10LT stage_a10LU) (Ann UTypeFamily dom_a10LT stage_a10LU) (Ann UTypeFamily dom_a10LT stage_a10LU)
ceType :: forall dom_a10LT stage_a10LU. Partial (Ann UClassElement dom_a10LT stage_a10LU) (Ann UClassElement dom_a10LT stage_a10LU) (Ann UType dom_a10LT stage_a10LU) (Ann UType dom_a10LT stage_a10LU)
ceName :: forall dom_a10LT stage_a10LU. Partial (Ann UClassElement dom_a10LT stage_a10LU) (Ann UClassElement dom_a10LT stage_a10LU) (Ann UName dom_a10LT stage_a10LU) (Ann UName dom_a10LT stage_a10LU)
ceKind :: forall dom_a10LT stage_a10LU. Partial (Ann UClassElement dom_a10LT stage_a10LU) (Ann UClassElement dom_a10LT stage_a10LU) (Ann UType dom_a10LT stage_a10LU) (Ann UType dom_a10LT stage_a10LU)
ceHead :: forall dom_a10LT stage_a10LU. Partial (Ann UClassElement dom_a10LT stage_a10LU) (Ann UClassElement dom_a10LT stage_a10LU) (Ann UDeclHead dom_a10LT stage_a10LU) (Ann UDeclHead dom_a10LT stage_a10LU)
ceBind :: forall dom_a10LT stage_a10LU. Partial (Ann UClassElement dom_a10LT stage_a10LU) (Ann UClassElement dom_a10LT stage_a10LU) (Ann UValueBind dom_a10LT stage_a10LU) (Ann UValueBind dom_a10LT stage_a10LU)
dhRight :: forall dom_a10LX stage_a10LY. Partial (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UTyVar dom_a10LX stage_a10LY) (Ann UTyVar dom_a10LX stage_a10LY)
dhOperator :: forall dom_a10LX stage_a10LY. Partial (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UOperator dom_a10LX stage_a10LY) (Ann UOperator dom_a10LX stage_a10LY)
dhName :: forall dom_a10LX stage_a10LY. Partial (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UName dom_a10LX stage_a10LY) (Ann UName dom_a10LX stage_a10LY)
dhLeft :: forall dom_a10LX stage_a10LY. Partial (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UTyVar dom_a10LX stage_a10LY) (Ann UTyVar dom_a10LX stage_a10LY)
dhBody :: forall dom_a10LX stage_a10LY. Partial (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UDeclHead dom_a10LX stage_a10LY)
dhAppOperand :: forall dom_a10LX stage_a10LY. Partial (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UTyVar dom_a10LX stage_a10LY) (Ann UTyVar dom_a10LX stage_a10LY)
dhAppFun :: forall dom_a10LX stage_a10LY. Partial (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UDeclHead dom_a10LX stage_a10LY) (Ann UDeclHead dom_a10LX stage_a10LY)
instBodyDecls :: forall dom_a10LN stage_a10LO dom'_a2bLR stage'_a2bLS. Lens (Ann UInstBody dom_a10LN stage_a10LO) (Ann UInstBody dom_a10LN stage_a10LO) (AnnListG UInstBodyDecl dom_a10LN stage_a10LO) (AnnListG UInstBodyDecl dom_a10LN stage_a10LO)
specializeInstanceType :: forall dom_a10LL stage_a10LM. Partial (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UType dom_a10LL stage_a10LM) (Ann UType dom_a10LL stage_a10LM)
specializeInstance :: forall dom_a10LL stage_a10LM. Partial (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann USpecializePragma dom_a10LL stage_a10LM) (Ann USpecializePragma dom_a10LL stage_a10LM)
instanceInline :: forall dom_a10LL stage_a10LM. Partial (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInlinePragma dom_a10LL stage_a10LM) (Ann UInlinePragma dom_a10LL stage_a10LM)
instBodyTypeSig :: forall dom_a10LL stage_a10LM. Partial (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UTypeSignature dom_a10LL stage_a10LM) (Ann UTypeSignature dom_a10LL stage_a10LM)
instBodyTypeEqn :: forall dom_a10LL stage_a10LM. Partial (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UTypeEqn dom_a10LL stage_a10LM) (Ann UTypeEqn dom_a10LL stage_a10LM)
instBodyLhsType :: forall dom_a10LL stage_a10LM. Partial (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInstanceRule dom_a10LL stage_a10LM) (Ann UInstanceRule dom_a10LL stage_a10LM)
instBodyGadtCons :: forall dom_a10LL stage_a10LM. Partial (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInstBodyDecl dom_a10LL stage_a10LM) (AnnListG UGadtConDecl dom_a10LL stage_a10LM) (AnnListG UGadtConDecl dom_a10LL stage_a10LM)
instBodyDerivings :: forall dom_a10LL stage_a10LM. Partial (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInstBodyDecl dom_a10LL stage_a10LM) (AnnListG UDeriving dom_a10LL stage_a10LM) (AnnListG UDeriving dom_a10LL stage_a10LM)
instBodyDeclFunbind :: forall dom_a10LL stage_a10LM. Partial (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UValueBind dom_a10LL stage_a10LM) (Ann UValueBind dom_a10LL stage_a10LM)
instBodyDataNew :: forall dom_a10LL stage_a10LM. Partial (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UDataOrNewtypeKeyword dom_a10LL stage_a10LM) (Ann UDataOrNewtypeKeyword dom_a10LL stage_a10LM)
instBodyDataKind :: forall dom_a10LL stage_a10LM. Partial (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInstBodyDecl dom_a10LL stage_a10LM) (AnnMaybeG UKindConstraint dom_a10LL stage_a10LM) (AnnMaybeG UKindConstraint dom_a10LL stage_a10LM)
instBodyDataCons :: forall dom_a10LL stage_a10LM. Partial (Ann UInstBodyDecl dom_a10LL stage_a10LM) (Ann UInstBodyDecl dom_a10LL stage_a10LM) (AnnListG UConDecl dom_a10LL stage_a10LM) (AnnListG UConDecl dom_a10LL stage_a10LM)
tfSpec :: forall dom_a10LH stage_a10LI. Partial (Ann UTypeFamily dom_a10LH stage_a10LI) (Ann UTypeFamily dom_a10LH stage_a10LI) (AnnMaybeG UTypeFamilySpec dom_a10LH stage_a10LI) (AnnMaybeG UTypeFamilySpec dom_a10LH stage_a10LI)
tfKind :: forall dom_a10LH stage_a10LI. Partial (Ann UTypeFamily dom_a10LH stage_a10LI) (Ann UTypeFamily dom_a10LH stage_a10LI) (AnnMaybeG UKindConstraint dom_a10LH stage_a10LI) (AnnMaybeG UKindConstraint dom_a10LH stage_a10LI)
tfHead :: forall dom_a10LH stage_a10LI. Lens (Ann UTypeFamily dom_a10LH stage_a10LI) (Ann UTypeFamily dom_a10LH stage_a10LI) (Ann UDeclHead dom_a10LH stage_a10LI) (Ann UDeclHead dom_a10LH stage_a10LI)
tfTypeVar :: forall dom_a10LF stage_a10LG. Partial (Ann UTypeFamilySpec dom_a10LF stage_a10LG) (Ann UTypeFamilySpec dom_a10LF stage_a10LG) (Ann UTyVar dom_a10LF stage_a10LG) (Ann UTyVar dom_a10LF stage_a10LG)
tfSpecKind :: forall dom_a10LF stage_a10LG. Partial (Ann UTypeFamilySpec dom_a10LF stage_a10LG) (Ann UTypeFamilySpec dom_a10LF stage_a10LG) (Ann UKindConstraint dom_a10LF stage_a10LG) (Ann UKindConstraint dom_a10LF stage_a10LG)
tfInjectivity :: forall dom_a10LF stage_a10LG. Partial (Ann UTypeFamilySpec dom_a10LF stage_a10LG) (Ann UTypeFamilySpec dom_a10LF stage_a10LG) (Ann UInjectivityAnn dom_a10LF stage_a10LG) (Ann UInjectivityAnn dom_a10LF stage_a10LG)
injAnnRes :: forall dom_a10LD stage_a10LE. Lens (Ann UInjectivityAnn dom_a10LD stage_a10LE) (Ann UInjectivityAnn dom_a10LD stage_a10LE) (Ann UTyVar dom_a10LD stage_a10LE) (Ann UTyVar dom_a10LD stage_a10LE)
injAnnDeps :: forall dom_a10LD stage_a10LE. Lens (Ann UInjectivityAnn dom_a10LD stage_a10LE) (Ann UInjectivityAnn dom_a10LD stage_a10LE) (AnnListG UName dom_a10LD stage_a10LE) (AnnListG UName dom_a10LD stage_a10LE)
gadtConTypeCtx :: forall dom_a10Lz stage_a10LA. Lens (Ann UGadtConDecl dom_a10Lz stage_a10LA) (Ann UGadtConDecl dom_a10Lz stage_a10LA) (AnnMaybeG UContext dom_a10Lz stage_a10LA) (AnnMaybeG UContext dom_a10Lz stage_a10LA)
gadtConTypeArgs :: forall dom_a10Lz stage_a10LA. Lens (Ann UGadtConDecl dom_a10Lz stage_a10LA) (Ann UGadtConDecl dom_a10Lz stage_a10LA) (AnnListG UTyVar dom_a10Lz stage_a10LA) (AnnListG UTyVar dom_a10Lz stage_a10LA)
gadtConType :: forall dom_a10Lz stage_a10LA. Lens (Ann UGadtConDecl dom_a10Lz stage_a10LA) (Ann UGadtConDecl dom_a10Lz stage_a10LA) (Ann UGadtConType dom_a10Lz stage_a10LA) (Ann UGadtConType dom_a10Lz stage_a10LA)
gadtConNames :: forall dom_a10Lz stage_a10LA. Lens (Ann UGadtConDecl dom_a10Lz stage_a10LA) (Ann UGadtConDecl dom_a10Lz stage_a10LA) (AnnListG UName dom_a10Lz stage_a10LA) (AnnListG UName dom_a10Lz stage_a10LA)
gadtConResultType :: forall dom_a10Lv stage_a10Lw. Partial (Ann UGadtConType dom_a10Lv stage_a10Lw) (Ann UGadtConType dom_a10Lv stage_a10Lw) (Ann UType dom_a10Lv stage_a10Lw) (Ann UType dom_a10Lv stage_a10Lw)
gadtConRecordFields :: forall dom_a10Lv stage_a10Lw. Partial (Ann UGadtConType dom_a10Lv stage_a10Lw) (Ann UGadtConType dom_a10Lv stage_a10Lw) (AnnListG UFieldDecl dom_a10Lv stage_a10Lw) (AnnListG UFieldDecl dom_a10Lv stage_a10Lw)
gadtConNormalType :: forall dom_a10Lv stage_a10Lw. Partial (Ann UGadtConType dom_a10Lv stage_a10Lw) (Ann UGadtConType dom_a10Lv stage_a10Lw) (Ann UType dom_a10Lv stage_a10Lw) (Ann UType dom_a10Lv stage_a10Lw)
patRhs :: forall dom_a10Lf stage_a10Lg. Lens (Ann UPatternSynonym dom_a10Lf stage_a10Lg) (Ann UPatternSynonym dom_a10Lf stage_a10Lg) (Ann UPatSynRhs dom_a10Lf stage_a10Lg) (Ann UPatSynRhs dom_a10Lf stage_a10Lg)
patLhs :: forall dom_a10Lf stage_a10Lg. Lens (Ann UPatternSynonym dom_a10Lf stage_a10Lg) (Ann UPatternSynonym dom_a10Lf stage_a10Lg) (Ann UPatSynLhs dom_a10Lf stage_a10Lg) (Ann UPatSynLhs dom_a10Lf stage_a10Lg)
patRhsOpposite :: forall dom_a10Lb stage_a10Lc. Partial (Ann UPatSynRhs dom_a10Lb stage_a10Lc) (Ann UPatSynRhs dom_a10Lb stage_a10Lc) (AnnMaybeG UPatSynWhere dom_a10Lb stage_a10Lc) (AnnMaybeG UPatSynWhere dom_a10Lb stage_a10Lc)
patRhsPat :: forall dom_a10Lb stage_a10Lc. Lens (Ann UPatSynRhs dom_a10Lb stage_a10Lc) (Ann UPatSynRhs dom_a10Lb stage_a10Lc) (Ann UPattern dom_a10Lb stage_a10Lc) (Ann UPattern dom_a10Lb stage_a10Lc)
patSynRhs :: forall dom_a10Ld stage_a10Le. Partial (Ann UPatSynLhs dom_a10Ld stage_a10Le) (Ann UPatSynLhs dom_a10Ld stage_a10Le) (Ann UName dom_a10Ld stage_a10Le) (Ann UName dom_a10Ld stage_a10Le)
patSynOp :: forall dom_a10Ld stage_a10Le. Partial (Ann UPatSynLhs dom_a10Ld stage_a10Le) (Ann UPatSynLhs dom_a10Ld stage_a10Le) (Ann UOperator dom_a10Ld stage_a10Le) (Ann UOperator dom_a10Ld stage_a10Le)
patSynLhs :: forall dom_a10Ld stage_a10Le. Partial (Ann UPatSynLhs dom_a10Ld stage_a10Le) (Ann UPatSynLhs dom_a10Ld stage_a10Le) (Ann UName dom_a10Ld stage_a10Le) (Ann UName dom_a10Ld stage_a10Le)
patName :: forall dom_a10Ld stage_a10Le. Partial (Ann UPatSynLhs dom_a10Ld stage_a10Le) (Ann UPatSynLhs dom_a10Ld stage_a10Le) (Ann UName dom_a10Ld stage_a10Le) (Ann UName dom_a10Ld stage_a10Le)
patArgs :: forall dom_a10Ld stage_a10Le. Partial (Ann UPatSynLhs dom_a10Ld stage_a10Le) (Ann UPatSynLhs dom_a10Ld stage_a10Le) (AnnListG UName dom_a10Ld stage_a10Le) (AnnListG UName dom_a10Ld stage_a10Le)
patOpposite :: forall dom_a10L9 stage_a10La dom'_a2cZ9 stage'_a2cZa. Lens (Ann UPatSynWhere dom_a10L9 stage_a10La) (Ann UPatSynWhere dom_a10L9 stage_a10La) (AnnListG UMatch dom_a10L9 stage_a10La) (AnnListG UMatch dom_a10L9 stage_a10La)
patSigType :: forall dom_a10Lh stage_a10Li. Lens (Ann UPatternTypeSignature dom_a10Lh stage_a10Li) (Ann UPatternTypeSignature dom_a10Lh stage_a10Li) (Ann UType dom_a10Lh stage_a10Li) (Ann UType dom_a10Lh stage_a10Li)
patSigName :: forall dom_a10Lh stage_a10Li. Lens (Ann UPatternTypeSignature dom_a10Lh stage_a10Li) (Ann UPatternTypeSignature dom_a10Lh stage_a10Li) (AnnListG UName dom_a10Lh stage_a10Li) (AnnListG UName dom_a10Lh stage_a10Li)
funDeps :: forall dom_a10Lt stage_a10Lu dom'_a2d3n stage'_a2d3o. Lens (Ann UFunDeps dom_a10Lt stage_a10Lu) (Ann UFunDeps dom_a10Lt stage_a10Lu) (AnnListG UFunDep dom_a10Lt stage_a10Lu) (AnnListG UFunDep dom_a10Lt stage_a10Lu)
funDepRhs :: forall dom_a10Lr stage_a10Ls. Lens (Ann UFunDep dom_a10Lr stage_a10Ls) (Ann UFunDep dom_a10Lr stage_a10Ls) (AnnListG UName dom_a10Lr stage_a10Ls) (AnnListG UName dom_a10Lr stage_a10Ls)
funDepLhs :: forall dom_a10Lr stage_a10Ls. Lens (Ann UFunDep dom_a10Lr stage_a10Ls) (Ann UFunDep dom_a10Lr stage_a10Ls) (AnnListG UName dom_a10Lr stage_a10Ls) (AnnListG UName dom_a10Lr stage_a10Ls)
conDeclRhs :: forall dom_a10Lp stage_a10Lq. Partial (Ann UConDecl dom_a10Lp stage_a10Lq) (Ann UConDecl dom_a10Lp stage_a10Lq) (Ann UType dom_a10Lp stage_a10Lq) (Ann UType dom_a10Lp stage_a10Lq)
conDeclOp :: forall dom_a10Lp stage_a10Lq. Partial (Ann UConDecl dom_a10Lp stage_a10Lq) (Ann UConDecl dom_a10Lp stage_a10Lq) (Ann UOperator dom_a10Lp stage_a10Lq) (Ann UOperator dom_a10Lp stage_a10Lq)
conDeclName :: forall dom_a10Lp stage_a10Lq. Partial (Ann UConDecl dom_a10Lp stage_a10Lq) (Ann UConDecl dom_a10Lp stage_a10Lq) (Ann UName dom_a10Lp stage_a10Lq) (Ann UName dom_a10Lp stage_a10Lq)
conDeclLhs :: forall dom_a10Lp stage_a10Lq. Partial (Ann UConDecl dom_a10Lp stage_a10Lq) (Ann UConDecl dom_a10Lp stage_a10Lq) (Ann UType dom_a10Lp stage_a10Lq) (Ann UType dom_a10Lp stage_a10Lq)
conDeclFields :: forall dom_a10Lp stage_a10Lq. Partial (Ann UConDecl dom_a10Lp stage_a10Lq) (Ann UConDecl dom_a10Lp stage_a10Lq) (AnnListG UFieldDecl dom_a10Lp stage_a10Lq) (AnnListG UFieldDecl dom_a10Lp stage_a10Lq)
conDeclArgs :: forall dom_a10Lp stage_a10Lq. Partial (Ann UConDecl dom_a10Lp stage_a10Lq) (Ann UConDecl dom_a10Lp stage_a10Lq) (AnnListG UType dom_a10Lp stage_a10Lq) (AnnListG UType dom_a10Lp stage_a10Lq)
conTypeCtx :: forall dom_a10Lp stage_a10Lq. Lens (Ann UConDecl dom_a10Lp stage_a10Lq) (Ann UConDecl dom_a10Lp stage_a10Lq) (AnnMaybeG UContext dom_a10Lp stage_a10Lq) (AnnMaybeG UContext dom_a10Lp stage_a10Lq)
conTypeArgs :: forall dom_a10Lp stage_a10Lq. Lens (Ann UConDecl dom_a10Lp stage_a10Lq) (Ann UConDecl dom_a10Lp stage_a10Lq) (AnnListG UTyVar dom_a10Lp stage_a10Lq) (AnnListG UTyVar dom_a10Lp stage_a10Lq)
fieldType :: forall dom_a10Ln stage_a10Lo. Lens (Ann UFieldDecl dom_a10Ln stage_a10Lo) (Ann UFieldDecl dom_a10Ln stage_a10Lo) (Ann UType dom_a10Ln stage_a10Lo) (Ann UType dom_a10Ln stage_a10Lo)
fieldNames :: forall dom_a10Ln stage_a10Lo. Lens (Ann UFieldDecl dom_a10Ln stage_a10Lo) (Ann UFieldDecl dom_a10Ln stage_a10Lo) (AnnListG UName dom_a10Ln stage_a10Lo) (AnnListG UName dom_a10Ln stage_a10Lo)
oneDerived :: forall dom_a10Ll stage_a10Lm. Partial (Ann UDeriving dom_a10Ll stage_a10Lm) (Ann UDeriving dom_a10Ll stage_a10Lm) (Ann UInstanceHead dom_a10Ll stage_a10Lm) (Ann UInstanceHead dom_a10Ll stage_a10Lm)
allDerived :: forall dom_a10Ll stage_a10Lm. Partial (Ann UDeriving dom_a10Ll stage_a10Lm) (Ann UDeriving dom_a10Ll stage_a10Lm) (AnnListG UInstanceHead dom_a10Ll stage_a10Lm) (AnnListG UInstanceHead dom_a10Ll stage_a10Lm)
deriveStrategy :: forall dom_a10Ll stage_a10Lm. Lens (Ann UDeriving dom_a10Ll stage_a10Lm) (Ann UDeriving dom_a10Ll stage_a10Lm) (AnnMaybeG UDeriveStrategy dom_a10Ll stage_a10Lm) (AnnMaybeG UDeriveStrategy dom_a10Ll stage_a10Lm)
irVars :: forall dom_a10LR stage_a10LS. Lens (Ann UInstanceRule dom_a10LR stage_a10LS) (Ann UInstanceRule dom_a10LR stage_a10LS) (AnnMaybeG (AnnListG UTyVar) dom_a10LR stage_a10LS) (AnnMaybeG (AnnListG UTyVar) dom_a10LR stage_a10LS)
irHead :: forall dom_a10LR stage_a10LS. Lens (Ann UInstanceRule dom_a10LR stage_a10LS) (Ann UInstanceRule dom_a10LR stage_a10LS) (Ann UInstanceHead dom_a10LR stage_a10LS) (Ann UInstanceHead dom_a10LR stage_a10LS)
irCtx :: forall dom_a10LR stage_a10LS. Lens (Ann UInstanceRule dom_a10LR stage_a10LS) (Ann UInstanceRule dom_a10LR stage_a10LS) (AnnMaybeG UContext dom_a10LR stage_a10LS) (AnnMaybeG UContext dom_a10LR stage_a10LS)
ihType :: forall dom_a10LP stage_a10LQ. Partial (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UType dom_a10LP stage_a10LQ) (Ann UType dom_a10LP stage_a10LQ)
ihOperator :: forall dom_a10LP stage_a10LQ. Partial (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UOperator dom_a10LP stage_a10LQ) (Ann UOperator dom_a10LP stage_a10LQ)
ihLeftOp :: forall dom_a10LP stage_a10LQ. Partial (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UType dom_a10LP stage_a10LQ) (Ann UType dom_a10LP stage_a10LQ)
ihHead :: forall dom_a10LP stage_a10LQ. Partial (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UInstanceHead dom_a10LP stage_a10LQ)
ihFun :: forall dom_a10LP stage_a10LQ. Partial (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UInstanceHead dom_a10LP stage_a10LQ)
ihConName :: forall dom_a10LP stage_a10LQ. Partial (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UInstanceHead dom_a10LP stage_a10LQ) (Ann UName dom_a10LP stage_a10LQ) (Ann UName dom_a10LP stage_a10LQ)
teRhs :: forall dom_a10LB stage_a10LC. Lens (Ann UTypeEqn dom_a10LB stage_a10LC) (Ann UTypeEqn dom_a10LB stage_a10LC) (Ann UType dom_a10LB stage_a10LC) (Ann UType dom_a10LB stage_a10LC)
teLhs :: forall dom_a10LB stage_a10LC. Lens (Ann UTypeEqn dom_a10LB stage_a10LC) (Ann UTypeEqn dom_a10LB stage_a10LC) (Ann UType dom_a10LB stage_a10LC) (Ann UType dom_a10LB stage_a10LC)
ruleRhs :: forall dom_a10KX stage_a10KY. Lens (Ann URule dom_a10KX stage_a10KY) (Ann URule dom_a10KX stage_a10KY) (Ann UExpr dom_a10KX stage_a10KY) (Ann UExpr dom_a10KX stage_a10KY)
rulePhase :: forall dom_a10KX stage_a10KY. Lens (Ann URule dom_a10KX stage_a10KY) (Ann URule dom_a10KX stage_a10KY) (AnnMaybeG UPhaseControl dom_a10KX stage_a10KY) (AnnMaybeG UPhaseControl dom_a10KX stage_a10KY)
ruleName :: forall dom_a10KX stage_a10KY. Lens (Ann URule dom_a10KX stage_a10KY) (Ann URule dom_a10KX stage_a10KY) (Ann UStringNode dom_a10KX stage_a10KY) (Ann UStringNode dom_a10KX stage_a10KY)
ruleLhs :: forall dom_a10KX stage_a10KY. Lens (Ann URule dom_a10KX stage_a10KY) (Ann URule dom_a10KX stage_a10KY) (Ann UExpr dom_a10KX stage_a10KY) (Ann UExpr dom_a10KX stage_a10KY)
ruleBounded :: forall dom_a10KX stage_a10KY. Lens (Ann URule dom_a10KX stage_a10KY) (Ann URule dom_a10KX stage_a10KY) (AnnListG URuleVar dom_a10KX stage_a10KY) (AnnListG URuleVar dom_a10KX stage_a10KY)
ruleVarType :: forall dom_a10KV stage_a10KW. Partial (Ann URuleVar dom_a10KV stage_a10KW) (Ann URuleVar dom_a10KV stage_a10KW) (Ann UType dom_a10KV stage_a10KW) (Ann UType dom_a10KV stage_a10KW)
ruleVarName :: forall dom_a10KV stage_a10KW. Lens (Ann URuleVar dom_a10KV stage_a10KW) (Ann URuleVar dom_a10KV stage_a10KW) (Ann UName dom_a10KV stage_a10KW) (Ann UName dom_a10KV stage_a10KW)
phaseUntil :: forall dom_aZbK stage_aZbL. Lens (Ann UPhaseControl dom_aZbK stage_aZbL) (Ann UPhaseControl dom_aZbK stage_aZbL) (AnnMaybeG PhaseInvert dom_aZbK stage_aZbL) (AnnMaybeG PhaseInvert dom_aZbK stage_aZbL)
phaseNumber :: forall dom_aZbK stage_aZbL. Lens (Ann UPhaseControl dom_aZbK stage_aZbL) (Ann UPhaseControl dom_aZbK stage_aZbL) (AnnMaybeG PhaseNumber dom_aZbK stage_aZbL) (AnnMaybeG PhaseNumber dom_aZbK stage_aZbL)
phaseNum :: forall dom_aZbI stage_aZbJ. Lens (Ann PhaseNumber dom_aZbI stage_aZbJ) (Ann PhaseNumber dom_aZbI stage_aZbJ) Integer Integer
warnMessage :: forall dom_a10L1 stage_a10L2. Partial (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (AnnListG UStringNode dom_a10L1 stage_a10L2) (AnnListG UStringNode dom_a10L1 stage_a10L2)
specializePragma :: forall dom_a10L1 stage_a10L2. Partial (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann USpecializePragma dom_a10L1 stage_a10L2) (Ann USpecializePragma dom_a10L1 stage_a10L2)
pragmaSignature :: forall dom_a10L1 stage_a10L2. Partial (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (AnnMaybeG UName dom_a10L1 stage_a10L2) (AnnMaybeG UName dom_a10L1 stage_a10L2)
pragmaRule :: forall dom_a10L1 stage_a10L2. Partial (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (AnnListG URule dom_a10L1 stage_a10L2) (AnnListG URule dom_a10L1 stage_a10L2)
pragmaObjects :: forall dom_a10L1 stage_a10L2. Partial (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (AnnListG UName dom_a10L1 stage_a10L2) (AnnListG UName dom_a10L1 stage_a10L2)
pragmaLineNum :: forall dom_a10L1 stage_a10L2. Partial (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann LineNumber dom_a10L1 stage_a10L2) (Ann LineNumber dom_a10L1 stage_a10L2)
pragmaInline :: forall dom_a10L1 stage_a10L2. Partial (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UInlinePragma dom_a10L1 stage_a10L2) (Ann UInlinePragma dom_a10L1 stage_a10L2)
pragmaFileName :: forall dom_a10L1 stage_a10L2. Partial (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (AnnMaybeG UStringNode dom_a10L1 stage_a10L2) (AnnMaybeG UStringNode dom_a10L1 stage_a10L2)
deprMessage :: forall dom_a10L1 stage_a10L2. Partial (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (AnnListG UStringNode dom_a10L1 stage_a10L2) (AnnListG UStringNode dom_a10L1 stage_a10L2)
annotationSubject :: forall dom_a10L1 stage_a10L2. Partial (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UAnnotationSubject dom_a10L1 stage_a10L2) (Ann UAnnotationSubject dom_a10L1 stage_a10L2)
annotateExpr :: forall dom_a10L1 stage_a10L2. Partial (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UTopLevelPragma dom_a10L1 stage_a10L2) (Ann UExpr dom_a10L1 stage_a10L2) (Ann UExpr dom_a10L1 stage_a10L2)
annotateName :: forall dom_a10KT stage_a10KU dom'_a2evz stage'_a2evA. Partial (Ann UAnnotationSubject dom_a10KT stage_a10KU) (Ann UAnnotationSubject dom_a10KT stage_a10KU) (Ann UName dom_a10KT stage_a10KU) (Ann UName dom_a10KT stage_a10KU)
minimalOrs :: forall dom_a10KR stage_a10KS. Partial (Ann UMinimalFormula dom_a10KR stage_a10KS) (Ann UMinimalFormula dom_a10KR stage_a10KS) (AnnListG UMinimalFormula dom_a10KR stage_a10KS) (AnnListG UMinimalFormula dom_a10KR stage_a10KS)
minimalName :: forall dom_a10KR stage_a10KS. Partial (Ann UMinimalFormula dom_a10KR stage_a10KS) (Ann UMinimalFormula dom_a10KR stage_a10KS) (Ann UName dom_a10KR stage_a10KS) (Ann UName dom_a10KR stage_a10KS)
minimalInner :: forall dom_a10KR stage_a10KS. Partial (Ann UMinimalFormula dom_a10KR stage_a10KS) (Ann UMinimalFormula dom_a10KR stage_a10KS) (Ann UMinimalFormula dom_a10KR stage_a10KS) (Ann UMinimalFormula dom_a10KR stage_a10KS)
minimalAnds :: forall dom_a10KR stage_a10KS. Partial (Ann UMinimalFormula dom_a10KR stage_a10KS) (Ann UMinimalFormula dom_a10KR stage_a10KS) (AnnListG UMinimalFormula dom_a10KR stage_a10KS) (AnnListG UMinimalFormula dom_a10KR stage_a10KS)
srToLine :: forall dom_aVWy stage_aVWz. Lens (Ann USourceRange dom_aVWy stage_aVWz) (Ann USourceRange dom_aVWy stage_aVWz) (Ann Number dom_aVWy stage_aVWz) (Ann Number dom_aVWy stage_aVWz)
srToCol :: forall dom_aVWy stage_aVWz. Lens (Ann USourceRange dom_aVWy stage_aVWz) (Ann USourceRange dom_aVWy stage_aVWz) (Ann Number dom_aVWy stage_aVWz) (Ann Number dom_aVWy stage_aVWz)
srFromLine :: forall dom_aVWy stage_aVWz. Lens (Ann USourceRange dom_aVWy stage_aVWz) (Ann USourceRange dom_aVWy stage_aVWz) (Ann Number dom_aVWy stage_aVWz) (Ann Number dom_aVWy stage_aVWz)
srFromCol :: forall dom_aVWy stage_aVWz. Lens (Ann USourceRange dom_aVWy stage_aVWz) (Ann USourceRange dom_aVWy stage_aVWz) (Ann Number dom_aVWy stage_aVWz) (Ann Number dom_aVWy stage_aVWz)
srFileName :: forall dom_aVWy stage_aVWz. Lens (Ann USourceRange dom_aVWy stage_aVWz) (Ann USourceRange dom_aVWy stage_aVWz) (Ann UStringNode dom_aVWy stage_aVWz) (Ann UStringNode dom_aVWy stage_aVWz)
numberInteger :: forall dom_aVWw stage_aVWx. Lens (Ann Number dom_aVWw stage_aVWx) (Ann Number dom_aVWw stage_aVWx) Integer Integer
specializeType :: forall dom_a10KZ stage_a10L0. Lens (Ann USpecializePragma dom_a10KZ stage_a10L0) (Ann USpecializePragma dom_a10KZ stage_a10L0) (AnnListG UType dom_a10KZ stage_a10L0) (AnnListG UType dom_a10KZ stage_a10L0)
specializeDef :: forall dom_a10KZ stage_a10L0. Lens (Ann USpecializePragma dom_a10KZ stage_a10L0) (Ann USpecializePragma dom_a10KZ stage_a10L0) (Ann UName dom_a10KZ stage_a10L0) (Ann UName dom_a10KZ stage_a10L0)
pragmaPhase :: forall dom_a10KZ stage_a10L0. Lens (Ann USpecializePragma dom_a10KZ stage_a10L0) (Ann USpecializePragma dom_a10KZ stage_a10L0) (AnnMaybeG UPhaseControl dom_a10KZ stage_a10L0) (AnnMaybeG UPhaseControl dom_a10KZ stage_a10L0)
matchRhs :: forall dom_aZca stage_aZcb. Lens (Ann UMatch dom_aZca stage_aZcb) (Ann UMatch dom_aZca stage_aZcb) (Ann URhs dom_aZca stage_aZcb) (Ann URhs dom_aZca stage_aZcb)
matchLhs :: forall dom_aZca stage_aZcb. Lens (Ann UMatch dom_aZca stage_aZcb) (Ann UMatch dom_aZca stage_aZcb) (Ann UMatchLhs dom_aZca stage_aZcb) (Ann UMatchLhs dom_aZca stage_aZcb)
matchBinds :: forall dom_aZca stage_aZcb. Lens (Ann UMatch dom_aZca stage_aZcb) (Ann UMatch dom_aZca stage_aZcb) (AnnMaybeG ULocalBinds dom_aZca stage_aZcb) (AnnMaybeG ULocalBinds dom_aZca stage_aZcb)
rhsGuards :: forall dom_aZbU stage_aZbV. Partial (Ann URhs dom_aZbU stage_aZbV) (Ann URhs dom_aZbU stage_aZbV) (AnnListG UGuardedRhs dom_aZbU stage_aZbV) (AnnListG UGuardedRhs dom_aZbU stage_aZbV)
rhsExpr :: forall dom_aZbU stage_aZbV. Partial (Ann URhs dom_aZbU stage_aZbV) (Ann URhs dom_aZbU stage_aZbV) (Ann UExpr dom_aZbU stage_aZbV) (Ann UExpr dom_aZbU stage_aZbV)
guardStmts :: forall dom_aZbS stage_aZbT. Lens (Ann UGuardedRhs dom_aZbS stage_aZbT) (Ann UGuardedRhs dom_aZbS stage_aZbT) (AnnListG URhsGuard dom_aZbS stage_aZbT) (AnnListG URhsGuard dom_aZbS stage_aZbT)
guardExpr :: forall dom_aZbS stage_aZbT. Lens (Ann UGuardedRhs dom_aZbS stage_aZbT) (Ann UGuardedRhs dom_aZbS stage_aZbT) (Ann UExpr dom_aZbS stage_aZbT) (Ann UExpr dom_aZbS stage_aZbT)
guardRhs :: forall dom_aZbQ stage_aZbR. Partial (Ann URhsGuard dom_aZbQ stage_aZbR) (Ann URhsGuard dom_aZbQ stage_aZbR) (Ann UExpr dom_aZbQ stage_aZbR) (Ann UExpr dom_aZbQ stage_aZbR)
guardPat :: forall dom_aZbQ stage_aZbR. Partial (Ann URhsGuard dom_aZbQ stage_aZbR) (Ann URhsGuard dom_aZbQ stage_aZbR) (Ann UPattern dom_aZbQ stage_aZbR) (Ann UPattern dom_aZbQ stage_aZbR)
guardCheck :: forall dom_aZbQ stage_aZbR. Partial (Ann URhsGuard dom_aZbQ stage_aZbR) (Ann URhsGuard dom_aZbQ stage_aZbR) (Ann UExpr dom_aZbQ stage_aZbR) (Ann UExpr dom_aZbQ stage_aZbR)
guardBinds :: forall dom_aZbQ stage_aZbR. Partial (Ann URhsGuard dom_aZbQ stage_aZbR) (Ann URhsGuard dom_aZbQ stage_aZbR) (AnnListG ULocalBind dom_aZbQ stage_aZbR) (AnnListG ULocalBind dom_aZbQ stage_aZbR)
localVal :: forall dom_aZc4 stage_aZc5. Partial (Ann ULocalBind dom_aZc4 stage_aZc5) (Ann ULocalBind dom_aZc4 stage_aZc5) (Ann UValueBind dom_aZc4 stage_aZc5) (Ann UValueBind dom_aZc4 stage_aZc5)
localSig :: forall dom_aZc4 stage_aZc5. Partial (Ann ULocalBind dom_aZc4 stage_aZc5) (Ann ULocalBind dom_aZc4 stage_aZc5) (Ann UTypeSignature dom_aZc4 stage_aZc5) (Ann UTypeSignature dom_aZc4 stage_aZc5)
localInline :: forall dom_aZc4 stage_aZc5. Partial (Ann ULocalBind dom_aZc4 stage_aZc5) (Ann ULocalBind dom_aZc4 stage_aZc5) (Ann UInlinePragma dom_aZc4 stage_aZc5) (Ann UInlinePragma dom_aZc4 stage_aZc5)
localFixity :: forall dom_aZc4 stage_aZc5. Partial (Ann ULocalBind dom_aZc4 stage_aZc5) (Ann ULocalBind dom_aZc4 stage_aZc5) (Ann UFixitySignature dom_aZc4 stage_aZc5) (Ann UFixitySignature dom_aZc4 stage_aZc5)
localBinds :: forall dom_aZc6 stage_aZc7 dom'_a2fjt stage'_a2fju. Lens (Ann ULocalBinds dom_aZc6 stage_aZc7) (Ann ULocalBinds dom_aZc6 stage_aZc7) (AnnListG ULocalBind dom_aZc6 stage_aZc7) (AnnListG ULocalBind dom_aZc6 stage_aZc7)
fixityPrecedence :: forall dom_aZc0 stage_aZc1. Lens (Ann UFixitySignature dom_aZc0 stage_aZc1) (Ann UFixitySignature dom_aZc0 stage_aZc1) (AnnMaybeG Precedence dom_aZc0 stage_aZc1) (AnnMaybeG Precedence dom_aZc0 stage_aZc1)
fixityOperators :: forall dom_aZc0 stage_aZc1. Lens (Ann UFixitySignature dom_aZc0 stage_aZc1) (Ann UFixitySignature dom_aZc0 stage_aZc1) (AnnListG UOperator dom_aZc0 stage_aZc1) (AnnListG UOperator dom_aZc0 stage_aZc1)
fixityAssoc :: forall dom_aZc0 stage_aZc1. Lens (Ann UFixitySignature dom_aZc0 stage_aZc1) (Ann UFixitySignature dom_aZc0 stage_aZc1) (Ann Assoc dom_aZc0 stage_aZc1) (Ann Assoc dom_aZc0 stage_aZc1)
precedenceValue :: forall dom_aZbW stage_aZbX. Lens (Ann Precedence dom_aZbW stage_aZbX) (Ann Precedence dom_aZbW stage_aZbX) Int Int
tsType :: forall dom_aZc2 stage_aZc3. Lens (Ann UTypeSignature dom_aZc2 stage_aZc3) (Ann UTypeSignature dom_aZc2 stage_aZc3) (Ann UType dom_aZc2 stage_aZc3) (Ann UType dom_aZc2 stage_aZc3)
tsName :: forall dom_aZc2 stage_aZc3. Lens (Ann UTypeSignature dom_aZc2 stage_aZc3) (Ann UTypeSignature dom_aZc2 stage_aZc3) (AnnListG UName dom_aZc2 stage_aZc3) (AnnListG UName dom_aZc2 stage_aZc3)
matchLhsRhs :: forall dom_aZc8 stage_aZc9. Partial (Ann UMatchLhs dom_aZc8 stage_aZc9) (Ann UMatchLhs dom_aZc8 stage_aZc9) (Ann UPattern dom_aZc8 stage_aZc9) (Ann UPattern dom_aZc8 stage_aZc9)
matchLhsOperator :: forall dom_aZc8 stage_aZc9. Partial (Ann UMatchLhs dom_aZc8 stage_aZc9) (Ann UMatchLhs dom_aZc8 stage_aZc9) (Ann UOperator dom_aZc8 stage_aZc9) (Ann UOperator dom_aZc8 stage_aZc9)
matchLhsName :: forall dom_aZc8 stage_aZc9. Partial (Ann UMatchLhs dom_aZc8 stage_aZc9) (Ann UMatchLhs dom_aZc8 stage_aZc9) (Ann UName dom_aZc8 stage_aZc9) (Ann UName dom_aZc8 stage_aZc9)
matchLhsLhs :: forall dom_aZc8 stage_aZc9. Partial (Ann UMatchLhs dom_aZc8 stage_aZc9) (Ann UMatchLhs dom_aZc8 stage_aZc9) (Ann UPattern dom_aZc8 stage_aZc9) (Ann UPattern dom_aZc8 stage_aZc9)
matchLhsArgs :: forall dom_aZc8 stage_aZc9. Lens (Ann UMatchLhs dom_aZc8 stage_aZc9) (Ann UMatchLhs dom_aZc8 stage_aZc9) (AnnListG UPattern dom_aZc8 stage_aZc9) (AnnListG UPattern dom_aZc8 stage_aZc9)
kindConstr :: forall dom_aSxo stage_aSxp dom'_a2fCb stage'_a2fCc. Lens (Ann UKindConstraint dom_aSxo stage_aSxp) (Ann UKindConstraint dom_aSxo stage_aSxp) (Ann UKind dom_aSxo stage_aSxp) (Ann UKind dom_aSxo stage_aSxp)
valBindRhs :: forall dom_aZcc stage_aZcd. Partial (Ann UValueBind dom_aZcc stage_aZcd) (Ann UValueBind dom_aZcc stage_aZcd) (Ann URhs dom_aZcc stage_aZcd) (Ann URhs dom_aZcc stage_aZcd)
valBindPat :: forall dom_aZcc stage_aZcd. Partial (Ann UValueBind dom_aZcc stage_aZcd) (Ann UValueBind dom_aZcc stage_aZcd) (Ann UPattern dom_aZcc stage_aZcd) (Ann UPattern dom_aZcc stage_aZcd)
valBindLocals :: forall dom_aZcc stage_aZcd. Partial (Ann UValueBind dom_aZcc stage_aZcd) (Ann UValueBind dom_aZcc stage_aZcd) (AnnMaybeG ULocalBinds dom_aZcc stage_aZcd) (AnnMaybeG ULocalBinds dom_aZcc stage_aZcd)
funBindMatches :: forall dom_aZcc stage_aZcd. Partial (Ann UValueBind dom_aZcc stage_aZcd) (Ann UValueBind dom_aZcc stage_aZcd) (AnnListG UMatch dom_aZcc stage_aZcd) (AnnListG UMatch dom_aZcc stage_aZcd)
tyVarName :: forall dom_aThQ stage_aThR. Lens (Ann UTyVar dom_aThQ stage_aThR) (Ann UTyVar dom_aThQ stage_aThR) (Ann UName dom_aThQ stage_aThR) (Ann UName dom_aThQ stage_aThR)
tyVarKind :: forall dom_aThQ stage_aThR. Lens (Ann UTyVar dom_aThQ stage_aThR) (Ann UTyVar dom_aThQ stage_aThR) (AnnMaybeG UKindConstraint dom_aThQ stage_aThR) (AnnMaybeG UKindConstraint dom_aThQ stage_aThR)
typeWildcardName :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UName dom_aThO stage_aThP) (Ann UName dom_aThO stage_aThP)
typeType :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP)
typeRight :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP)
typeResult :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP)
typeQQ :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UQuasiQuote dom_aThO stage_aThP) (Ann UQuasiQuote dom_aThO stage_aThP)
typeParam :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP)
typeOperator :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UOperator dom_aThO stage_aThP) (Ann UOperator dom_aThO stage_aThP)
typeName :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UName dom_aThO stage_aThP) (Ann UName dom_aThO stage_aThP)
typeLeft :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP)
typeKind :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UKind dom_aThO stage_aThP) (Ann UKind dom_aThO stage_aThP)
typeInner :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP)
typeElements :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (AnnListG UType dom_aThO stage_aThP) (AnnListG UType dom_aThO stage_aThP)
typeElement :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP)
typeCtx :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UContext dom_aThO stage_aThP) (Ann UContext dom_aThO stage_aThP)
typeCon :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP)
typeBounded :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (AnnListG UTyVar dom_aThO stage_aThP) (AnnListG UTyVar dom_aThO stage_aThP)
typeArg :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP)
tsSplice :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann USplice dom_aThO stage_aThP) (Ann USplice dom_aThO stage_aThP)
tpPromoted :: forall dom_aThO stage_aThP. Partial (Ann UType dom_aThO stage_aThP) (Ann UType dom_aThO stage_aThP) (Ann (UPromoted UType) dom_aThO stage_aThP) (Ann (UPromoted UType) dom_aThO stage_aThP)
kindVar :: forall dom_aSxm stage_aSxn. Partial (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UName dom_aSxm stage_aSxn) (Ann UName dom_aSxm stage_aSxn)
kindType :: forall dom_aSxm stage_aSxn. Partial (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UType dom_aSxm stage_aSxn) (Ann UType dom_aSxm stage_aSxn)
kindRight :: forall dom_aSxm stage_aSxn. Partial (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn)
kindRhs :: forall dom_aSxm stage_aSxn. Partial (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn)
kindPromoted :: forall dom_aSxm stage_aSxn. Partial (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann (UPromoted UKind) dom_aSxm stage_aSxn) (Ann (UPromoted UKind) dom_aSxm stage_aSxn)
kindParen :: forall dom_aSxm stage_aSxn. Partial (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn)
kindLhs :: forall dom_aSxm stage_aSxn. Partial (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn)
kindLeft :: forall dom_aSxm stage_aSxn. Partial (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn)
kindElems :: forall dom_aSxm stage_aSxn. Partial (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (AnnListG UKind dom_aSxm stage_aSxn) (AnnListG UKind dom_aSxm stage_aSxn)
kindElem :: forall dom_aSxm stage_aSxn. Partial (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn)
kindAppOp :: forall dom_aSxm stage_aSxn. Partial (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UOperator dom_aSxm stage_aSxn) (Ann UOperator dom_aSxm stage_aSxn)
kindAppFun :: forall dom_aSxm stage_aSxn. Partial (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn)
kindAppArg :: forall dom_aSxm stage_aSxn. Partial (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn) (Ann UKind dom_aSxm stage_aSxn)
contextAssertion :: forall dom_aThM stage_aThN dom'_a2hya stage'_a2hyb. Lens (Ann UContext dom_aThM stage_aThN) (Ann UContext dom_aThM stage_aThN) (Ann UAssertion dom_aThM stage_aThN) (Ann UAssertion dom_aThM stage_aThN)
innerAsserts :: forall dom_aThK stage_aThL. Partial (Ann UAssertion dom_aThK stage_aThL) (Ann UAssertion dom_aThK stage_aThL) (AnnListG UAssertion dom_aThK stage_aThL) (AnnListG UAssertion dom_aThK stage_aThL)
assertTypes :: forall dom_aThK stage_aThL. Partial (Ann UAssertion dom_aThK stage_aThL) (Ann UAssertion dom_aThK stage_aThL) (AnnListG UType dom_aThK stage_aThL) (AnnListG UType dom_aThK stage_aThL)
assertRhs :: forall dom_aThK stage_aThL. Partial (Ann UAssertion dom_aThK stage_aThL) (Ann UAssertion dom_aThK stage_aThL) (Ann UType dom_aThK stage_aThL) (Ann UType dom_aThK stage_aThL)
assertOp :: forall dom_aThK stage_aThL. Partial (Ann UAssertion dom_aThK stage_aThL) (Ann UAssertion dom_aThK stage_aThL) (Ann UOperator dom_aThK stage_aThL) (Ann UOperator dom_aThK stage_aThL)
assertLhs :: forall dom_aThK stage_aThL. Partial (Ann UAssertion dom_aThK stage_aThL) (Ann UAssertion dom_aThK stage_aThL) (Ann UType dom_aThK stage_aThL) (Ann UType dom_aThK stage_aThL)
assertImplVar :: forall dom_aThK stage_aThL. Partial (Ann UAssertion dom_aThK stage_aThL) (Ann UAssertion dom_aThK stage_aThL) (Ann UName dom_aThK stage_aThL) (Ann UName dom_aThK stage_aThL)
assertImplType :: forall dom_aThK stage_aThL. Partial (Ann UAssertion dom_aThK stage_aThL) (Ann UAssertion dom_aThK stage_aThL) (Ann UType dom_aThK stage_aThL) (Ann UType dom_aThK stage_aThL)
assertClsName :: forall dom_aThK stage_aThL. Partial (Ann UAssertion dom_aThK stage_aThL) (Ann UAssertion dom_aThK stage_aThL) (Ann UName dom_aThK stage_aThL) (Ann UName dom_aThK stage_aThL)
tupleSectionElems :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnListG UTupSecElem dom_aVWR stage_aVWS) (AnnListG UTupSecElem dom_aVWR stage_aVWS)
tupleElems :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnListG UExpr dom_aVWR stage_aVWS) (AnnListG UExpr dom_aVWR stage_aVWS)
quotedName :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UName dom_aVWR stage_aVWS) (Ann UName dom_aVWR stage_aVWS)
procPattern :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UPattern dom_aVWR stage_aVWS) (Ann UPattern dom_aVWR stage_aVWS)
procExpr :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UCmd dom_aVWR stage_aVWS) (Ann UCmd dom_aVWR stage_aVWS)
listElems :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnListG UExpr dom_aVWR stage_aVWS) (AnnListG UExpr dom_aVWR stage_aVWS)
innerExpr :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS)
exprType :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UType dom_aVWR stage_aVWS) (Ann UType dom_aVWR stage_aVWS)
exprThen :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS)
exprSumPlaceholdersBefore :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnListG UUnboxedSumPlaceHolder dom_aVWR stage_aVWS) (AnnListG UUnboxedSumPlaceHolder dom_aVWR stage_aVWS)
exprSumPlaceholdersAfter :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnListG UUnboxedSumPlaceHolder dom_aVWR stage_aVWS) (AnnListG UUnboxedSumPlaceHolder dom_aVWR stage_aVWS)
exprStmts :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnListG UStmt dom_aVWR stage_aVWS) (AnnListG UStmt dom_aVWR stage_aVWS)
exprSplice :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann USplice dom_aVWR stage_aVWS) (Ann USplice dom_aVWR stage_aVWS)
exprSig :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UType dom_aVWR stage_aVWS) (Ann UType dom_aVWR stage_aVWS)
exprRhs :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS)
exprRecName :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UName dom_aVWR stage_aVWS) (Ann UName dom_aVWR stage_aVWS)
exprRecFields :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnListG UFieldUpdate dom_aVWR stage_aVWS) (AnnListG UFieldUpdate dom_aVWR stage_aVWS)
exprQQ :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UQuasiQuote dom_aVWR stage_aVWS) (Ann UQuasiQuote dom_aVWR stage_aVWS)
exprPragma :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExprPragma dom_aVWR stage_aVWS) (Ann UExprPragma dom_aVWR stage_aVWS)
exprOperator :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UOperator dom_aVWR stage_aVWS) (Ann UOperator dom_aVWR stage_aVWS)
exprName :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UName dom_aVWR stage_aVWS) (Ann UName dom_aVWR stage_aVWS)
exprLit :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann ULiteral dom_aVWR stage_aVWS) (Ann ULiteral dom_aVWR stage_aVWS)
exprLhs :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS)
exprInner :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS)
exprIfAlts :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnListG UGuardedCaseRhs dom_aVWR stage_aVWS) (AnnListG UGuardedCaseRhs dom_aVWR stage_aVWS)
exprFunBind :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnListG ULocalBind dom_aVWR stage_aVWS) (AnnListG ULocalBind dom_aVWR stage_aVWS)
exprFun :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS)
exprElse :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS)
exprCond :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS)
exprCase :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS)
exprBracket :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UBracket dom_aVWR stage_aVWS) (Ann UBracket dom_aVWR stage_aVWS)
exprBindings :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnListG UPattern dom_aVWR stage_aVWS) (AnnListG UPattern dom_aVWR stage_aVWS)
exprArg :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS)
exprAlts :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnListG UAlt dom_aVWR stage_aVWS) (AnnListG UAlt dom_aVWR stage_aVWS)
enumToFix :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS)
enumTo :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnMaybeG UExpr dom_aVWR stage_aVWS) (AnnMaybeG UExpr dom_aVWR stage_aVWS)
enumThen :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnMaybeG UExpr dom_aVWR stage_aVWS) (AnnMaybeG UExpr dom_aVWR stage_aVWS)
enumFrom :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS)
doKind :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UDoKind dom_aVWR stage_aVWS) (Ann UDoKind dom_aVWR stage_aVWS)
compExpr :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS)
compBody :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (AnnListG UListCompBody dom_aVWR stage_aVWS) (AnnListG UListCompBody dom_aVWR stage_aVWS)
arrowAppl :: forall dom_aVWR stage_aVWS. Partial (Ann UExpr dom_aVWR stage_aVWS) (Ann UExpr dom_aVWR stage_aVWS) (Ann UArrowAppl dom_aVWR stage_aVWS) (Ann UArrowAppl dom_aVWR stage_aVWS)
altRhs :: forall expr_aVWI dom_aVWJ stage_aVWK expr'_a2lEp. Lens (Ann (UAlt' expr_aVWI) dom_aVWJ stage_aVWK) (Ann (UAlt' expr_aVWI) dom_aVWJ stage_aVWK) (Ann (UCaseRhs' expr_aVWI) dom_aVWJ stage_aVWK) (Ann (UCaseRhs' expr_aVWI) dom_aVWJ stage_aVWK)
altPattern :: forall expr_aVWI dom_aVWJ stage_aVWK. Lens (Ann (UAlt' expr_aVWI) dom_aVWJ stage_aVWK) (Ann (UAlt' expr_aVWI) dom_aVWJ stage_aVWK) (Ann UPattern dom_aVWJ stage_aVWK) (Ann UPattern dom_aVWJ stage_aVWK)
altBinds :: forall expr_aVWI dom_aVWJ stage_aVWK. Lens (Ann (UAlt' expr_aVWI) dom_aVWJ stage_aVWK) (Ann (UAlt' expr_aVWI) dom_aVWJ stage_aVWK) (AnnMaybeG ULocalBinds dom_aVWJ stage_aVWK) (AnnMaybeG ULocalBinds dom_aVWJ stage_aVWK)
fieldWildcard :: forall dom_aVWP stage_aVWQ. Partial (Ann UFieldUpdate dom_aVWP stage_aVWQ) (Ann UFieldUpdate dom_aVWP stage_aVWQ) (Ann UFieldWildcard dom_aVWP stage_aVWQ) (Ann UFieldWildcard dom_aVWP stage_aVWQ)
fieldValue :: forall dom_aVWP stage_aVWQ. Partial (Ann UFieldUpdate dom_aVWP stage_aVWQ) (Ann UFieldUpdate dom_aVWP stage_aVWQ) (Ann UExpr dom_aVWP stage_aVWQ) (Ann UExpr dom_aVWP stage_aVWQ)
fieldUpdateName :: forall dom_aVWP stage_aVWQ. Partial (Ann UFieldUpdate dom_aVWP stage_aVWQ) (Ann UFieldUpdate dom_aVWP stage_aVWQ) (Ann UName dom_aVWP stage_aVWQ) (Ann UName dom_aVWP stage_aVWQ)
fieldName :: forall dom_aVWP stage_aVWQ. Partial (Ann UFieldUpdate dom_aVWP stage_aVWQ) (Ann UFieldUpdate dom_aVWP stage_aVWQ) (Ann UName dom_aVWP stage_aVWQ) (Ann UName dom_aVWP stage_aVWQ)
tupSecExpr :: forall dom_aVWL stage_aVWM dom'_a2lQT stage'_a2lQU. Partial (Ann UTupSecElem dom_aVWL stage_aVWM) (Ann UTupSecElem dom_aVWL stage_aVWM) (Ann UExpr dom_aVWL stage_aVWM) (Ann UExpr dom_aVWL stage_aVWM)
pragmaStr :: forall dom_aVWA stage_aVWB. Partial (Ann UExprPragma dom_aVWA stage_aVWB) (Ann UExprPragma dom_aVWA stage_aVWB) (Ann UStringNode dom_aVWA stage_aVWB) (Ann UStringNode dom_aVWA stage_aVWB)
pragmaSrcRange :: forall dom_aVWA stage_aVWB. Partial (Ann UExprPragma dom_aVWA stage_aVWB) (Ann UExprPragma dom_aVWA stage_aVWB) (Ann USourceRange dom_aVWA stage_aVWB) (Ann USourceRange dom_aVWA stage_aVWB)
rhsCaseGuards :: forall expr_aVWF dom_aVWG stage_aVWH. Partial (Ann (UCaseRhs' expr_aVWF) dom_aVWG stage_aVWH) (Ann (UCaseRhs' expr_aVWF) dom_aVWG stage_aVWH) (AnnListG (UGuardedCaseRhs' expr_aVWF) dom_aVWG stage_aVWH) (AnnListG (UGuardedCaseRhs' expr_aVWF) dom_aVWG stage_aVWH)
rhsCaseExpr :: forall expr_aVWF dom_aVWG stage_aVWH. Partial (Ann (UCaseRhs' expr_aVWF) dom_aVWG stage_aVWH) (Ann (UCaseRhs' expr_aVWF) dom_aVWG stage_aVWH) (Ann expr_aVWF dom_aVWG stage_aVWH) (Ann expr_aVWF dom_aVWG stage_aVWH)
caseGuardStmts :: forall expr_aVWC dom_aVWD stage_aVWE. Lens (Ann (UGuardedCaseRhs' expr_aVWC) dom_aVWD stage_aVWE) (Ann (UGuardedCaseRhs' expr_aVWC) dom_aVWD stage_aVWE) (AnnListG URhsGuard dom_aVWD stage_aVWE) (AnnListG URhsGuard dom_aVWD stage_aVWE)
caseGuardExpr :: forall expr_aVWC dom_aVWD stage_aVWE expr'_a2m21. Lens (Ann (UGuardedCaseRhs' expr_aVWC) dom_aVWD stage_aVWE) (Ann (UGuardedCaseRhs' expr_aVWC) dom_aVWD stage_aVWE) (Ann expr_aVWC dom_aVWD stage_aVWE) (Ann expr_aVWC dom_aVWD stage_aVWE)
stmtPattern :: forall expr_aVsH dom_aVsI stage_aVsJ. Partial (Ann (UStmt' expr_aVsH) dom_aVsI stage_aVsJ) (Ann (UStmt' expr_aVsH) dom_aVsI stage_aVsJ) (Ann UPattern dom_aVsI stage_aVsJ) (Ann UPattern dom_aVsI stage_aVsJ)
stmtExpr :: forall expr_aVsH dom_aVsI stage_aVsJ. Partial (Ann (UStmt' expr_aVsH) dom_aVsI stage_aVsJ) (Ann (UStmt' expr_aVsH) dom_aVsI stage_aVsJ) (Ann expr_aVsH dom_aVsI stage_aVsJ) (Ann expr_aVsH dom_aVsI stage_aVsJ)
stmtBinds :: forall expr_aVsH dom_aVsI stage_aVsJ. Partial (Ann (UStmt' expr_aVsH) dom_aVsI stage_aVsJ) (Ann (UStmt' expr_aVsH) dom_aVsI stage_aVsJ) (AnnListG ULocalBind dom_aVsI stage_aVsJ) (AnnListG ULocalBind dom_aVsI stage_aVsJ)
cmdStmtBinds :: forall expr_aVsH dom_aVsI stage_aVsJ. Partial (Ann (UStmt' expr_aVsH) dom_aVsI stage_aVsJ) (Ann (UStmt' expr_aVsH) dom_aVsI stage_aVsJ) (AnnListG (UStmt' expr_aVsH) dom_aVsI stage_aVsJ) (AnnListG (UStmt' expr_aVsH) dom_aVsI stage_aVsJ)
usingExpr :: forall dom_aVsD stage_aVsE. Partial (Ann UCompStmt dom_aVsD stage_aVsE) (Ann UCompStmt dom_aVsD stage_aVsE) (AnnMaybeG UExpr dom_aVsD stage_aVsE) (AnnMaybeG UExpr dom_aVsD stage_aVsE)
thenExpr :: forall dom_aVsD stage_aVsE. Partial (Ann UCompStmt dom_aVsD stage_aVsE) (Ann UCompStmt dom_aVsD stage_aVsE) (Ann UExpr dom_aVsD stage_aVsE) (Ann UExpr dom_aVsD stage_aVsE)
compStmt :: forall dom_aVsD stage_aVsE. Partial (Ann UCompStmt dom_aVsD stage_aVsE) (Ann UCompStmt dom_aVsD stage_aVsE) (Ann UStmt dom_aVsD stage_aVsE) (Ann UStmt dom_aVsD stage_aVsE)
byExpr :: forall dom_aVsD stage_aVsE. Partial (Ann UCompStmt dom_aVsD stage_aVsE) (Ann UCompStmt dom_aVsD stage_aVsE) (AnnMaybeG UExpr dom_aVsD stage_aVsE) (AnnMaybeG UExpr dom_aVsD stage_aVsE)
compStmts :: forall dom_aVsF stage_aVsG dom'_a2mnl stage'_a2mnm. Lens (Ann UListCompBody dom_aVsF stage_aVsG) (Ann UListCompBody dom_aVsF stage_aVsG) (AnnListG UCompStmt dom_aVsF stage_aVsG) (AnnListG UCompStmt dom_aVsF stage_aVsG)
cmdThen :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv)
cmdStmts :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (AnnListG UCmdStmt dom_aVWu stage_aVWv) (AnnListG UCmdStmt dom_aVWu stage_aVWv)
cmdRightCmd :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv)
cmdRhs :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UExpr dom_aVWu stage_aVWv) (Ann UExpr dom_aVWu stage_aVWv)
cmdOperator :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UName dom_aVWu stage_aVWv) (Ann UName dom_aVWu stage_aVWv)
cmdLhs :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UExpr dom_aVWu stage_aVWv) (Ann UExpr dom_aVWu stage_aVWv)
cmdLeftCmd :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv)
cmdInnerCmds :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (AnnListG UCmd dom_aVWu stage_aVWv) (AnnListG UCmd dom_aVWu stage_aVWv)
cmdInnerCmd :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv)
cmdInner :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv)
cmdExpr :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UExpr dom_aVWu stage_aVWv) (Ann UExpr dom_aVWu stage_aVWv)
cmdElse :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv)
cmdBinds :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (AnnListG ULocalBind dom_aVWu stage_aVWv) (AnnListG ULocalBind dom_aVWu stage_aVWv)
cmdBindings :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (AnnListG UPattern dom_aVWu stage_aVWv) (AnnListG UPattern dom_aVWu stage_aVWv)
cmdArrowOp :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UArrowAppl dom_aVWu stage_aVWv) (Ann UArrowAppl dom_aVWu stage_aVWv)
cmdApplied :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (Ann UExpr dom_aVWu stage_aVWv) (Ann UExpr dom_aVWu stage_aVWv)
cmdAlts :: forall dom_aVWu stage_aVWv. Partial (Ann UCmd dom_aVWu stage_aVWv) (Ann UCmd dom_aVWu stage_aVWv) (AnnListG UCmdAlt dom_aVWu stage_aVWv) (AnnListG UCmdAlt dom_aVWu stage_aVWv)
patternType :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann UType dom_aUwm stage_aUwn) (Ann UType dom_aUwm stage_aUwn)
patternSumPlaceholdersBefore :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (AnnListG UUnboxedSumPlaceHolder dom_aUwm stage_aUwn) (AnnListG UUnboxedSumPlaceHolder dom_aUwm stage_aUwn)
patternSumPlaceholdersAfter :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (AnnListG UUnboxedSumPlaceHolder dom_aUwm stage_aUwn) (AnnListG UUnboxedSumPlaceHolder dom_aUwm stage_aUwn)
patternSplice :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann USplice dom_aUwm stage_aUwn) (Ann USplice dom_aUwm stage_aUwn)
patternRhs :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn)
patternOperator :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann UOperator dom_aUwm stage_aUwn) (Ann UOperator dom_aUwm stage_aUwn)
patternName :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann UName dom_aUwm stage_aUwn) (Ann UName dom_aUwm stage_aUwn)
patternLiteral :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann ULiteral dom_aUwm stage_aUwn) (Ann ULiteral dom_aUwm stage_aUwn)
patternLit :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann ULiteral dom_aUwm stage_aUwn) (Ann ULiteral dom_aUwm stage_aUwn)
patternLhs :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn)
patternInner :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn)
patternFields :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (AnnListG UPatternField dom_aUwm stage_aUwn) (AnnListG UPatternField dom_aUwm stage_aUwn)
patternExpr :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann UExpr dom_aUwm stage_aUwn) (Ann UExpr dom_aUwm stage_aUwn)
patternElems :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (AnnListG UPattern dom_aUwm stage_aUwn) (AnnListG UPattern dom_aUwm stage_aUwn)
patternArgs :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (AnnListG UPattern dom_aUwm stage_aUwn) (AnnListG UPattern dom_aUwm stage_aUwn)
patQQ :: forall dom_aUwm stage_aUwn. Partial (Ann UPattern dom_aUwm stage_aUwn) (Ann UPattern dom_aUwm stage_aUwn) (Ann UQuasiQuote dom_aUwm stage_aUwn) (Ann UQuasiQuote dom_aUwm stage_aUwn)
fieldPatternWildcard :: forall dom_aUwk stage_aUwl. Partial (Ann UPatternField dom_aUwk stage_aUwl) (Ann UPatternField dom_aUwk stage_aUwl) (Ann UFieldWildcard dom_aUwk stage_aUwl) (Ann UFieldWildcard dom_aUwk stage_aUwl)
fieldPatternName :: forall dom_aUwk stage_aUwl. Partial (Ann UPatternField dom_aUwk stage_aUwl) (Ann UPatternField dom_aUwk stage_aUwl) (Ann UName dom_aUwk stage_aUwl) (Ann UName dom_aUwk stage_aUwl)
fieldPattern :: forall dom_aUwk stage_aUwl. Partial (Ann UPatternField dom_aUwk stage_aUwl) (Ann UPatternField dom_aUwk stage_aUwl) (Ann UPattern dom_aUwk stage_aUwl) (Ann UPattern dom_aUwk stage_aUwl)
spliceId :: forall dom_a16r1 stage_a16r2. Partial (Ann USplice dom_a16r1 stage_a16r2) (Ann USplice dom_a16r1 stage_a16r2) (Ann UName dom_a16r1 stage_a16r2) (Ann UName dom_a16r1 stage_a16r2)
spliceExpr :: forall dom_a16r1 stage_a16r2. Partial (Ann USplice dom_a16r1 stage_a16r2) (Ann USplice dom_a16r1 stage_a16r2) (Ann UExpr dom_a16r1 stage_a16r2) (Ann UExpr dom_a16r1 stage_a16r2)
qqExprName :: forall dom_a16qZ stage_a16r0. Lens (Ann UQuasiQuote dom_a16qZ stage_a16r0) (Ann UQuasiQuote dom_a16qZ stage_a16r0) (Ann UName dom_a16qZ stage_a16r0) (Ann UName dom_a16qZ stage_a16r0)
qqExprBody :: forall dom_a16qZ stage_a16r0. Lens (Ann UQuasiQuote dom_a16qZ stage_a16r0) (Ann UQuasiQuote dom_a16qZ stage_a16r0) (Ann QQString dom_a16qZ stage_a16r0) (Ann QQString dom_a16qZ stage_a16r0)
qqString :: forall dom_a16qX stage_a16qY. Lens (Ann QQString dom_a16qX stage_a16qY) (Ann QQString dom_a16qX stage_a16qY) String String
bracketType :: forall dom_a16qV stage_a16qW. Partial (Ann UBracket dom_a16qV stage_a16qW) (Ann UBracket dom_a16qV stage_a16qW) (Ann UType dom_a16qV stage_a16qW) (Ann UType dom_a16qV stage_a16qW)
bracketPattern :: forall dom_a16qV stage_a16qW. Partial (Ann UBracket dom_a16qV stage_a16qW) (Ann UBracket dom_a16qV stage_a16qW) (Ann UPattern dom_a16qV stage_a16qW) (Ann UPattern dom_a16qV stage_a16qW)
bracketExpr :: forall dom_a16qV stage_a16qW. Partial (Ann UBracket dom_a16qV stage_a16qW) (Ann UBracket dom_a16qV stage_a16qW) (Ann UExpr dom_a16qV stage_a16qW) (Ann UExpr dom_a16qV stage_a16qW)
bracketDecl :: forall dom_a16qV stage_a16qW. Partial (Ann UBracket dom_a16qV stage_a16qW) (Ann UBracket dom_a16qV stage_a16qW) (AnnListG UDecl dom_a16qV stage_a16qW) (AnnListG UDecl dom_a16qV stage_a16qW)
stringLitValue :: forall dom_aaj3 stage_aaj4. Partial (Ann ULiteral dom_aaj3 stage_aaj4) (Ann ULiteral dom_aaj3 stage_aaj4) String String
intLitValue :: forall dom_aaj3 stage_aaj4. Partial (Ann ULiteral dom_aaj3 stage_aaj4) (Ann ULiteral dom_aaj3 stage_aaj4) Integer Integer
fracLitValue :: forall dom_aaj3 stage_aaj4. Partial (Ann ULiteral dom_aaj3 stage_aaj4) (Ann ULiteral dom_aaj3 stage_aaj4) Rational Rational
floatLitValue :: forall dom_aaj3 stage_aaj4. Partial (Ann ULiteral dom_aaj3 stage_aaj4) (Ann ULiteral dom_aaj3 stage_aaj4) Rational Rational
charLitValue :: forall dom_aaj3 stage_aaj4. Partial (Ann ULiteral dom_aaj3 stage_aaj4) (Ann ULiteral dom_aaj3 stage_aaj4) Char Char
promotedStringValue :: forall t_aSxj dom_aSxk stage_aSxl. Partial (Ann (UPromoted t_aSxj) dom_aSxk stage_aSxl) (Ann (UPromoted t_aSxj) dom_aSxk stage_aSxl) String String
promotedIntValue :: forall t_aSxj dom_aSxk stage_aSxl. Partial (Ann (UPromoted t_aSxj) dom_aSxk stage_aSxl) (Ann (UPromoted t_aSxj) dom_aSxk stage_aSxl) Integer Integer
promotedElements :: forall t_aSxj dom_aSxk stage_aSxl t'_a2oKL. Partial (Ann (UPromoted t_aSxj) dom_aSxk stage_aSxl) (Ann (UPromoted t_aSxj) dom_aSxk stage_aSxl) (AnnListG t_aSxj dom_aSxk stage_aSxl) (AnnListG t_aSxj dom_aSxk stage_aSxl)
promotedConName :: forall t_aSxj dom_aSxk stage_aSxl. Partial (Ann (UPromoted t_aSxj) dom_aSxk stage_aSxl) (Ann (UPromoted t_aSxj) dom_aSxk stage_aSxl) (Ann UName dom_aSxk stage_aSxl) (Ann UName dom_aSxk stage_aSxl)
operatorName :: forall dom_aS6L stage_aS6M dom'_a2oUR stage'_a2oUS. Lens (Ann UOperator dom_aS6L stage_aS6M) (Ann UOperator dom_aS6L stage_aS6M) (Ann UQualifiedName dom_aS6L stage_aS6M) (Ann UQualifiedName dom_aS6L stage_aS6M)
simpleName :: forall dom_aS6J stage_aS6K dom'_a2oWr stage'_a2oWs. Lens (Ann UName dom_aS6J stage_aS6K) (Ann UName dom_aS6J stage_aS6K) (Ann UQualifiedName dom_aS6J stage_aS6K) (Ann UQualifiedName dom_aS6J stage_aS6K)
unqualifiedName :: forall dom_aS6H stage_aS6I. Lens (Ann UQualifiedName dom_aS6H stage_aS6I) (Ann UQualifiedName dom_aS6H stage_aS6I) (Ann UNamePart dom_aS6H stage_aS6I) (Ann UNamePart dom_aS6H stage_aS6I)
qualifiers :: forall dom_aS6H stage_aS6I. Lens (Ann UQualifiedName dom_aS6H stage_aS6I) (Ann UQualifiedName dom_aS6H stage_aS6I) (AnnListG UNamePart dom_aS6H stage_aS6I) (AnnListG UNamePart dom_aS6H stage_aS6I)
simpleNameStr :: forall dom_aS6F stage_aS6G. Lens (Ann UNamePart dom_aS6F stage_aS6G) (Ann UNamePart dom_aS6F stage_aS6G) String String
stringNodeStr :: forall dom_aS6D stage_aS6E. Lens (Ann UStringNode dom_aS6D stage_aS6E) (Ann UStringNode dom_aS6D stage_aS6E) String String


-- | Helper functions for using the AST.
module Language.Haskell.Tools.AST.Helpers

-- | Does the import declaration import only the explicitly listed
--   elements?
importIsExact :: Ann UImportDecl dom stage -> Bool

-- | Does the import declaration import all elements that are not excluded
--   explicitly?
importIsHiding :: Ann UImportDecl dom stage -> Bool

-- | Accesses the name of a function or value binding
bindingName :: Simple Traversal (Ann UValueBind dom stage) (Ann UQualifiedName dom stage)

-- | Accesses that name of a declaration through the declaration head.
declHeadNames :: Simple Traversal (Ann UDeclHead dom stage) (Ann UQualifiedName dom stage)

-- | A reference to access type arguments to a type constructor call that
--   may be universally qualified or parenthesized.
typeParams :: Simple Traversal (Ann UType dom stage) (Ann UType dom stage)
valBindPats :: Simple Traversal (Ann UValueBind dom stage) (Ann UPattern dom stage)

-- | Access the semantic information of an AST node.
semantics :: Simple Lens (Ann elem dom stage) (SemanticInfo dom elem)

-- | Get all nodes that contain a given source range
nodesContaining :: (HasRange (inner dom stage), Biplate (node dom stage) (inner dom stage)) => RealSrcSpan -> Simple Traversal (node dom stage) (inner dom stage)

-- | Return true if the node contains a given range
isInside :: HasRange (inner dom stage) => RealSrcSpan -> inner dom stage -> Bool

-- | Get all nodes that are contained in a given source range
nodesContained :: (HasRange (inner dom stage), Biplate (node dom stage) (inner dom stage)) => RealSrcSpan -> Simple Traversal (node dom stage) (inner dom stage)

-- | Return true if the node contains a given range
isContained :: HasRange (inner dom stage) => RealSrcSpan -> inner dom stage -> Bool

-- | Get the nodes that have exactly the given range
nodesWithRange :: (Biplate (Ann node dom stage) (Ann inner dom stage), SourceInfo stage) => RealSrcSpan -> Simple Traversal (Ann node dom stage) (Ann inner dom stage)

-- | Get the shortest source range that contains the given
getNodeContaining :: (Biplate (Ann node dom stage) (Ann inner dom stage), SourceInfo stage, HasRange (Ann inner dom stage)) => RealSrcSpan -> Ann node dom stage -> Maybe (Ann inner dom stage)

-- | Compares two source spans based on their lengths. Can only used for
--   NESTED spans.
compareRangeLength :: SrcSpan -> SrcSpan -> Ordering

-- | A class to access the names of named elements. Have to locate where
--   does the AST element store its name. The returned name will be the one
--   that was marked isDefining.
class NamedElement elem
elementName :: NamedElement elem => Simple Traversal (Ann elem dom st) (Ann UQualifiedName dom st)
inScope :: Name -> Scope -> Bool
instance Language.Haskell.Tools.AST.Helpers.NamedElement Language.Haskell.Tools.AST.Representation.Decls.UDecl
instance Language.Haskell.Tools.AST.Helpers.NamedElement Language.Haskell.Tools.AST.Representation.Binds.ULocalBind


-- | A custom AST representation for Haskell tools. Different layers of the
--   AST are recursive, to separate them into modules we introduced source
--   imports.
module Language.Haskell.Tools.AST

-- | The representation of a haskell module, that is a separate compilation
--   unit. It may or may not have a header.
data UModule dom stage
UModule :: AnnListG UFilePragma dom stage -> AnnMaybeG UModuleHead dom stage -> AnnListG UImportDecl dom stage -> AnnListG UDecl dom stage -> UModule dom stage
[_filePragmas] :: UModule dom stage -> AnnListG UFilePragma dom stage
[_modHead] :: UModule dom stage -> AnnMaybeG UModuleHead dom stage
[_modImports] :: UModule dom stage -> AnnListG UImportDecl dom stage
[_modDecl] :: UModule dom stage -> AnnListG UDecl dom stage

-- | Module declaration with name and (optional) exports
data UModuleHead dom stage
UModuleHead :: Ann UModuleName dom stage -> AnnMaybeG UModulePragma dom stage -> AnnMaybeG UExportSpecs dom stage -> UModuleHead dom stage
[_mhName] :: UModuleHead dom stage -> Ann UModuleName dom stage
[_mhPragma] :: UModuleHead dom stage -> AnnMaybeG UModulePragma dom stage
[_mhExports] :: UModuleHead dom stage -> AnnMaybeG UExportSpecs dom stage

-- | A list of export specifications surrounded by parentheses
data UExportSpecs dom stage
UExportSpecs :: AnnListG UExportSpec dom stage -> UExportSpecs dom stage
[_espExports] :: UExportSpecs dom stage -> AnnListG UExportSpec dom stage

-- | Export specifier
data UExportSpec dom stage

-- | Export a name and related names
UDeclExport :: Ann UIESpec dom stage -> UExportSpec dom stage
[_exportDecl] :: UExportSpec dom stage -> Ann UIESpec dom stage

-- | The export of an imported module (<tt> module A </tt>)
UModuleExport :: Ann UModuleName dom stage -> UExportSpec dom stage
[_exportModuleName] :: UExportSpec dom stage -> Ann UModuleName dom stage

-- | Marks a name to be imported or exported with related names
--   (subspecifier)
data UIESpec dom stage
UIESpec :: AnnMaybeG UImportModifier dom stage -> Ann UName dom stage -> AnnMaybeG USubSpec dom stage -> UIESpec dom stage
[_ieModifier] :: UIESpec dom stage -> AnnMaybeG UImportModifier dom stage
[_ieName] :: UIESpec dom stage -> Ann UName dom stage
[_ieSubspec] :: UIESpec dom stage -> AnnMaybeG USubSpec dom stage

-- | Specifies the imported element
data UImportModifier dom stage

-- | <tt>pattern</tt>: modifier for importing pattern synonyms
UImportPattern :: UImportModifier dom stage

-- | <tt>type</tt>: modifier for importing types
UImportType :: UImportModifier dom stage

-- | Marks how related names will be imported or exported with a given name
data USubSpec dom stage

-- | <tt>(..)</tt>: a class exported with all of its methods, or a datatype
--   exported with all of its constructors.
USubSpecAll :: USubSpec dom stage

-- | <tt>(a,b,c)</tt>: a class exported with some of its methods, or a
--   datatype exported with some of its constructors.
USubSpecList :: AnnListG UName dom stage -> USubSpec dom stage
[_essList] :: USubSpec dom stage -> AnnListG UName dom stage

-- | Pragmas that must be used before defining the module
data UFilePragma dom stage

-- | <tt>LANGUAGE</tt> pragma, listing the enabled language extensions in
--   that file
ULanguagePragma :: AnnListG ULanguageExtension dom stage -> UFilePragma dom stage
[_lpPragmas] :: UFilePragma dom stage -> AnnListG ULanguageExtension dom stage

-- | <tt>OPTIONS</tt> pragma, possibly qualified with a tool, e.g.
--   OPTIONS_GHC
UOptionsPragma :: Ann UStringNode dom stage -> UFilePragma dom stage
[_opStr] :: UFilePragma dom stage -> Ann UStringNode dom stage

-- | Pragmas that must be used after the module head
data UModulePragma dom stage

-- | A warning pragma attached to the module
UModuleWarningPragma :: AnnListG UStringNode dom stage -> UModulePragma dom stage
[_modWarningStr] :: UModulePragma dom stage -> AnnListG UStringNode dom stage

-- | A deprecated pragma attached to the module
UModuleDeprecatedPragma :: AnnListG UStringNode dom stage -> UModulePragma dom stage
[_modDeprecatedPragma] :: UModulePragma dom stage -> AnnListG UStringNode dom stage

-- | The name of the enabled language extension, for example (<tt>
--   LambdaCase </tt>)
data ULanguageExtension dom stage
ULanguageExtension :: String -> ULanguageExtension dom stage
[_langExt] :: ULanguageExtension dom stage -> String

-- | An import declaration: <tt>import Module.Name</tt>
data UImportDecl dom stage
UImportDecl :: AnnMaybeG UImportSource dom stage -> AnnMaybeG UImportQualified dom stage -> AnnMaybeG UImportSafe dom stage -> AnnMaybeG UStringNode dom stage -> Ann UModuleName dom stage -> AnnMaybeG UImportRenaming dom stage -> AnnMaybeG UImportSpec dom stage -> UImportDecl dom stage
[_importSource] :: UImportDecl dom stage -> AnnMaybeG UImportSource dom stage
[_importQualified] :: UImportDecl dom stage -> AnnMaybeG UImportQualified dom stage
[_importSafe] :: UImportDecl dom stage -> AnnMaybeG UImportSafe dom stage
[_importPkg] :: UImportDecl dom stage -> AnnMaybeG UStringNode dom stage
[_importModule] :: UImportDecl dom stage -> Ann UModuleName dom stage
[_importAs] :: UImportDecl dom stage -> AnnMaybeG UImportRenaming dom stage
[_importSpec] :: UImportDecl dom stage -> AnnMaybeG UImportSpec dom stage

-- | Restriction on the imported names
data UImportSpec dom stage

-- | Restrict the import definition to ONLY import the listed names
UImportSpecList :: AnnListG UIESpec dom stage -> UImportSpec dom stage
[_importSpecList] :: UImportSpec dom stage -> AnnListG UIESpec dom stage

-- | Restrict the import definition to DONT import the listed names
UImportSpecHiding :: AnnListG UIESpec dom stage -> UImportSpec dom stage
[_importSpecHiding] :: UImportSpec dom stage -> AnnListG UIESpec dom stage

-- | Marks the import as qualified: <tt>qualified</tt>
data UImportQualified dom stage
UImportQualified :: UImportQualified dom stage

-- | Marks the import as source: <tt>{--}</tt>
data UImportSource dom stage
UImportSource :: UImportSource dom stage

-- | Marks the import as safe: <tt>safe</tt>
data UImportSafe dom stage
UImportSafe :: UImportSafe dom stage

-- | Marks an imported name to belong to the type namespace: <tt>type</tt>
data UTypeNamespace dom stage
UTypeNamespace :: UTypeNamespace dom stage

-- | Renaming imports (<tt> as A </tt>)
data UImportRenaming dom stage
UImportRenaming :: Ann UModuleName dom stage -> UImportRenaming dom stage
[_importRename] :: UImportRenaming dom stage -> Ann UModuleName dom stage

-- | The name of a module
data UModuleName dom stage
UModuleName :: String -> UModuleName dom stage
[_moduleNameString] :: UModuleName dom stage -> String

-- | The <tt>type</tt> keyword used to qualify that the type and not the
--   constructor of the same name is referred
data TypeKeyword dom stage
TypeKeyword :: TypeKeyword dom stage

-- | A template haskell splice
data USplice dom stage

-- | A simple name splice: <tt>$generateX</tt>
UIdSplice :: Ann UName dom stage -> USplice dom stage
[_spliceId] :: USplice dom stage -> Ann UName dom stage

-- | A splice with parentheses: <tt>$(generate input)</tt>
UParenSplice :: Ann UExpr dom stage -> USplice dom stage
[_spliceExpr] :: USplice dom stage -> Ann UExpr dom stage

-- | Template haskell quasi-quotation: <tt>[quoter|str]</tt>
data UQuasiQuote dom stage
UQuasiQuote :: Ann UName dom stage -> Ann QQString dom stage -> UQuasiQuote dom stage
[_qqExprName] :: UQuasiQuote dom stage -> Ann UName dom stage
[_qqExprBody] :: UQuasiQuote dom stage -> Ann QQString dom stage

-- | Template Haskell Quasi-quotation content
data QQString dom stage
QQString :: String -> QQString dom stage
[_qqString] :: QQString dom stage -> String

-- | Template Haskell bracket expressions
data UBracket dom stage

-- | Expression bracket (<tt> [| x + y |] </tt>)
UExprBracket :: Ann UExpr dom stage -> UBracket dom stage
[_bracketExpr] :: UBracket dom stage -> Ann UExpr dom stage

-- | Pattern bracket (<tt> [p| Point x y |] </tt>)
UPatternBracket :: Ann UPattern dom stage -> UBracket dom stage
[_bracketPattern] :: UBracket dom stage -> Ann UPattern dom stage

-- | Type bracket (<tt> [t| (Int,Int) |] </tt>)
UTypeBracket :: Ann UType dom stage -> UBracket dom stage
[_bracketType] :: UBracket dom stage -> Ann UType dom stage

-- | Declaration bracket (<tt> [d| f :: Int -&gt; Int; f x = x*x |] </tt>)
UDeclsBracket :: AnnListG UDecl dom stage -> UBracket dom stage
[_bracketDecl] :: UBracket dom stage -> AnnListG UDecl dom stage

-- | Haskell declarationw
data UDecl dom stage

-- | A type synonym ( <tt>type String = [Char]</tt> )
UTypeDecl :: Ann UDeclHead dom stage -> Ann UType dom stage -> UDecl dom stage
[_declHead] :: UDecl dom stage -> Ann UDeclHead dom stage
[_declType] :: UDecl dom stage -> Ann UType dom stage

-- | A type family declaration ( <tt>type family F x</tt> )
UTypeFamilyDecl :: Ann UTypeFamily dom stage -> UDecl dom stage
[_declTypeFamily] :: UDecl dom stage -> Ann UTypeFamily dom stage

-- | A closed type family declaration
UClosedTypeFamilyDecl :: Ann UDeclHead dom stage -> AnnMaybeG UTypeFamilySpec dom stage -> AnnListG UTypeEqn dom stage -> UDecl dom stage
[_declHead] :: UDecl dom stage -> Ann UDeclHead dom stage
[_declSpec] :: UDecl dom stage -> AnnMaybeG UTypeFamilySpec dom stage

-- | cannot be empty
[_declDecl] :: UDecl dom stage -> AnnListG UTypeEqn dom stage

-- | A data or newtype declaration. Empty data type declarations without
--   where keyword are always belong to DataDecl.
UDataDecl :: Ann UDataOrNewtypeKeyword dom stage -> AnnMaybeG UContext dom stage -> Ann UDeclHead dom stage -> AnnListG UConDecl dom stage -> AnnListG UDeriving dom stage -> UDecl dom stage
[_declNewtype] :: UDecl dom stage -> Ann UDataOrNewtypeKeyword dom stage
[_declCtx] :: UDecl dom stage -> AnnMaybeG UContext dom stage
[_declHead] :: UDecl dom stage -> Ann UDeclHead dom stage
[_declCons] :: UDecl dom stage -> AnnListG UConDecl dom stage
[_declDeriving] :: UDecl dom stage -> AnnListG UDeriving dom stage

-- | A GADT-style data or newtype declaration.
UGDataDecl :: Ann UDataOrNewtypeKeyword dom stage -> AnnMaybeG UContext dom stage -> Ann UDeclHead dom stage -> AnnMaybeG UKindConstraint dom stage -> AnnListG UGadtConDecl dom stage -> AnnListG UDeriving dom stage -> UDecl dom stage
[_declNewtype] :: UDecl dom stage -> Ann UDataOrNewtypeKeyword dom stage
[_declCtx] :: UDecl dom stage -> AnnMaybeG UContext dom stage
[_declHead] :: UDecl dom stage -> Ann UDeclHead dom stage
[_declKind] :: UDecl dom stage -> AnnMaybeG UKindConstraint dom stage
[_declGadt] :: UDecl dom stage -> AnnListG UGadtConDecl dom stage
[_declDeriving] :: UDecl dom stage -> AnnListG UDeriving dom stage

-- | Type family instance declaration (<tt> type instance Fam T = AssignedT
--   </tt>)
UTypeInstDecl :: Ann UInstanceRule dom stage -> Ann UType dom stage -> UDecl dom stage
[_declInstance] :: UDecl dom stage -> Ann UInstanceRule dom stage
[_declAssignedType] :: UDecl dom stage -> Ann UType dom stage

-- | Data instance declaration (<tt> data instance Fam T = Con1 | Con2
--   </tt>)
UDataInstDecl :: Ann UDataOrNewtypeKeyword dom stage -> Ann UInstanceRule dom stage -> AnnListG UConDecl dom stage -> AnnListG UDeriving dom stage -> UDecl dom stage
[_declNewtype] :: UDecl dom stage -> Ann UDataOrNewtypeKeyword dom stage
[_declInstance] :: UDecl dom stage -> Ann UInstanceRule dom stage
[_declCons] :: UDecl dom stage -> AnnListG UConDecl dom stage
[_declDeriving] :: UDecl dom stage -> AnnListG UDeriving dom stage

-- | GADT-style data instance declaration (<tt> data instance Fam T where
--   ... </tt>)
UGDataInstDecl :: Ann UDataOrNewtypeKeyword dom stage -> Ann UInstanceRule dom stage -> AnnMaybeG UKindConstraint dom stage -> AnnListG UGadtConDecl dom stage -> UDecl dom stage
[_declNewtype] :: UDecl dom stage -> Ann UDataOrNewtypeKeyword dom stage
[_declInstance] :: UDecl dom stage -> Ann UInstanceRule dom stage
[_declKind] :: UDecl dom stage -> AnnMaybeG UKindConstraint dom stage
[_declGadt] :: UDecl dom stage -> AnnListG UGadtConDecl dom stage

-- | Type class declaration (<tt> class X a [where f = ...] </tt>)
UClassDecl :: AnnMaybeG UContext dom stage -> Ann UDeclHead dom stage -> AnnMaybeG UFunDeps dom stage -> AnnMaybeG UClassBody dom stage -> UDecl dom stage
[_declCtx] :: UDecl dom stage -> AnnMaybeG UContext dom stage
[_declHead] :: UDecl dom stage -> Ann UDeclHead dom stage
[_declFunDeps] :: UDecl dom stage -> AnnMaybeG UFunDeps dom stage
[_declBody] :: UDecl dom stage -> AnnMaybeG UClassBody dom stage

-- | Instance declaration (<tt> instance X T [where f = ...] </tt>)
UInstDecl :: AnnMaybeG UOverlapPragma dom stage -> Ann UInstanceRule dom stage -> AnnMaybeG UInstBody dom stage -> UDecl dom stage
[_declOverlap] :: UDecl dom stage -> AnnMaybeG UOverlapPragma dom stage
[_declInstRule] :: UDecl dom stage -> Ann UInstanceRule dom stage
[_declInstDecl] :: UDecl dom stage -> AnnMaybeG UInstBody dom stage

-- | Pattern synonyms (<tt> pattern Arrow t1 t2 = App "-&gt;" [t1, t2]
--   </tt>)
UPatternSynonymDecl :: Ann UPatternSynonym dom stage -> UDecl dom stage
[_declPatSyn] :: UDecl dom stage -> Ann UPatternSynonym dom stage

-- | Standalone deriving declaration (<tt> deriving instance X T </tt>)
UDerivDecl :: AnnMaybeG UDeriveStrategy dom stage -> AnnMaybeG UOverlapPragma dom stage -> Ann UInstanceRule dom stage -> UDecl dom stage
[_declDerivStrat] :: UDecl dom stage -> AnnMaybeG UDeriveStrategy dom stage
[_declOverlap] :: UDecl dom stage -> AnnMaybeG UOverlapPragma dom stage
[_declInstRule] :: UDecl dom stage -> Ann UInstanceRule dom stage

-- | Fixity declaration (<tt> infixl 5 +, - </tt>)
UFixityDecl :: Ann UFixitySignature dom stage -> UDecl dom stage
[_declFixity] :: UDecl dom stage -> Ann UFixitySignature dom stage

-- | Default types (<tt> default (T1, T2) </tt>)
UDefaultDecl :: AnnListG UType dom stage -> UDecl dom stage
[_declTypes] :: UDecl dom stage -> AnnListG UType dom stage

-- | Type signature declaration (<tt> f :: Int -&gt; Int </tt>)
UTypeSigDecl :: Ann UTypeSignature dom stage -> UDecl dom stage
[_declTypeSig] :: UDecl dom stage -> Ann UTypeSignature dom stage

-- | Pattern type signature declaration (<tt> pattern Succ :: Int -&gt; Int
--   </tt>)
UPatTypeSigDecl :: Ann UPatternTypeSignature dom stage -> UDecl dom stage
[_declPatTypeSig] :: UDecl dom stage -> Ann UPatternTypeSignature dom stage

-- | Function or value binding (<tt> f x = 12 </tt>)
UValueBinding :: Ann UValueBind dom stage -> UDecl dom stage
[_declValBind] :: UDecl dom stage -> Ann UValueBind dom stage

-- | Foreign import (<tt> foreign import _foo :: Int -&gt; IO Int </tt>)
UForeignImport :: Ann UCallConv dom stage -> AnnMaybeG USafety dom stage -> Ann UName dom stage -> Ann UType dom stage -> UDecl dom stage
[_declCallConv] :: UDecl dom stage -> Ann UCallConv dom stage
[_declSafety] :: UDecl dom stage -> AnnMaybeG USafety dom stage
[_declName] :: UDecl dom stage -> Ann UName dom stage
[_declForeignType] :: UDecl dom stage -> Ann UType dom stage

-- | Foreign export (<tt> foreign export ccall _foo :: Int -&gt; IO Int
--   </tt>)
UForeignExport :: Ann UCallConv dom stage -> Ann UName dom stage -> Ann UType dom stage -> UDecl dom stage
[_declCallConv] :: UDecl dom stage -> Ann UCallConv dom stage
[_declName] :: UDecl dom stage -> Ann UName dom stage
[_declForeignType] :: UDecl dom stage -> Ann UType dom stage

-- | Top-level pragmas
UPragmaDecl :: Ann UTopLevelPragma dom stage -> UDecl dom stage
[_declPragma] :: UDecl dom stage -> Ann UTopLevelPragma dom stage

-- | Role annotations (<tt> type role Ptr representational </tt>)
URoleDecl :: Ann UQualifiedName dom stage -> AnnListG URole dom stage -> UDecl dom stage
[_declRoleType] :: UDecl dom stage -> Ann UQualifiedName dom stage
[_declRoles] :: UDecl dom stage -> AnnListG URole dom stage

-- | A Template Haskell splice declaration (<tt> $(generateDecls) </tt>)
USpliceDecl :: Ann USplice dom stage -> UDecl dom stage
[_declSplice] :: UDecl dom stage -> Ann USplice dom stage
data UDeclHead dom stage

-- | Type or class name
UDeclHead :: Ann UName dom stage -> UDeclHead dom stage
[_dhName] :: UDeclHead dom stage -> Ann UName dom stage

-- | Parenthesized type
UDHParen :: Ann UDeclHead dom stage -> UDeclHead dom stage
[_dhBody] :: UDeclHead dom stage -> Ann UDeclHead dom stage

-- | Type application
UDHApp :: Ann UDeclHead dom stage -> Ann UTyVar dom stage -> UDeclHead dom stage
[_dhAppFun] :: UDeclHead dom stage -> Ann UDeclHead dom stage
[_dhAppOperand] :: UDeclHead dom stage -> Ann UTyVar dom stage

-- | Infix application of the type/class name to the left operand
UDHInfix :: Ann UTyVar dom stage -> Ann UOperator dom stage -> Ann UTyVar dom stage -> UDeclHead dom stage
[_dhLeft] :: UDeclHead dom stage -> Ann UTyVar dom stage
[_dhOperator] :: UDeclHead dom stage -> Ann UOperator dom stage
[_dhRight] :: UDeclHead dom stage -> Ann UTyVar dom stage

-- | The list of declarations that can appear in a typeclass
data UClassBody dom stage
UClassBody :: AnnListG UClassElement dom stage -> UClassBody dom stage
[_cbElements] :: UClassBody dom stage -> AnnListG UClassElement dom stage

-- | Members of a class declaration
data UClassElement dom stage

-- | Signature: <tt> f :: A -&gt; B </tt>
UClsSig :: Ann UTypeSignature dom stage -> UClassElement dom stage
[_ceTypeSig] :: UClassElement dom stage -> Ann UTypeSignature dom stage

-- | Fixity signature in class: <tt> infixl 1 &gt;&gt;- </tt>
UClsFixity :: Ann UFixitySignature dom stage -> UClassElement dom stage
[_clsFixity] :: UClassElement dom stage -> Ann UFixitySignature dom stage

-- | Default binding: <tt> f x = "aaa" </tt>
UClsDef :: Ann UValueBind dom stage -> UClassElement dom stage
[_ceBind] :: UClassElement dom stage -> Ann UValueBind dom stage

-- | Declaration of an associated type synonym: <tt> type T x :: * </tt>
UClsTypeFam :: Ann UTypeFamily dom stage -> UClassElement dom stage
[_ceTypeFam] :: UClassElement dom stage -> Ann UTypeFamily dom stage

-- | Default choice for type synonym: <tt> type T x = TE </tt> or <tt> type
--   instance T x = TE </tt>
UClsTypeDef :: Ann UDeclHead dom stage -> Ann UType dom stage -> UClassElement dom stage
[_ceHead] :: UClassElement dom stage -> Ann UDeclHead dom stage
[_ceKind] :: UClassElement dom stage -> Ann UType dom stage

-- | Default signature (by using <tt>DefaultSignatures</tt>): <tt> default
--   _enum :: (Generic a, GEnum (Rep a)) =&gt; [a] </tt>
UClsDefSig :: Ann UName dom stage -> Ann UType dom stage -> UClassElement dom stage
[_ceName] :: UClassElement dom stage -> Ann UName dom stage
[_ceType] :: UClassElement dom stage -> Ann UType dom stage

-- | Minimal pragma: <tt> {--} </tt>
UClsMinimal :: Ann UMinimalFormula dom stage -> UClassElement dom stage
[_pragmaFormula] :: UClassElement dom stage -> Ann UMinimalFormula dom stage

-- | Inline-like pragma in class definition not supported yet (GHC 8.0.1) |
--   UClsPatSig { _cePatSig :: Ann UPatternTypeSignature dom stage } -- ^
--   Pattern signature in a class declaration (by using
--   <tt>PatternSynonyms</tt>)
UClsInline :: Ann UInlinePragma dom stage -> UClassElement dom stage
[_clsInline] :: UClassElement dom stage -> Ann UInlinePragma dom stage

-- | The instance declaration rule, which is, roughly, the part of the
--   instance declaration before the where keyword.
data UInstanceRule dom stage

-- | Instance head as an instance rule (<tt> X a =&gt; Y a </tt>)
UInstanceRule :: AnnMaybeG (AnnListG UTyVar) dom stage -> AnnMaybeG UContext dom stage -> Ann UInstanceHead dom stage -> UInstanceRule dom stage
[_irVars] :: UInstanceRule dom stage -> AnnMaybeG (AnnListG UTyVar) dom stage
[_irCtx] :: UInstanceRule dom stage -> AnnMaybeG UContext dom stage
[_irHead] :: UInstanceRule dom stage -> Ann UInstanceHead dom stage

-- | The specification of the class instance declaration
data UInstanceHead dom stage

-- | Type or class name
UInstanceHeadCon :: Ann UName dom stage -> UInstanceHead dom stage
[_ihConName] :: UInstanceHead dom stage -> Ann UName dom stage

-- | Infix application of the type/class name to the left operand
UInstanceHeadInfix :: Ann UType dom stage -> Ann UOperator dom stage -> UInstanceHead dom stage
[_ihLeftOp] :: UInstanceHead dom stage -> Ann UType dom stage
[_ihOperator] :: UInstanceHead dom stage -> Ann UOperator dom stage

-- | Parenthesized instance head
UInstanceHeadParen :: Ann UInstanceHead dom stage -> UInstanceHead dom stage
[_ihHead] :: UInstanceHead dom stage -> Ann UInstanceHead dom stage

-- | Application to one more type
UInstanceHeadApp :: Ann UInstanceHead dom stage -> Ann UType dom stage -> UInstanceHead dom stage
[_ihFun] :: UInstanceHead dom stage -> Ann UInstanceHead dom stage
[_ihType] :: UInstanceHead dom stage -> Ann UType dom stage

-- | Instance body is the implementation of the class functions (<tt> where
--   a x = 1; b x = 2 </tt>)
data UInstBody dom stage
UInstBody :: AnnListG UInstBodyDecl dom stage -> UInstBody dom stage
[_instBodyDecls] :: UInstBody dom stage -> AnnListG UInstBodyDecl dom stage

-- | Declarations inside an instance declaration.
data UInstBodyDecl dom stage

-- | A normal value binding (<tt> f x = 12 </tt>)
UInstBodyNormalDecl :: Ann UValueBind dom stage -> UInstBodyDecl dom stage
[_instBodyDeclFunbind] :: UInstBodyDecl dom stage -> Ann UValueBind dom stage

-- | Type signature in instance definition with <tt>InstanceSigs</tt>
UInstBodyTypeSig :: Ann UTypeSignature dom stage -> UInstBodyDecl dom stage
[_instBodyTypeSig] :: UInstBodyDecl dom stage -> Ann UTypeSignature dom stage

-- | An associated type definition (<tt> type A X = B </tt>)
UInstBodyTypeDecl :: Ann UTypeEqn dom stage -> UInstBodyDecl dom stage
[_instBodyTypeEqn] :: UInstBodyDecl dom stage -> Ann UTypeEqn dom stage

-- | An associated data type implementation (<tt> data A X = C1 | C2 </tt>)
UInstBodyDataDecl :: Ann UDataOrNewtypeKeyword dom stage -> Ann UInstanceRule dom stage -> AnnListG UConDecl dom stage -> AnnListG UDeriving dom stage -> UInstBodyDecl dom stage
[_instBodyDataNew] :: UInstBodyDecl dom stage -> Ann UDataOrNewtypeKeyword dom stage
[_instBodyLhsType] :: UInstBodyDecl dom stage -> Ann UInstanceRule dom stage
[_instBodyDataCons] :: UInstBodyDecl dom stage -> AnnListG UConDecl dom stage
[_instBodyDerivings] :: UInstBodyDecl dom stage -> AnnListG UDeriving dom stage

-- | An associated data type implemented using GADT style
UInstBodyGadtDataDecl :: Ann UDataOrNewtypeKeyword dom stage -> Ann UInstanceRule dom stage -> AnnMaybeG UKindConstraint dom stage -> AnnListG UGadtConDecl dom stage -> AnnListG UDeriving dom stage -> UInstBodyDecl dom stage
[_instBodyDataNew] :: UInstBodyDecl dom stage -> Ann UDataOrNewtypeKeyword dom stage
[_instBodyLhsType] :: UInstBodyDecl dom stage -> Ann UInstanceRule dom stage
[_instBodyDataKind] :: UInstBodyDecl dom stage -> AnnMaybeG UKindConstraint dom stage
[_instBodyGadtCons] :: UInstBodyDecl dom stage -> AnnListG UGadtConDecl dom stage
[_instBodyDerivings] :: UInstBodyDecl dom stage -> AnnListG UDeriving dom stage

-- | Specialize instance pragma (no phase selection is allowed)
USpecializeInstance :: Ann UType dom stage -> UInstBodyDecl dom stage
[_specializeInstanceType] :: UInstBodyDecl dom stage -> Ann UType dom stage

-- | Inline-like pragma in a class instance
UInlineInstance :: Ann UInlinePragma dom stage -> UInstBodyDecl dom stage
[_instanceInline] :: UInstBodyDecl dom stage -> Ann UInlinePragma dom stage

-- | Specialize pragma not supported yet | UInstBodyPatSyn {
--   _instBodyPatSyn :: Ann UPatternSynonym dom stage } -- ^ A pattern
--   synonym in a class instance
UInstanceSpecialize :: Ann USpecializePragma dom stage -> UInstBodyDecl dom stage
[_specializeInstance] :: UInstBodyDecl dom stage -> Ann USpecializePragma dom stage

-- | Overlap pragmas. Can be applied to class declarations and class
--   instance declarations.
data UOverlapPragma dom stage

-- | <tt>OVERLAP</tt> pragma
UEnableOverlap :: UOverlapPragma dom stage

-- | <tt>NO_OVERLAP</tt> pragma
UDisableOverlap :: UOverlapPragma dom stage

-- | <tt>OVERLAPPABLE</tt> pragma
UOverlappable :: UOverlapPragma dom stage

-- | <tt>OVERLAPPING</tt> pragma
UOverlapping :: UOverlapPragma dom stage

-- | <tt>OVERLAPS</tt> pragma
UOverlaps :: UOverlapPragma dom stage

-- | <tt>INCOHERENT</tt> pragma
UIncoherentOverlap :: UOverlapPragma dom stage

-- | Open type and data families
data UTypeFamily dom stage

-- | Type family declaration (<tt> type family A a :: * -&gt; * </tt>)
UTypeFamily :: Ann UDeclHead dom stage -> AnnMaybeG UTypeFamilySpec dom stage -> UTypeFamily dom stage
[_tfHead] :: UTypeFamily dom stage -> Ann UDeclHead dom stage
[_tfSpec] :: UTypeFamily dom stage -> AnnMaybeG UTypeFamilySpec dom stage

-- | Data family declaration (<tt> data family A a :: * -&gt; * </tt>)
UDataFamily :: Ann UDeclHead dom stage -> AnnMaybeG UKindConstraint dom stage -> UTypeFamily dom stage
[_tfHead] :: UTypeFamily dom stage -> Ann UDeclHead dom stage
[_tfKind] :: UTypeFamily dom stage -> AnnMaybeG UKindConstraint dom stage

-- | Type family specification with kinds specification and injectivity.
data UTypeFamilySpec dom stage

-- | Specifies the kind of a type family (<tt> :: * -&gt; * </tt>)
UTypeFamilyKind :: Ann UKindConstraint dom stage -> UTypeFamilySpec dom stage
[_tfSpecKind] :: UTypeFamilySpec dom stage -> Ann UKindConstraint dom stage

-- | Specifies the kind of a type family (<tt> = t :: * -&gt; * </tt>)
UTypeFamilyTyVar :: Ann UTyVar dom stage -> UTypeFamilySpec dom stage
[_tfTypeVar] :: UTypeFamilySpec dom stage -> Ann UTyVar dom stage

-- | Specifies the injectivity of a type family (<tt> = r | r -&gt; a
--   </tt>)
UTypeFamilyInjectivity :: Ann UInjectivityAnn dom stage -> UTypeFamilySpec dom stage
[_tfInjectivity] :: UTypeFamilySpec dom stage -> Ann UInjectivityAnn dom stage

-- | Injectivity annotation for type families (<tt> = r | r -&gt; a </tt>)
data UInjectivityAnn dom stage
UInjectivityAnn :: Ann UTyVar dom stage -> AnnListG UName dom stage -> UInjectivityAnn dom stage
[_injAnnRes] :: UInjectivityAnn dom stage -> Ann UTyVar dom stage
[_injAnnDeps] :: UInjectivityAnn dom stage -> AnnListG UName dom stage

-- | Type equations as found in closed type families (<tt> T A = S </tt>)
data UTypeEqn dom stage
UTypeEqn :: Ann UType dom stage -> Ann UType dom stage -> UTypeEqn dom stage
[_teLhs] :: UTypeEqn dom stage -> Ann UType dom stage
[_teRhs] :: UTypeEqn dom stage -> Ann UType dom stage

-- | GADT constructor declaration (<tt> D1 :: { val :: Int } -&gt; T String
--   </tt>)
data UGadtConDecl dom stage
UGadtConDecl :: AnnListG UName dom stage -> AnnListG UTyVar dom stage -> AnnMaybeG UContext dom stage -> Ann UGadtConType dom stage -> UGadtConDecl dom stage
[_gadtConNames] :: UGadtConDecl dom stage -> AnnListG UName dom stage
[_gadtConTypeArgs] :: UGadtConDecl dom stage -> AnnListG UTyVar dom stage
[_gadtConTypeCtx] :: UGadtConDecl dom stage -> AnnMaybeG UContext dom stage
[_gadtConType] :: UGadtConDecl dom stage -> Ann UGadtConType dom stage

-- | The <tt>data</tt> or the <tt>newtype</tt> keyword to define ADTs.
data UDataOrNewtypeKeyword dom stage
UDataKeyword :: UDataOrNewtypeKeyword dom stage
UNewtypeKeyword :: UDataOrNewtypeKeyword dom stage

-- | Type of GADT constructors (can be record types: <tt>{ val :: Int
--   }</tt>)
data UGadtConType dom stage
UGadtNormalType :: Ann UType dom stage -> UGadtConType dom stage
[_gadtConNormalType] :: UGadtConType dom stage -> Ann UType dom stage
UGadtRecordType :: AnnListG UFieldDecl dom stage -> Ann UType dom stage -> UGadtConType dom stage
[_gadtConRecordFields] :: UGadtConType dom stage -> AnnListG UFieldDecl dom stage
[_gadtConResultType] :: UGadtConType dom stage -> Ann UType dom stage

-- | A list of functional dependencies: <tt> | a -&gt; b, c -&gt; d </tt>
--   separated by commas
data UFunDeps dom stage
UFunDeps :: AnnListG UFunDep dom stage -> UFunDeps dom stage
[_funDeps] :: UFunDeps dom stage -> AnnListG UFunDep dom stage

-- | A functional dependency, given on the form <tt>l1 ... ln -&gt; r1 ...
--   rn</tt>
data UFunDep dom stage
UFunDep :: AnnListG UName dom stage -> AnnListG UName dom stage -> UFunDep dom stage
[_funDepLhs] :: UFunDep dom stage -> AnnListG UName dom stage
[_funDepRhs] :: UFunDep dom stage -> AnnListG UName dom stage

-- | A constructor declaration for a datatype
data UConDecl dom stage

-- | Ordinary data constructor (<tt> C t1 t2 </tt>)
UConDecl :: AnnListG UTyVar dom stage -> AnnMaybeG UContext dom stage -> Ann UName dom stage -> AnnListG UType dom stage -> UConDecl dom stage
[_conTypeArgs] :: UConDecl dom stage -> AnnListG UTyVar dom stage
[_conTypeCtx] :: UConDecl dom stage -> AnnMaybeG UContext dom stage
[_conDeclName] :: UConDecl dom stage -> Ann UName dom stage
[_conDeclArgs] :: UConDecl dom stage -> AnnListG UType dom stage

-- | Record data constructor (<tt> C { _n1 :: t1, _n2 :: t2 } </tt>)
URecordDecl :: AnnListG UTyVar dom stage -> AnnMaybeG UContext dom stage -> Ann UName dom stage -> AnnListG UFieldDecl dom stage -> UConDecl dom stage
[_conTypeArgs] :: UConDecl dom stage -> AnnListG UTyVar dom stage
[_conTypeCtx] :: UConDecl dom stage -> AnnMaybeG UContext dom stage
[_conDeclName] :: UConDecl dom stage -> Ann UName dom stage
[_conDeclFields] :: UConDecl dom stage -> AnnListG UFieldDecl dom stage

-- | Infix data constructor (<tt> t1 :+: t2 </tt>)
UInfixConDecl :: AnnListG UTyVar dom stage -> AnnMaybeG UContext dom stage -> Ann UType dom stage -> Ann UOperator dom stage -> Ann UType dom stage -> UConDecl dom stage
[_conTypeArgs] :: UConDecl dom stage -> AnnListG UTyVar dom stage
[_conTypeCtx] :: UConDecl dom stage -> AnnMaybeG UContext dom stage
[_conDeclLhs] :: UConDecl dom stage -> Ann UType dom stage
[_conDeclOp] :: UConDecl dom stage -> Ann UOperator dom stage
[_conDeclRhs] :: UConDecl dom stage -> Ann UType dom stage

-- | Field declaration (<tt> fld :: Int </tt>)
data UFieldDecl dom stage
UFieldDecl :: AnnListG UName dom stage -> Ann UType dom stage -> UFieldDecl dom stage
[_fieldNames] :: UFieldDecl dom stage -> AnnListG UName dom stage
[_fieldType] :: UFieldDecl dom stage -> Ann UType dom stage

-- | A deriving clause following a data type declaration. (<tt> deriving
--   Show </tt> or <tt> deriving (Show, Eq) </tt>)
data UDeriving dom stage
UDerivingOne :: AnnMaybeG UDeriveStrategy dom stage -> Ann UInstanceHead dom stage -> UDeriving dom stage
[_deriveStrategy] :: UDeriving dom stage -> AnnMaybeG UDeriveStrategy dom stage
[_oneDerived] :: UDeriving dom stage -> Ann UInstanceHead dom stage
UDerivings :: AnnMaybeG UDeriveStrategy dom stage -> AnnListG UInstanceHead dom stage -> UDeriving dom stage
[_deriveStrategy] :: UDeriving dom stage -> AnnMaybeG UDeriveStrategy dom stage
[_allDerived] :: UDeriving dom stage -> AnnListG UInstanceHead dom stage
data UDeriveStrategy dom stage
UStockStrategy :: UDeriveStrategy dom stage
UAnyClassStrategy :: UDeriveStrategy dom stage
UNewtypeStrategy :: UDeriveStrategy dom stage

-- | Pattern type signature declaration (<tt> pattern Succ :: Int -&gt; Int
--   </tt>)
data UPatternTypeSignature dom stage
UPatternTypeSignature :: AnnListG UName dom stage -> Ann UType dom stage -> UPatternTypeSignature dom stage
[_patSigName] :: UPatternTypeSignature dom stage -> AnnListG UName dom stage
[_patSigType] :: UPatternTypeSignature dom stage -> Ann UType dom stage

-- | Pattern synonyms: <tt> pattern Arrow t1 t2 = App "-&gt;" [t1, t2]
--   </tt>
data UPatternSynonym dom stage
UPatternSynonym :: Ann UPatSynLhs dom stage -> Ann UPatSynRhs dom stage -> UPatternSynonym dom stage
[_patLhs] :: UPatternSynonym dom stage -> Ann UPatSynLhs dom stage
[_patRhs] :: UPatternSynonym dom stage -> Ann UPatSynRhs dom stage

-- | Left hand side of a pattern synonym
data UPatSynLhs dom stage

-- | A left hand side with a constructor name and arguments (<tt> Arrow t1
--   t2 </tt>)
UNormalPatSyn :: Ann UName dom stage -> AnnListG UName dom stage -> UPatSynLhs dom stage
[_patName] :: UPatSynLhs dom stage -> Ann UName dom stage
[_patArgs] :: UPatSynLhs dom stage -> AnnListG UName dom stage

-- | An infix pattern synonym left-hand side (<tt> t1 :+: t2 </tt>)
UInfixPatSyn :: Ann UName dom stage -> Ann UOperator dom stage -> Ann UName dom stage -> UPatSynLhs dom stage
[_patSynLhs] :: UPatSynLhs dom stage -> Ann UName dom stage
[_patSynOp] :: UPatSynLhs dom stage -> Ann UOperator dom stage
[_patSynRhs] :: UPatSynLhs dom stage -> Ann UName dom stage

-- | A record-style pattern synonym left-hand side (<tt> Arrow { arrowFrom,
--   arrowTo } </tt>)
URecordPatSyn :: Ann UName dom stage -> AnnListG UName dom stage -> UPatSynLhs dom stage
[_patName] :: UPatSynLhs dom stage -> Ann UName dom stage
[_patArgs] :: UPatSynLhs dom stage -> AnnListG UName dom stage

-- | Right-hand side of pattern synonym
data UPatSynRhs dom stage

-- | <tt> pattern Int = App <a>Int</a> [] </tt> or <tt> pattern Int &lt;-
--   App <a>Int</a> [] where Int = App <a>Int</a> [] </tt>
UBidirectionalPatSyn :: Ann UPattern dom stage -> AnnMaybeG UPatSynWhere dom stage -> UPatSynRhs dom stage
[_patRhsPat] :: UPatSynRhs dom stage -> Ann UPattern dom stage
[_patRhsOpposite] :: UPatSynRhs dom stage -> AnnMaybeG UPatSynWhere dom stage

-- | <pre>
--   pattern Int &lt;- App <a>Int</a> []
--   </pre>
UOneDirectionalPatSyn :: Ann UPattern dom stage -> UPatSynRhs dom stage
[_patRhsPat] :: UPatSynRhs dom stage -> Ann UPattern dom stage

-- | Where clause of pattern synonym (explicit expression direction)
data UPatSynWhere dom stage
UPatSynWhere :: AnnListG UMatch dom stage -> UPatSynWhere dom stage
[_patOpposite] :: UPatSynWhere dom stage -> AnnListG UMatch dom stage

-- | Call conventions of foreign functions
data UCallConv dom stage
UStdCall :: UCallConv dom stage
UCCall :: UCallConv dom stage
UCPlusPlus :: UCallConv dom stage
UDotNet :: UCallConv dom stage
UJvm :: UCallConv dom stage
UJs :: UCallConv dom stage
UJavaScript :: UCallConv dom stage
UCApi :: UCallConv dom stage

-- | Safety annotations for foreign calls
data USafety dom stage
USafe :: USafety dom stage
UThreadSafe :: USafety dom stage
UUnsafe :: USafety dom stage
UInterruptible :: USafety dom stage

-- | Role annotations for types
data URole dom stage
UNominal :: URole dom stage
URepresentational :: URole dom stage
UPhantom :: URole dom stage

-- | Top level pragmas
data UTopLevelPragma dom stage

-- | A pragma that introduces source rewrite rules (<tt> {--} </tt>)
URulePragma :: AnnListG URule dom stage -> UTopLevelPragma dom stage
[_pragmaRule] :: UTopLevelPragma dom stage -> AnnListG URule dom stage

-- | A pragma that marks definitions as deprecated (<tt> {-# DEPRECATED f
--   "f will be replaced by g" </tt>)
UDeprPragma :: AnnListG UName dom stage -> AnnListG UStringNode dom stage -> UTopLevelPragma dom stage
[_pragmaObjects] :: UTopLevelPragma dom stage -> AnnListG UName dom stage
[_deprMessage] :: UTopLevelPragma dom stage -> AnnListG UStringNode dom stage

-- | A pragma that marks definitions as deprecated (<tt> {-# WARNING
--   unsafePerformIO "you should know what you are doing" </tt>)
UWarningPragma :: AnnListG UName dom stage -> AnnListG UStringNode dom stage -> UTopLevelPragma dom stage
[_pragmaObjects] :: UTopLevelPragma dom stage -> AnnListG UName dom stage
[_warnMessage] :: UTopLevelPragma dom stage -> AnnListG UStringNode dom stage

-- | A pragma that annotates a definition with an arbitrary value (<tt> {-#
--   ANN f 42 </tt>) TODO: extract pragmas that appear both in top-level
--   and in instances (inline, inlinable, noinline)
UAnnPragma :: Ann UAnnotationSubject dom stage -> Ann UExpr dom stage -> UTopLevelPragma dom stage
[_annotationSubject] :: UTopLevelPragma dom stage -> Ann UAnnotationSubject dom stage
[_annotateExpr] :: UTopLevelPragma dom stage -> Ann UExpr dom stage
UInlinePragmaDecl :: Ann UInlinePragma dom stage -> UTopLevelPragma dom stage
[_pragmaInline] :: UTopLevelPragma dom stage -> Ann UInlinePragma dom stage

-- | A pragma for maintaining line numbers in generated sources (<tt> {--}
--   </tt>)
ULinePragma :: Ann LineNumber dom stage -> AnnMaybeG UStringNode dom stage -> UTopLevelPragma dom stage
[_pragmaLineNum] :: UTopLevelPragma dom stage -> Ann LineNumber dom stage
[_pragmaFileName] :: UTopLevelPragma dom stage -> AnnMaybeG UStringNode dom stage
USpecializeDecl :: Ann USpecializePragma dom stage -> UTopLevelPragma dom stage
[_specializePragma] :: UTopLevelPragma dom stage -> Ann USpecializePragma dom stage

-- | The COMPLETE pragma is used to inform the pattern match checker that a
--   certain set of patterns is complete (<tt> {--} </tt>).
UCompletePragma :: AnnListG UName dom stage -> AnnMaybeG UName dom stage -> UTopLevelPragma dom stage
[_pragmaObjects] :: UTopLevelPragma dom stage -> AnnListG UName dom stage
[_pragmaSignature] :: UTopLevelPragma dom stage -> AnnMaybeG UName dom stage
data USpecializePragma dom stage

-- | A pragma that tells the compiler that a polymorph function should be
--   optimized for a given type (<tt> {--} </tt>)
USpecializePragma :: AnnMaybeG UPhaseControl dom stage -> Ann UName dom stage -> AnnListG UType dom stage -> USpecializePragma dom stage
[_pragmaPhase] :: USpecializePragma dom stage -> AnnMaybeG UPhaseControl dom stage
[_specializeDef] :: USpecializePragma dom stage -> Ann UName dom stage
[_specializeType] :: USpecializePragma dom stage -> AnnListG UType dom stage

-- | A rewrite rule (<tt> "map/map" forall f g xs. map f (map g xs) = map
--   (f.g) xs </tt>)
data URule dom stage
URule :: Ann UStringNode dom stage -> AnnMaybeG UPhaseControl dom stage -> AnnListG URuleVar dom stage -> Ann UExpr dom stage -> Ann UExpr dom stage -> URule dom stage

-- | User name of the rule
[_ruleName] :: URule dom stage -> Ann UStringNode dom stage

-- | The compilation phases in which the rule can be applied
[_rulePhase] :: URule dom stage -> AnnMaybeG UPhaseControl dom stage

-- | Variables bound in the rule
[_ruleBounded] :: URule dom stage -> AnnListG URuleVar dom stage

-- | The transformed expression
[_ruleLhs] :: URule dom stage -> Ann UExpr dom stage

-- | The resulting expression
[_ruleRhs] :: URule dom stage -> Ann UExpr dom stage

-- | A variable for a rewrite rule. With or without type signature.
data URuleVar dom stage

-- | A simple rule variable
URuleVar :: Ann UName dom stage -> URuleVar dom stage
[_ruleVarName] :: URuleVar dom stage -> Ann UName dom stage

-- | A rule variable with signature
USigRuleVar :: Ann UName dom stage -> Ann UType dom stage -> URuleVar dom stage
[_ruleVarName] :: URuleVar dom stage -> Ann UName dom stage
[_ruleVarType] :: URuleVar dom stage -> Ann UType dom stage

-- | Annotation allows you to connect an expression to any declaration.
data UAnnotationSubject dom stage

-- | The definition with the given name is annotated
UNameAnnotation :: Ann UName dom stage -> UAnnotationSubject dom stage
[_annotateName] :: UAnnotationSubject dom stage -> Ann UName dom stage

-- | A type with the given name is annotated
UTypeAnnotation :: Ann UName dom stage -> UAnnotationSubject dom stage
[_annotateName] :: UAnnotationSubject dom stage -> Ann UName dom stage

-- | The whole module is annotated
UModuleAnnotation :: UAnnotationSubject dom stage

-- | Formulas of minimal annotations declaring which functions should be
--   defined.
data UMinimalFormula dom stage
UMinimalName :: Ann UName dom stage -> UMinimalFormula dom stage
[_minimalName] :: UMinimalFormula dom stage -> Ann UName dom stage
UMinimalParen :: Ann UMinimalFormula dom stage -> UMinimalFormula dom stage
[_minimalInner] :: UMinimalFormula dom stage -> Ann UMinimalFormula dom stage

-- | One of the minimal formulas are needed (<tt> min1 | min2 </tt>)
UMinimalOr :: AnnListG UMinimalFormula dom stage -> UMinimalFormula dom stage
[_minimalOrs] :: UMinimalFormula dom stage -> AnnListG UMinimalFormula dom stage

-- | Both of the minimal formulas are needed (<tt> min1 , min2 </tt>)
UMinimalAnd :: AnnListG UMinimalFormula dom stage -> UMinimalFormula dom stage
[_minimalAnds] :: UMinimalFormula dom stage -> AnnListG UMinimalFormula dom stage

-- | A line number for a line pragma.
data LineNumber dom stage
LineNumber :: Int -> LineNumber dom stage
[_lineNumber] :: LineNumber dom stage -> Int

-- | Value binding for top-level and local bindings
data UValueBind dom stage

-- | Non-function binding (<tt> v = "12" </tt>) TODO: use one name for a
--   function instead of names in each match
USimpleBind :: Ann UPattern dom stage -> Ann URhs dom stage -> AnnMaybeG ULocalBinds dom stage -> UValueBind dom stage
[_valBindPat] :: UValueBind dom stage -> Ann UPattern dom stage
[_valBindRhs] :: UValueBind dom stage -> Ann URhs dom stage
[_valBindLocals] :: UValueBind dom stage -> AnnMaybeG ULocalBinds dom stage

-- | Function binding (<tt> f 0 = 1; f x = x </tt>). All matches must have
--   the same name.
UFunBind :: AnnListG UMatch dom stage -> UValueBind dom stage
[_funBindMatches] :: UValueBind dom stage -> AnnListG UMatch dom stage

-- | Clause of function binding
data UMatch dom stage
UMatch :: Ann UMatchLhs dom stage -> Ann URhs dom stage -> AnnMaybeG ULocalBinds dom stage -> UMatch dom stage
[_matchLhs] :: UMatch dom stage -> Ann UMatchLhs dom stage
[_matchRhs] :: UMatch dom stage -> Ann URhs dom stage
[_matchBinds] :: UMatch dom stage -> AnnMaybeG ULocalBinds dom stage

-- | Something on the left side of the match
data UMatchLhs dom stage

-- | A match lhs with the function name and parameter names (<tt> f a b
--   </tt>)
UNormalLhs :: Ann UName dom stage -> AnnListG UPattern dom stage -> UMatchLhs dom stage
[_matchLhsName] :: UMatchLhs dom stage -> Ann UName dom stage
[_matchLhsArgs] :: UMatchLhs dom stage -> AnnListG UPattern dom stage

-- | An infix match lhs for an operator (<tt> a + b </tt>)
UInfixLhs :: Ann UPattern dom stage -> Ann UOperator dom stage -> Ann UPattern dom stage -> AnnListG UPattern dom stage -> UMatchLhs dom stage
[_matchLhsLhs] :: UMatchLhs dom stage -> Ann UPattern dom stage
[_matchLhsOperator] :: UMatchLhs dom stage -> Ann UOperator dom stage
[_matchLhsRhs] :: UMatchLhs dom stage -> Ann UPattern dom stage
[_matchLhsArgs] :: UMatchLhs dom stage -> AnnListG UPattern dom stage

-- | Local bindings attached to a declaration (<tt> where x = 42 </tt>)
data ULocalBinds dom stage
ULocalBinds :: AnnListG ULocalBind dom stage -> ULocalBinds dom stage
[_localBinds] :: ULocalBinds dom stage -> AnnListG ULocalBind dom stage

-- | Bindings that are enabled in local blocks (where or let).
data ULocalBind dom stage

-- | A local binding for a value
ULocalValBind :: Ann UValueBind dom stage -> ULocalBind dom stage
[_localVal] :: ULocalBind dom stage -> Ann UValueBind dom stage

-- | A local type signature
ULocalSignature :: Ann UTypeSignature dom stage -> ULocalBind dom stage
[_localSig] :: ULocalBind dom stage -> Ann UTypeSignature dom stage

-- | A local fixity declaration
ULocalFixity :: Ann UFixitySignature dom stage -> ULocalBind dom stage
[_localFixity] :: ULocalBind dom stage -> Ann UFixitySignature dom stage

-- | A local inline pragma
ULocalInline :: Ann UInlinePragma dom stage -> ULocalBind dom stage
[_localInline] :: ULocalBind dom stage -> Ann UInlinePragma dom stage

-- | A type signature (<tt> f :: Int -&gt; Int </tt>)
data UTypeSignature dom stage
UTypeSignature :: AnnListG UName dom stage -> Ann UType dom stage -> UTypeSignature dom stage
[_tsName] :: UTypeSignature dom stage -> AnnListG UName dom stage
[_tsType] :: UTypeSignature dom stage -> Ann UType dom stage

-- | A fixity signature (<tt> infixl 5 +, - </tt>).
data UFixitySignature dom stage
UFixitySignature :: Ann Assoc dom stage -> AnnMaybeG Precedence dom stage -> AnnListG UOperator dom stage -> UFixitySignature dom stage
[_fixityAssoc] :: UFixitySignature dom stage -> Ann Assoc dom stage
[_fixityPrecedence] :: UFixitySignature dom stage -> AnnMaybeG Precedence dom stage
[_fixityOperators] :: UFixitySignature dom stage -> AnnListG UOperator dom stage

-- | Associativity of an operator.
data Assoc dom stage

-- | non-associative operator (declared with <tt>infix</tt>)
AssocNone :: Assoc dom stage

-- | left-associative operator (declared with <tt>infixl</tt>)
AssocLeft :: Assoc dom stage

-- | right-associative operator (declared with <tt>infixr</tt>)
AssocRight :: Assoc dom stage

-- | Numeric precedence of an operator
data Precedence dom stage
Precedence :: Int -> Precedence dom stage
[_precedenceValue] :: Precedence dom stage -> Int

-- | Right hand side of a value binding (possible with guards): (<tt> = 3
--   </tt> or <tt> | x == 1 = 3; | otherwise = 4 </tt>)
data URhs dom stage

-- | An unguarded right-hand-side (<tt> = 3 </tt>)
UUnguardedRhs :: Ann UExpr dom stage -> URhs dom stage
[_rhsExpr] :: URhs dom stage -> Ann UExpr dom stage

-- | An unguarded right-hand-side (<tt> | x == 1 = 3; | otherwise = 4
--   </tt>)
UGuardedRhss :: AnnListG UGuardedRhs dom stage -> URhs dom stage
[_rhsGuards] :: URhs dom stage -> AnnListG UGuardedRhs dom stage

-- | A guarded right-hand side of a value binding (<tt> | x &gt; 3 = 2
--   </tt>)
data UGuardedRhs dom stage
UGuardedRhs :: AnnListG URhsGuard dom stage -> Ann UExpr dom stage -> UGuardedRhs dom stage

-- | Cannot be empty.
[_guardStmts] :: UGuardedRhs dom stage -> AnnListG URhsGuard dom stage
[_guardExpr] :: UGuardedRhs dom stage -> Ann UExpr dom stage

-- | Guards for value bindings and pattern matches (<tt> Just v <a>x, v</a>
--   1 </tt>)
data URhsGuard dom stage

-- | A bind statement in a pattern guard (<tt> Just v &lt;- x </tt>)
UGuardBind :: Ann UPattern dom stage -> Ann UExpr dom stage -> URhsGuard dom stage
[_guardPat] :: URhsGuard dom stage -> Ann UPattern dom stage
[_guardRhs] :: URhsGuard dom stage -> Ann UExpr dom stage

-- | A let statement in a pattern guard (<tt> let x = 3 </tt>)
UGuardLet :: AnnListG ULocalBind dom stage -> URhsGuard dom stage
[_guardBinds] :: URhsGuard dom stage -> AnnListG ULocalBind dom stage

-- | An expression to check for a pattern guard
UGuardCheck :: Ann UExpr dom stage -> URhsGuard dom stage
[_guardCheck] :: URhsGuard dom stage -> Ann UExpr dom stage

-- | Pragmas that control how the definitions will be inlined
data UInlinePragma dom stage

-- | A pragma that marks a function for inlining to the compiler (<tt> {--}
--   </tt>)
UInlinePragma :: AnnMaybeG UConlikeAnnot dom stage -> AnnMaybeG UPhaseControl dom stage -> Ann UName dom stage -> UInlinePragma dom stage
[_inlineConlike] :: UInlinePragma dom stage -> AnnMaybeG UConlikeAnnot dom stage
[_inlinePhase] :: UInlinePragma dom stage -> AnnMaybeG UPhaseControl dom stage
[_inlineDef] :: UInlinePragma dom stage -> Ann UName dom stage

-- | A pragma that forbids a function from being inlined by the compiler
--   (<tt> {--} </tt>)
UNoInlinePragma :: Ann UName dom stage -> UInlinePragma dom stage
[_noInlineDef] :: UInlinePragma dom stage -> Ann UName dom stage

-- | A pragma that marks a function that it may be inlined by the compiler
--   (<tt> {--} </tt>)
UInlinablePragma :: AnnMaybeG UPhaseControl dom stage -> Ann UName dom stage -> UInlinePragma dom stage
[_inlinePhase] :: UInlinePragma dom stage -> AnnMaybeG UPhaseControl dom stage
[_inlinableDef] :: UInlinePragma dom stage -> Ann UName dom stage

-- | A <tt>CONLIKE</tt> modifier for an <tt>INLINE</tt> pragma.
data UConlikeAnnot dom stage
UConlikeAnnot :: UConlikeAnnot dom stage

-- | Controls the activation of a rewrite rule (<tt> [1] </tt>)
data UPhaseControl dom stage
UPhaseControl :: AnnMaybeG PhaseInvert dom stage -> AnnMaybeG PhaseNumber dom stage -> UPhaseControl dom stage
[_phaseUntil] :: UPhaseControl dom stage -> AnnMaybeG PhaseInvert dom stage
[_phaseNumber] :: UPhaseControl dom stage -> AnnMaybeG PhaseNumber dom stage

-- | Phase number for rewrite rules
data PhaseNumber dom stage
PhaseNumber :: Integer -> PhaseNumber dom stage
[_phaseNum] :: PhaseNumber dom stage -> Integer

-- | A tilde that marks the inversion of the phase number
data PhaseInvert dom stage
PhaseInvert :: PhaseInvert dom stage

-- | Haskell expressions
data UExpr dom stage

-- | A variable or a data constructor (<tt> a </tt>)
UVar :: Ann UName dom stage -> UExpr dom stage
[_exprName] :: UExpr dom stage -> Ann UName dom stage

-- | Literal expression (<tt> 42 </tt>)
ULit :: Ann ULiteral dom stage -> UExpr dom stage
[_exprLit] :: UExpr dom stage -> Ann ULiteral dom stage

-- | An infix operator application (<tt> a + b </tt>)
UInfixApp :: Ann UExpr dom stage -> Ann UOperator dom stage -> Ann UExpr dom stage -> UExpr dom stage
[_exprLhs] :: UExpr dom stage -> Ann UExpr dom stage
[_exprOperator] :: UExpr dom stage -> Ann UOperator dom stage
[_exprRhs] :: UExpr dom stage -> Ann UExpr dom stage

-- | Prefix operator application (<tt> -x </tt>)
UPrefixApp :: Ann UOperator dom stage -> Ann UExpr dom stage -> UExpr dom stage
[_exprOperator] :: UExpr dom stage -> Ann UOperator dom stage
[_exprRhs] :: UExpr dom stage -> Ann UExpr dom stage

-- | Function application (<tt> f 4 </tt>)
UApp :: Ann UExpr dom stage -> Ann UExpr dom stage -> UExpr dom stage
[_exprFun] :: UExpr dom stage -> Ann UExpr dom stage
[_exprArg] :: UExpr dom stage -> Ann UExpr dom stage

-- | Lambda expression (<tt> a b -&gt; a + b </tt>)
ULambda :: AnnListG UPattern dom stage -> Ann UExpr dom stage -> UExpr dom stage

-- | at least one
[_exprBindings] :: UExpr dom stage -> AnnListG UPattern dom stage
[_exprInner] :: UExpr dom stage -> Ann UExpr dom stage

-- | Local binding (<tt> let x = 2; y = 3 in e x y </tt>)
ULet :: AnnListG ULocalBind dom stage -> Ann UExpr dom stage -> UExpr dom stage

-- | nonempty
[_exprFunBind] :: UExpr dom stage -> AnnListG ULocalBind dom stage
[_exprInner] :: UExpr dom stage -> Ann UExpr dom stage

-- | If expression (<tt> if a then b else c </tt>)
UIf :: Ann UExpr dom stage -> Ann UExpr dom stage -> Ann UExpr dom stage -> UExpr dom stage
[_exprCond] :: UExpr dom stage -> Ann UExpr dom stage
[_exprThen] :: UExpr dom stage -> Ann UExpr dom stage
[_exprElse] :: UExpr dom stage -> Ann UExpr dom stage

-- | Multi way if expressions with <tt>MultiWayIf</tt> extension (<tt> if |
--   guard1 -&gt; expr1; guard2 -&gt; expr2 </tt>)
UMultiIf :: AnnListG UGuardedCaseRhs dom stage -> UExpr dom stage
[_exprIfAlts] :: UExpr dom stage -> AnnListG UGuardedCaseRhs dom stage

-- | Pattern matching expression (<tt> case expr of pat1 -&gt; expr1; pat2
--   -&gt; expr2 </tt>)
UCase :: Ann UExpr dom stage -> AnnListG UAlt dom stage -> UExpr dom stage
[_exprCase] :: UExpr dom stage -> Ann UExpr dom stage
[_exprAlts] :: UExpr dom stage -> AnnListG UAlt dom stage

-- | Do-notation expressions (<tt> do x &lt;- act1; act2 </tt>)
UDo :: Ann UDoKind dom stage -> AnnListG UStmt dom stage -> UExpr dom stage
[_doKind] :: UExpr dom stage -> Ann UDoKind dom stage
[_exprStmts] :: UExpr dom stage -> AnnListG UStmt dom stage

-- | Tuple expression (<tt> (e1, e2, e3) </tt>)
UTuple :: AnnListG UExpr dom stage -> UExpr dom stage
[_tupleElems] :: UExpr dom stage -> AnnListG UExpr dom stage

-- | Unboxed tuple expression (<tt> () </tt>)
UUnboxedTuple :: AnnListG UExpr dom stage -> UExpr dom stage
[_tupleElems] :: UExpr dom stage -> AnnListG UExpr dom stage

-- | Tuple section, enabled with <tt>TupleSections</tt> (<tt> (a,,b)
--   </tt>). One of the elements must be missing.
UTupleSection :: AnnListG UTupSecElem dom stage -> UExpr dom stage
[_tupleSectionElems] :: UExpr dom stage -> AnnListG UTupSecElem dom stage

-- | Unboxed tuple section enabled with <tt>TupleSections</tt> (<tt> ()
--   </tt>). One of the elements must be missing.
UUnboxedTupSec :: AnnListG UTupSecElem dom stage -> UExpr dom stage
[_tupleSectionElems] :: UExpr dom stage -> AnnListG UTupSecElem dom stage

-- | List expression: <tt>[1,2,3]</tt>
UList :: AnnListG UExpr dom stage -> UExpr dom stage
[_listElems] :: UExpr dom stage -> AnnListG UExpr dom stage

-- | Parallel array expression: <tt>[: 1,2,3 :]</tt>
UParArray :: AnnListG UExpr dom stage -> UExpr dom stage
[_listElems] :: UExpr dom stage -> AnnListG UExpr dom stage

-- | Parenthesized expression: <tt>( a + b )</tt>
UParen :: Ann UExpr dom stage -> UExpr dom stage
[_exprInner] :: UExpr dom stage -> Ann UExpr dom stage

-- | Left operator section: <tt>(1+)</tt>
ULeftSection :: Ann UExpr dom stage -> Ann UOperator dom stage -> UExpr dom stage
[_exprLhs] :: UExpr dom stage -> Ann UExpr dom stage
[_exprOperator] :: UExpr dom stage -> Ann UOperator dom stage

-- | Right operator section: <tt>(+1)</tt>
URightSection :: Ann UOperator dom stage -> Ann UExpr dom stage -> UExpr dom stage
[_exprOperator] :: UExpr dom stage -> Ann UOperator dom stage
[_exprRhs] :: UExpr dom stage -> Ann UExpr dom stage

-- | Record value construction: <tt>Point { x = 3, y = -2 }</tt>
URecCon :: Ann UName dom stage -> AnnListG UFieldUpdate dom stage -> UExpr dom stage
[_exprRecName] :: UExpr dom stage -> Ann UName dom stage
[_exprRecFields] :: UExpr dom stage -> AnnListG UFieldUpdate dom stage

-- | Record value update: <tt>p1 { x = 3, y = -2 }</tt>
URecUpdate :: Ann UExpr dom stage -> AnnListG UFieldUpdate dom stage -> UExpr dom stage
[_exprInner] :: UExpr dom stage -> Ann UExpr dom stage
[_exprRecFields] :: UExpr dom stage -> AnnListG UFieldUpdate dom stage

-- | Enumeration expression (<tt> [1,3..10] </tt>)
UEnum :: Ann UExpr dom stage -> AnnMaybeG UExpr dom stage -> AnnMaybeG UExpr dom stage -> UExpr dom stage
[_enumFrom] :: UExpr dom stage -> Ann UExpr dom stage
[_enumThen] :: UExpr dom stage -> AnnMaybeG UExpr dom stage
[_enumTo] :: UExpr dom stage -> AnnMaybeG UExpr dom stage

-- | Parallel array enumeration (<tt> [: 1,3 .. 10 :] </tt>)
UParArrayEnum :: Ann UExpr dom stage -> AnnMaybeG UExpr dom stage -> Ann UExpr dom stage -> UExpr dom stage
[_enumFrom] :: UExpr dom stage -> Ann UExpr dom stage
[_enumThen] :: UExpr dom stage -> AnnMaybeG UExpr dom stage
[_enumToFix] :: UExpr dom stage -> Ann UExpr dom stage

-- | List comprehension (<tt> [ (x, y) | x &lt;- xs | y &lt;- ys ] </tt>)
UListComp :: Ann UExpr dom stage -> AnnListG UListCompBody dom stage -> UExpr dom stage
[_compExpr] :: UExpr dom stage -> Ann UExpr dom stage

-- | Can only have 1 element without <tt>ParallelListComp</tt>
[_compBody] :: UExpr dom stage -> AnnListG UListCompBody dom stage

-- | Parallel array comprehensions <tt> [: (x, y) | x &lt;- xs , y &lt;- ys
--   :] </tt> enabled by <tt>ParallelArrays</tt>
UParArrayComp :: Ann UExpr dom stage -> AnnListG UListCompBody dom stage -> UExpr dom stage
[_compExpr] :: UExpr dom stage -> Ann UExpr dom stage

-- | Can only have 1 element without <tt>ParallelListComp</tt>
[_compBody] :: UExpr dom stage -> AnnListG UListCompBody dom stage

-- | Explicit type signature (<tt> x :: Int </tt>)
UTypeSig :: Ann UExpr dom stage -> Ann UType dom stage -> UExpr dom stage
[_exprInner] :: UExpr dom stage -> Ann UExpr dom stage
[_exprSig] :: UExpr dom stage -> Ann UType dom stage

-- | Explicit type application (<tt> show @Integer (read "5") </tt>)
UExplTypeApp :: Ann UExpr dom stage -> Ann UType dom stage -> UExpr dom stage
[_exprInner] :: UExpr dom stage -> Ann UExpr dom stage
[_exprType] :: UExpr dom stage -> Ann UType dom stage

-- | <tt>'x</tt> for template haskell reifying of expressions
UVarQuote :: Ann UName dom stage -> UExpr dom stage
[_quotedName] :: UExpr dom stage -> Ann UName dom stage

-- | <tt>''T</tt> for template haskell reifying of types
UTypeQuote :: Ann UName dom stage -> UExpr dom stage
[_quotedName] :: UExpr dom stage -> Ann UName dom stage

-- | Template haskell bracket expression
UBracketExpr :: Ann UBracket dom stage -> UExpr dom stage
[_exprBracket] :: UExpr dom stage -> Ann UBracket dom stage

-- | Template haskell splice expression, for example: <tt>$(gen a)</tt> or
--   <tt>$x</tt>
USplice :: Ann USplice dom stage -> UExpr dom stage
[_exprSplice] :: UExpr dom stage -> Ann USplice dom stage

-- | Template haskell quasi-quotation: <tt>[$quoter|str]</tt>
UQuasiQuoteExpr :: Ann UQuasiQuote dom stage -> UExpr dom stage
[_exprQQ] :: UExpr dom stage -> Ann UQuasiQuote dom stage
UExprPragma :: Ann UExprPragma dom stage -> Ann UExpr dom stage -> UExpr dom stage
[_exprPragma] :: UExpr dom stage -> Ann UExprPragma dom stage
[_innerExpr] :: UExpr dom stage -> Ann UExpr dom stage

-- | Arrow definition: <tt>proc a -&gt; f -&lt; a+1</tt>
UProc :: Ann UPattern dom stage -> Ann UCmd dom stage -> UExpr dom stage
[_procPattern] :: UExpr dom stage -> Ann UPattern dom stage
[_procExpr] :: UExpr dom stage -> Ann UCmd dom stage

-- | Arrow application: <tt>f -&lt; a+1</tt>
UArrowApp :: Ann UExpr dom stage -> Ann UArrowAppl dom stage -> Ann UExpr dom stage -> UExpr dom stage
[_exprLhs] :: UExpr dom stage -> Ann UExpr dom stage
[_arrowAppl] :: UExpr dom stage -> Ann UArrowAppl dom stage
[_exprRhs] :: UExpr dom stage -> Ann UExpr dom stage

-- | Lambda case ( <tt>case 0 -&gt; 1; 1 -&gt; 2</tt> )
ULamCase :: AnnListG UAlt dom stage -> UExpr dom stage
[_exprAlts] :: UExpr dom stage -> AnnListG UAlt dom stage

-- | Static pointer expression (<tt> static e </tt>). The inner expression
--   must be closed (cannot have variables bound outside)
UStaticPtr :: Ann UExpr dom stage -> UExpr dom stage
[_exprInner] :: UExpr dom stage -> Ann UExpr dom stage

-- | Unboxed sum expression (<tt> () </tt>).
UUnboxedSum :: AnnListG UUnboxedSumPlaceHolder dom stage -> Ann UExpr dom stage -> AnnListG UUnboxedSumPlaceHolder dom stage -> UExpr dom stage
[_exprSumPlaceholdersBefore] :: UExpr dom stage -> AnnListG UUnboxedSumPlaceHolder dom stage
[_exprInner] :: UExpr dom stage -> Ann UExpr dom stage
[_exprSumPlaceholdersAfter] :: UExpr dom stage -> AnnListG UUnboxedSumPlaceHolder dom stage

-- | A hole in the program <tt>_</tt>, similar to undefined but gives type
--   information. XML expressions omitted
UHole :: UExpr dom stage

-- | Field update expressions
data UFieldUpdate dom stage

-- | Update of a field (<tt> x = 1 </tt>)
UNormalFieldUpdate :: Ann UName dom stage -> Ann UExpr dom stage -> UFieldUpdate dom stage
[_fieldName] :: UFieldUpdate dom stage -> Ann UName dom stage
[_fieldValue] :: UFieldUpdate dom stage -> Ann UExpr dom stage

-- | Update the field to the value of the same name (<tt> x </tt>)
UFieldPun :: Ann UName dom stage -> UFieldUpdate dom stage
[_fieldUpdateName] :: UFieldUpdate dom stage -> Ann UName dom stage

-- | Update the fields of the bounded names to their values (<tt> ..
--   </tt>). Must be the last initializer. Cannot be used in a record
--   update expression.
UFieldWildcard :: Ann UFieldWildcard dom stage -> UFieldUpdate dom stage
[_fieldWildcard] :: UFieldUpdate dom stage -> Ann UFieldWildcard dom stage

-- | Marker for a field wildcard. Only needed to attach semantic
--   information in a type-safe way.
data UFieldWildcard dom stage
FldWildcard :: UFieldWildcard dom stage

-- | An element of a tuple section that can be an expression or missing
--   (indicating a value from a parameter)
data UTupSecElem dom stage

-- | An existing element in a tuple section
Present :: Ann UExpr dom stage -> UTupSecElem dom stage
[_tupSecExpr] :: UTupSecElem dom stage -> Ann UExpr dom stage

-- | A missing element in a tuple section
Missing :: UTupSecElem dom stage

-- | Clause of case expression (<tt> Just x -&gt; x + 1 </tt>)
data UAlt' expr dom stage
UAlt :: Ann UPattern dom stage -> Ann (UCaseRhs' expr) dom stage -> AnnMaybeG ULocalBinds dom stage -> UAlt' expr dom stage
[_altPattern] :: UAlt' expr dom stage -> Ann UPattern dom stage
[_altRhs] :: UAlt' expr dom stage -> Ann (UCaseRhs' expr) dom stage
[_altBinds] :: UAlt' expr dom stage -> AnnMaybeG ULocalBinds dom stage
type UAlt = UAlt' UExpr
type UCmdAlt = UAlt' UCmd

-- | Right hand side of a match (possible with guards): (<tt> -&gt; 3 </tt>
--   or <tt> | x == 1 -&gt; 3; | otherwise -&gt; 4 </tt>)
data UCaseRhs' expr dom stage

-- | Unguarded right-hand side a pattern match (<tt> -&gt; 3 </tt>)
UUnguardedCaseRhs :: Ann expr dom stage -> UCaseRhs' expr dom stage
[_rhsCaseExpr] :: UCaseRhs' expr dom stage -> Ann expr dom stage

-- | Guarded right-hand sides of a pattern match (<tt> | x == 1 -&gt; 3; |
--   otherwise -&gt; 4 </tt>)
UGuardedCaseRhss :: AnnListG (UGuardedCaseRhs' expr) dom stage -> UCaseRhs' expr dom stage
[_rhsCaseGuards] :: UCaseRhs' expr dom stage -> AnnListG (UGuardedCaseRhs' expr) dom stage
type UCaseRhs = UCaseRhs' UExpr
type UCmdCaseRhs = UCaseRhs' UCmd

-- | A guarded right-hand side of pattern matches binding (<tt> | x &gt; 3
--   -&gt; 2 </tt>)
data UGuardedCaseRhs' expr dom stage
UGuardedCaseRhs :: AnnListG URhsGuard dom stage -> Ann expr dom stage -> UGuardedCaseRhs' expr dom stage

-- | Cannot be empty.
[_caseGuardStmts] :: UGuardedCaseRhs' expr dom stage -> AnnListG URhsGuard dom stage
[_caseGuardExpr] :: UGuardedCaseRhs' expr dom stage -> Ann expr dom stage
type UGuardedCaseRhs = UGuardedCaseRhs' UExpr
type UCmdGuardedCaseRhs = UGuardedCaseRhs' UCmd

-- | Pragmas that can be applied to expressions
data UExprPragma dom stage

-- | A <tt>CORE</tt> pragma for adding notes to expressions.
UCorePragma :: Ann UStringNode dom stage -> UExprPragma dom stage
[_pragmaStr] :: UExprPragma dom stage -> Ann UStringNode dom stage

-- | An <tt>SCC</tt> pragma for defining cost centers for profiling
USccPragma :: Ann UStringNode dom stage -> UExprPragma dom stage
[_pragmaStr] :: UExprPragma dom stage -> Ann UStringNode dom stage

-- | A pragma that describes if an expression was generated from a code
--   fragment by an external tool (<tt> {--} </tt>)
UGeneratedPragma :: Ann USourceRange dom stage -> UExprPragma dom stage
[_pragmaSrcRange] :: UExprPragma dom stage -> Ann USourceRange dom stage

-- | In-AST source ranges (for generated pragmas)
data USourceRange dom stage
USourceRange :: Ann UStringNode dom stage -> Ann Number dom stage -> Ann Number dom stage -> Ann Number dom stage -> Ann Number dom stage -> USourceRange dom stage
[_srFileName] :: USourceRange dom stage -> Ann UStringNode dom stage
[_srFromLine] :: USourceRange dom stage -> Ann Number dom stage
[_srFromCol] :: USourceRange dom stage -> Ann Number dom stage
[_srToLine] :: USourceRange dom stage -> Ann Number dom stage
[_srToCol] :: USourceRange dom stage -> Ann Number dom stage
data Number dom stage
Number :: Integer -> Number dom stage
[_numberInteger] :: Number dom stage -> Integer
data UCmd dom stage

-- | An arrow application command (<tt> f -&lt; x + 1 </tt>)
UArrowAppCmd :: Ann UExpr dom stage -> Ann UArrowAppl dom stage -> Ann UExpr dom stage -> UCmd dom stage
[_cmdLhs] :: UCmd dom stage -> Ann UExpr dom stage
[_cmdArrowOp] :: UCmd dom stage -> Ann UArrowAppl dom stage
[_cmdRhs] :: UCmd dom stage -> Ann UExpr dom stage

-- | A form command (<tt> (|untilA (increment -&lt; x+y) (within 0.5 -&lt;
--   x)|) </tt>)
UArrowFormCmd :: Ann UExpr dom stage -> AnnListG UCmd dom stage -> UCmd dom stage
[_cmdExpr] :: UCmd dom stage -> Ann UExpr dom stage
[_cmdInnerCmds] :: UCmd dom stage -> AnnListG UCmd dom stage

-- | A function application command
UAppCmd :: Ann UCmd dom stage -> Ann UExpr dom stage -> UCmd dom stage
[_cmdInnerCmd] :: UCmd dom stage -> Ann UCmd dom stage
[_cmdApplied] :: UCmd dom stage -> Ann UExpr dom stage

-- | An infix command application
UInfixCmd :: Ann UCmd dom stage -> Ann UName dom stage -> Ann UCmd dom stage -> UCmd dom stage
[_cmdLeftCmd] :: UCmd dom stage -> Ann UCmd dom stage
[_cmdOperator] :: UCmd dom stage -> Ann UName dom stage
[_cmdRightCmd] :: UCmd dom stage -> Ann UCmd dom stage

-- | A lambda command
ULambdaCmd :: AnnListG UPattern dom stage -> Ann UCmd dom stage -> UCmd dom stage

-- | at least one
[_cmdBindings] :: UCmd dom stage -> AnnListG UPattern dom stage
[_cmdInner] :: UCmd dom stage -> Ann UCmd dom stage

-- | A parenthesized command
UParenCmd :: Ann UCmd dom stage -> UCmd dom stage
[_cmdInner] :: UCmd dom stage -> Ann UCmd dom stage

-- | A pattern match command
UCaseCmd :: Ann UExpr dom stage -> AnnListG UCmdAlt dom stage -> UCmd dom stage
[_cmdExpr] :: UCmd dom stage -> Ann UExpr dom stage
[_cmdAlts] :: UCmd dom stage -> AnnListG UCmdAlt dom stage

-- | An if command (<tt> if f x y then g -&lt; x+1 else h -&lt; y+2 </tt>)
UIfCmd :: Ann UExpr dom stage -> Ann UCmd dom stage -> Ann UCmd dom stage -> UCmd dom stage
[_cmdExpr] :: UCmd dom stage -> Ann UExpr dom stage
[_cmdThen] :: UCmd dom stage -> Ann UCmd dom stage
[_cmdElse] :: UCmd dom stage -> Ann UCmd dom stage

-- | A local binding command (<tt> let z = x+y </tt>)
ULetCmd :: AnnListG ULocalBind dom stage -> Ann UCmd dom stage -> UCmd dom stage

-- | nonempty
[_cmdBinds] :: UCmd dom stage -> AnnListG ULocalBind dom stage
[_cmdInner] :: UCmd dom stage -> Ann UCmd dom stage

-- | A do-notation in a command
UDoCmd :: AnnListG UCmdStmt dom stage -> UCmd dom stage
[_cmdStmts] :: UCmd dom stage -> AnnListG UCmdStmt dom stage
data UArrowAppl dom stage

-- | Left arrow application: <tt>-&lt;</tt>
ULeftAppl :: UArrowAppl dom stage

-- | Right arrow application: <tt>&gt;-</tt>
URightAppl :: UArrowAppl dom stage

-- | Left arrow high application: <tt>-&lt;&lt;</tt>
ULeftHighApp :: UArrowAppl dom stage

-- | Right arrow high application: <tt>&gt;&gt;-</tt>
URightHighApp :: UArrowAppl dom stage
data UUnboxedSumPlaceHolder dom stage
UUnboxedSumPlaceHolder :: UUnboxedSumPlaceHolder dom stage

-- | Normal monadic statements
data UStmt' expr dom stage

-- | Binding statement (<tt> x &lt;- action </tt>)
UBindStmt :: Ann UPattern dom stage -> Ann expr dom stage -> UStmt' expr dom stage
[_stmtPattern] :: UStmt' expr dom stage -> Ann UPattern dom stage
[_stmtExpr] :: UStmt' expr dom stage -> Ann expr dom stage

-- | Non-binding statement (<tt> action </tt>)
UExprStmt :: Ann expr dom stage -> UStmt' expr dom stage
[_stmtExpr] :: UStmt' expr dom stage -> Ann expr dom stage

-- | Let statement (<tt> let x = 3; y = 4 </tt>)
ULetStmt :: AnnListG ULocalBind dom stage -> UStmt' expr dom stage
[_stmtBinds] :: UStmt' expr dom stage -> AnnListG ULocalBind dom stage

-- | A recursive binding statement with (<tt> rec b &lt;- f a c; c &lt;- f
--   b a </tt>)
URecStmt :: AnnListG (UStmt' expr) dom stage -> UStmt' expr dom stage
[_cmdStmtBinds] :: UStmt' expr dom stage -> AnnListG (UStmt' expr) dom stage
type UStmt = UStmt' UExpr
type UCmdStmt = UStmt' UCmd

-- | Body of a list comprehension: (<tt> | x &lt;- [1..10] </tt>)
data UListCompBody dom stage
UListCompBody :: AnnListG UCompStmt dom stage -> UListCompBody dom stage
[_compStmts] :: UListCompBody dom stage -> AnnListG UCompStmt dom stage

-- | List comprehension statement
data UCompStmt dom stage

-- | Normal monadic statement of a list comprehension
UCompStmt :: Ann UStmt dom stage -> UCompStmt dom stage
[_compStmt] :: UCompStmt dom stage -> Ann UStmt dom stage

-- | Then statements by <tt>TransformListComp</tt> (<tt> then sortWith by
--   (x + y) </tt>)
UThenStmt :: Ann UExpr dom stage -> AnnMaybeG UExpr dom stage -> UCompStmt dom stage
[_thenExpr] :: UCompStmt dom stage -> Ann UExpr dom stage
[_byExpr] :: UCompStmt dom stage -> AnnMaybeG UExpr dom stage

-- | Grouping statements by <tt>TransformListComp</tt> (<tt> then group by
--   (x + y) using groupWith </tt>) Note: either byExpr or usingExpr must
--   have a value
UGroupStmt :: AnnMaybeG UExpr dom stage -> AnnMaybeG UExpr dom stage -> UCompStmt dom stage
[_byExpr] :: UCompStmt dom stage -> AnnMaybeG UExpr dom stage
[_usingExpr] :: UCompStmt dom stage -> AnnMaybeG UExpr dom stage

-- | Keywords <tt>do</tt> or <tt>mdo</tt> to start a do-block
data UDoKind dom stage
UDoKeyword :: UDoKind dom stage
UMDoKeyword :: UDoKind dom stage

-- | Representation of patterns for pattern bindings
data UPattern dom stage

-- | Pattern name binding
UVarPat :: Ann UName dom stage -> UPattern dom stage
[_patternName] :: UPattern dom stage -> Ann UName dom stage

-- | Literal pattern
ULitPat :: Ann ULiteral dom stage -> UPattern dom stage
[_patternLiteral] :: UPattern dom stage -> Ann ULiteral dom stage

-- | Infix constructor application pattern (<tt> a :+: b </tt>)
UInfixAppPat :: Ann UPattern dom stage -> Ann UOperator dom stage -> Ann UPattern dom stage -> UPattern dom stage
[_patternLhs] :: UPattern dom stage -> Ann UPattern dom stage
[_patternOperator] :: UPattern dom stage -> Ann UOperator dom stage
[_patternRhs] :: UPattern dom stage -> Ann UPattern dom stage

-- | Constructor application pattern (<tt> Point x y </tt>)
UAppPat :: Ann UName dom stage -> AnnListG UPattern dom stage -> UPattern dom stage
[_patternName] :: UPattern dom stage -> Ann UName dom stage
[_patternArgs] :: UPattern dom stage -> AnnListG UPattern dom stage

-- | Tuple pattern (<tt> (x,y) </tt>)
UTuplePat :: AnnListG UPattern dom stage -> UPattern dom stage
[_patternElems] :: UPattern dom stage -> AnnListG UPattern dom stage

-- | Unboxed tuple pattern (<tt> () </tt>)
UUnboxTuplePat :: AnnListG UPattern dom stage -> UPattern dom stage
[_patternElems] :: UPattern dom stage -> AnnListG UPattern dom stage

-- | List pattern (<tt> [1,2,a,x] </tt>)
UListPat :: AnnListG UPattern dom stage -> UPattern dom stage
[_patternElems] :: UPattern dom stage -> AnnListG UPattern dom stage

-- | Parallel array pattern (<tt> [:1,2,a,x:] </tt>)
UParArrPat :: AnnListG UPattern dom stage -> UPattern dom stage
[_patternElems] :: UPattern dom stage -> AnnListG UPattern dom stage

-- | Parenthesised patterns
UParenPat :: Ann UPattern dom stage -> UPattern dom stage
[_patternInner] :: UPattern dom stage -> Ann UPattern dom stage

-- | Record pattern (<tt> Point { x = 3, y } </tt>)
URecPat :: Ann UName dom stage -> AnnListG UPatternField dom stage -> UPattern dom stage
[_patternName] :: UPattern dom stage -> Ann UName dom stage
[_patternFields] :: UPattern dom stage -> AnnListG UPatternField dom stage

-- | As-pattern (explicit name binding) (<tt> ls@(hd:_) </tt>)
UAsPat :: Ann UName dom stage -> Ann UPattern dom stage -> UPattern dom stage
[_patternName] :: UPattern dom stage -> Ann UName dom stage
[_patternInner] :: UPattern dom stage -> Ann UPattern dom stage

-- | Wildcard pattern: (<tt> _ </tt>)
UWildPat :: UPattern dom stage

-- | Irrefutable pattern (<tt> ~(x:_) </tt>)
UIrrefutablePat :: Ann UPattern dom stage -> UPattern dom stage
[_patternInner] :: UPattern dom stage -> Ann UPattern dom stage

-- | Bang pattern (<tt> !x </tt>)
UBangPat :: Ann UPattern dom stage -> UPattern dom stage
[_patternInner] :: UPattern dom stage -> Ann UPattern dom stage

-- | Pattern with explicit type signature (<tt> x :: Int </tt>)
UTypeSigPat :: Ann UPattern dom stage -> Ann UType dom stage -> UPattern dom stage
[_patternInner] :: UPattern dom stage -> Ann UPattern dom stage
[_patternType] :: UPattern dom stage -> Ann UType dom stage

-- | View pattern (<tt> f -&gt; Just 1 </tt>) regular list pattern omitted
--   xml patterns omitted
UViewPat :: Ann UExpr dom stage -> Ann UPattern dom stage -> UPattern dom stage
[_patternExpr] :: UPattern dom stage -> Ann UExpr dom stage
[_patternInner] :: UPattern dom stage -> Ann UPattern dom stage

-- | Splice patterns: <tt>$(generateX inp)</tt>
USplicePat :: Ann USplice dom stage -> UPattern dom stage
[_patternSplice] :: UPattern dom stage -> Ann USplice dom stage

-- | Quasi-quoted patterns: <tt>[| 1 + 2 |]</tt>
UQuasiQuotePat :: Ann UQuasiQuote dom stage -> UPattern dom stage
[_patQQ] :: UPattern dom stage -> Ann UQuasiQuote dom stage
UNPlusKPat :: Ann UName dom stage -> Ann ULiteral dom stage -> UPattern dom stage
[_patternName] :: UPattern dom stage -> Ann UName dom stage
[_patternLit] :: UPattern dom stage -> Ann ULiteral dom stage

-- | Unboxed sum pattern (<tt> () </tt>).
UUnboxedSumPat :: AnnListG UUnboxedSumPlaceHolder dom stage -> Ann UPattern dom stage -> AnnListG UUnboxedSumPlaceHolder dom stage -> UPattern dom stage
[_patternSumPlaceholdersBefore] :: UPattern dom stage -> AnnListG UUnboxedSumPlaceHolder dom stage
[_patternInner] :: UPattern dom stage -> Ann UPattern dom stage
[_patternSumPlaceholdersAfter] :: UPattern dom stage -> AnnListG UUnboxedSumPlaceHolder dom stage
data UPatternField dom stage

-- | Named field pattern (<tt> p = Point 3 2 </tt>)
UNormalFieldPattern :: Ann UName dom stage -> Ann UPattern dom stage -> UPatternField dom stage
[_fieldPatternName] :: UPatternField dom stage -> Ann UName dom stage
[_fieldPattern] :: UPatternField dom stage -> Ann UPattern dom stage

-- | Named field pun (<tt> p </tt>)
UFieldPunPattern :: Ann UName dom stage -> UPatternField dom stage
[_fieldPatternName] :: UPatternField dom stage -> Ann UName dom stage

-- | Wildcard field pattern (<tt> .. </tt>)
UFieldWildcardPattern :: Ann UFieldWildcard dom stage -> UPatternField dom stage
[_fieldPatternWildcard] :: UPatternField dom stage -> Ann UFieldWildcard dom stage

-- | Type variable declaration
data UTyVar dom stage
UTyVarDecl :: Ann UName dom stage -> AnnMaybeG UKindConstraint dom stage -> UTyVar dom stage
[_tyVarName] :: UTyVar dom stage -> Ann UName dom stage
[_tyVarKind] :: UTyVar dom stage -> AnnMaybeG UKindConstraint dom stage

-- | Haskell types
data UType dom stage

-- | Forall types (<tt> forall x y . type </tt>)
UTyForall :: AnnListG UTyVar dom stage -> Ann UType dom stage -> UType dom stage
[_typeBounded] :: UType dom stage -> AnnListG UTyVar dom stage
[_typeType] :: UType dom stage -> Ann UType dom stage

-- | Type with a context (<tt> forall x y . type </tt>)
UTyCtx :: Ann UContext dom stage -> Ann UType dom stage -> UType dom stage
[_typeCtx] :: UType dom stage -> Ann UContext dom stage
[_typeType] :: UType dom stage -> Ann UType dom stage

-- | Function types (<tt> a -&gt; b </tt>)
UTyFun :: Ann UType dom stage -> Ann UType dom stage -> UType dom stage
[_typeParam] :: UType dom stage -> Ann UType dom stage
[_typeResult] :: UType dom stage -> Ann UType dom stage

-- | Tuple types (<tt> (a,b) </tt>)
UTyTuple :: AnnListG UType dom stage -> UType dom stage
[_typeElements] :: UType dom stage -> AnnListG UType dom stage

-- | Unboxed tuple types (<tt> () </tt>)
UTyUnbTuple :: AnnListG UType dom stage -> UType dom stage
[_typeElements] :: UType dom stage -> AnnListG UType dom stage

-- | List type with special syntax (<tt> [a] </tt>)
UTyList :: Ann UType dom stage -> UType dom stage
[_typeElement] :: UType dom stage -> Ann UType dom stage

-- | Parallel array type (<tt> [:a:] </tt>)
UTyParArray :: Ann UType dom stage -> UType dom stage
[_typeElement] :: UType dom stage -> Ann UType dom stage

-- | Type application (<tt> F a </tt>)
UTyApp :: Ann UType dom stage -> Ann UType dom stage -> UType dom stage
[_typeCon] :: UType dom stage -> Ann UType dom stage
[_typeArg] :: UType dom stage -> Ann UType dom stage

-- | Type variable or constructor (<tt> a </tt>)
UTyVar :: Ann UName dom stage -> UType dom stage
[_typeName] :: UType dom stage -> Ann UName dom stage

-- | Type surrounded by parentheses (<tt> (T a) </tt>)
UTyParen :: Ann UType dom stage -> UType dom stage
[_typeInner] :: UType dom stage -> Ann UType dom stage

-- | Infix type constructor (<tt> (a &lt;: b) </tt>)
UTyInfix :: Ann UType dom stage -> Ann UOperator dom stage -> Ann UType dom stage -> UType dom stage
[_typeLeft] :: UType dom stage -> Ann UType dom stage
[_typeOperator] :: UType dom stage -> Ann UOperator dom stage
[_typeRight] :: UType dom stage -> Ann UType dom stage

-- | Type with explicit kind signature (<tt> a :: * </tt>)
UTyKinded :: Ann UType dom stage -> Ann UKind dom stage -> UType dom stage
[_typeInner] :: UType dom stage -> Ann UType dom stage
[_typeKind] :: UType dom stage -> Ann UKind dom stage
UTyPromoted :: Ann (UPromoted UType) dom stage -> UType dom stage
[_tpPromoted] :: UType dom stage -> Ann (UPromoted UType) dom stage

-- | A Template Haskell splice type (<tt> $(genType) </tt>).
UTySplice :: Ann USplice dom stage -> UType dom stage
[_tsSplice] :: UType dom stage -> Ann USplice dom stage

-- | A Template Haskell quasi-quote type (<tt> [quoter| ... ] </tt>).
UTyQuasiQuote :: Ann UQuasiQuote dom stage -> UType dom stage
[_typeQQ] :: UType dom stage -> Ann UQuasiQuote dom stage

-- | Strict type marked with <tt>!</tt>.
UTyBang :: Ann UType dom stage -> UType dom stage
[_typeInner] :: UType dom stage -> Ann UType dom stage

-- | Lazy type marked with <tt>~</tt>. (Should only be used if
--   <tt>Strict</tt> or <tt>StrictData</tt> language extension is used)
UTyLazy :: Ann UType dom stage -> UType dom stage
[_typeInner] :: UType dom stage -> Ann UType dom stage

-- | Strict type marked with UNPACK pragma. (Usually contains the bang
--   mark.)
UTyUnpack :: Ann UType dom stage -> UType dom stage
[_typeInner] :: UType dom stage -> Ann UType dom stage

-- | Strict type marked with NOUNPACK pragma. (Usually contains the bang
--   mark.)
UTyNoUnpack :: Ann UType dom stage -> UType dom stage
[_typeInner] :: UType dom stage -> Ann UType dom stage

-- | A wildcard type (<tt> _ </tt>) with <tt>-XPartialTypeSignatures</tt>
UTyWildcard :: UType dom stage

-- | A named wildcard type (<tt> _t </tt>) with
--   <tt>-XPartialTypeSignatures</tt>
UTyNamedWildc :: Ann UName dom stage -> UType dom stage
[_typeWildcardName] :: UType dom stage -> Ann UName dom stage

-- | An unboxed sum type (<tt> () </tt>)
UUnbSumType :: AnnListG UType dom stage -> UType dom stage
[_typeElements] :: UType dom stage -> AnnListG UType dom stage
data UContext dom stage

-- | Assertions with the fat arrow (<tt> C a =&gt; ... </tt>)
UContext :: Ann UAssertion dom stage -> UContext dom stage
[_contextAssertion] :: UContext dom stage -> Ann UAssertion dom stage

-- | A single assertion in the context
data UAssertion dom stage

-- | Class assertion (<tt>Cls x</tt>)
UClassAssert :: Ann UName dom stage -> AnnListG UType dom stage -> UAssertion dom stage
[_assertClsName] :: UAssertion dom stage -> Ann UName dom stage
[_assertTypes] :: UAssertion dom stage -> AnnListG UType dom stage

-- | Infix class assertion, also contains type equations (<tt> a ~ X y
--   </tt>)
UInfixAssert :: Ann UType dom stage -> Ann UOperator dom stage -> Ann UType dom stage -> UAssertion dom stage
[_assertLhs] :: UAssertion dom stage -> Ann UType dom stage
[_assertOp] :: UAssertion dom stage -> Ann UOperator dom stage
[_assertRhs] :: UAssertion dom stage -> Ann UType dom stage

-- | Assertion for implicit parameter binding (<tt> ?cmp :: a -&gt; a -&gt;
--   Bool </tt>)
UImplicitAssert :: Ann UName dom stage -> Ann UType dom stage -> UAssertion dom stage
[_assertImplVar] :: UAssertion dom stage -> Ann UName dom stage
[_assertImplType] :: UAssertion dom stage -> Ann UType dom stage

-- | Multiple assertions in one (<tt> (Ord a, Show a) </tt>)
UTupleAssert :: AnnListG UAssertion dom stage -> UAssertion dom stage
[_innerAsserts] :: UAssertion dom stage -> AnnListG UAssertion dom stage

-- | Wildcard assertion (<tt> _ </tt>), enabled by
--   <tt>PartialTypeSignatures</tt>
UWildcardAssert :: UAssertion dom stage

-- | Kind constraint (<tt> :: * -&gt; * </tt>)
data UKindConstraint dom stage
UKindConstraint :: Ann UKind dom stage -> UKindConstraint dom stage
[_kindConstr] :: UKindConstraint dom stage -> Ann UKind dom stage

-- | Haskell kinds
data UKind dom stage

-- | <tt>*</tt>, the kind of types
UStarKind :: UKind dom stage

-- | <tt>#</tt>, the kind of unboxed types
UUnboxKind :: UKind dom stage

-- | <tt>-&gt;</tt>, the kind of type constructor
UFunKind :: Ann UKind dom stage -> Ann UKind dom stage -> UKind dom stage
[_kindLeft] :: UKind dom stage -> Ann UKind dom stage
[_kindRight] :: UKind dom stage -> Ann UKind dom stage

-- | A parenthesised kind
UParenKind :: Ann UKind dom stage -> UKind dom stage
[_kindParen] :: UKind dom stage -> Ann UKind dom stage

-- | Kind variable (using <tt>PolyKinds</tt> extension)
UVarKind :: Ann UName dom stage -> UKind dom stage
[_kindVar] :: UKind dom stage -> Ann UName dom stage

-- | Kind application (<tt> k1 k2 </tt>)
UAppKind :: Ann UKind dom stage -> Ann UKind dom stage -> UKind dom stage
[_kindAppFun] :: UKind dom stage -> Ann UKind dom stage
[_kindAppArg] :: UKind dom stage -> Ann UKind dom stage

-- | Infix kind application (<tt> k1 ~&gt; k2 </tt>)
UInfixAppKind :: Ann UKind dom stage -> Ann UOperator dom stage -> Ann UKind dom stage -> UKind dom stage
[_kindLhs] :: UKind dom stage -> Ann UKind dom stage
[_kindAppOp] :: UKind dom stage -> Ann UOperator dom stage
[_kindRhs] :: UKind dom stage -> Ann UKind dom stage

-- | A list kind (<tt> [k] </tt>)
UListKind :: Ann UKind dom stage -> UKind dom stage
[_kindElem] :: UKind dom stage -> Ann UKind dom stage

-- | A tuple kind (<tt> (Symbol, *) </tt>)
UTupleKind :: AnnListG UKind dom stage -> UKind dom stage
[_kindElems] :: UKind dom stage -> AnnListG UKind dom stage

-- | A promoted kind (<tt> '(k1,k2,k3) </tt>)
UPromotedKind :: Ann (UPromoted UKind) dom stage -> UKind dom stage
[_kindPromoted] :: UKind dom stage -> Ann (UPromoted UKind) dom stage

-- | A type on the kind level with <tt>TypeInType</tt>
UTypeKind :: Ann UType dom stage -> UKind dom stage
[_kindType] :: UKind dom stage -> Ann UType dom stage
data UPromoted t dom stage

-- | Numeric value promoted to the kind level.
UPromotedInt :: Integer -> UPromoted t dom stage
[_promotedIntValue] :: UPromoted t dom stage -> Integer

-- | String value promoted to the kind level.
UPromotedString :: String -> UPromoted t dom stage
[_promotedStringValue] :: UPromoted t dom stage -> String

-- | A data constructor value promoted to the kind level.
UPromotedCon :: Ann UName dom stage -> UPromoted t dom stage
[_promotedConName] :: UPromoted t dom stage -> Ann UName dom stage

-- | A list of elements as a kind.
UPromotedList :: AnnListG t dom stage -> UPromoted t dom stage
[_promotedElements] :: UPromoted t dom stage -> AnnListG t dom stage

-- | A tuple of elements as a kind.
UPromotedTuple :: AnnListG t dom stage -> UPromoted t dom stage
[_promotedElements] :: UPromoted t dom stage -> AnnListG t dom stage

-- | Kind of the unit value <tt>()</tt>.
UPromotedUnit :: UPromoted t dom stage

-- | Haskell literals
data ULiteral dom stage

-- | Character literal: <tt><tt>c</tt></tt>
UCharLit :: Char -> ULiteral dom stage
[_charLitValue] :: ULiteral dom stage -> Char

-- | String literal: <tt>"abc"</tt>
UStringLit :: String -> ULiteral dom stage
[_stringLitValue] :: ULiteral dom stage -> String

-- | Integer literal: <tt>12</tt>
UIntLit :: Integer -> ULiteral dom stage
[_intLitValue] :: ULiteral dom stage -> Integer

-- | Fractional literal: <tt>3.14</tt>
UFracLit :: Rational -> ULiteral dom stage
[_fracLitValue] :: ULiteral dom stage -> Rational

-- | Primitive integer literal (of type <tt>Int#</tt>): <tt>32#</tt>
UPrimIntLit :: Integer -> ULiteral dom stage
[_intLitValue] :: ULiteral dom stage -> Integer

-- | Primitive word literal (of type <tt>Word#</tt>): <tt>32##</tt>
UPrimWordLit :: Integer -> ULiteral dom stage
[_intLitValue] :: ULiteral dom stage -> Integer

-- | Primitive float literal (of type <tt>Float#</tt>): <tt>3.14#</tt>
UPrimFloatLit :: Rational -> ULiteral dom stage
[_floatLitValue] :: ULiteral dom stage -> Rational

-- | Primitive double literal (of type <tt>Double#</tt>): <tt>3.14##</tt>
UPrimDoubleLit :: Rational -> ULiteral dom stage
[_floatLitValue] :: ULiteral dom stage -> Rational

-- | Primitive character literal (of type <tt>Char#</tt>):
--   <tt><tt>c</tt>#</tt>
UPrimCharLit :: Char -> ULiteral dom stage
[_charLitValue] :: ULiteral dom stage -> Char

-- | Primitive string literal (of type <tt>Addr#</tt>): <tt>"xxx"#</tt>
UPrimStringLit :: String -> ULiteral dom stage
[_stringLitValue] :: ULiteral dom stage -> String
data UOperator dom stage

-- | A normal name used as an operator with backticks: <tt> a <a>mod</a> b
--   </tt>
UBacktickOp :: Ann UQualifiedName dom stage -> UOperator dom stage
[_operatorName] :: UOperator dom stage -> Ann UQualifiedName dom stage

-- | A normal operator used as an operator.
UNormalOp :: Ann UQualifiedName dom stage -> UOperator dom stage
[_operatorName] :: UOperator dom stage -> Ann UQualifiedName dom stage
data UName dom stage

-- | Parenthesized name: <tt> foldl (+) 0 </tt>
UParenName :: Ann UQualifiedName dom stage -> UName dom stage
[_simpleName] :: UName dom stage -> Ann UQualifiedName dom stage

-- | A normal, non-operator name.
UNormalName :: Ann UQualifiedName dom stage -> UName dom stage
[_simpleName] :: UName dom stage -> Ann UQualifiedName dom stage

-- | Implicit name: <tt> ?var </tt>
UImplicitName :: Ann UQualifiedName dom stage -> UName dom stage
[_simpleName] :: UName dom stage -> Ann UQualifiedName dom stage

-- | Possible qualified names. Contains also implicit names. Linear
--   implicit parameter: <tt>%x</tt>. Non-linear implicit parameter:
--   <tt>?x</tt>.
data UQualifiedName dom stage
UQualifiedName :: AnnListG UNamePart dom stage -> Ann UNamePart dom stage -> UQualifiedName dom stage
[_qualifiers] :: UQualifiedName dom stage -> AnnListG UNamePart dom stage
[_unqualifiedName] :: UQualifiedName dom stage -> Ann UNamePart dom stage
nameFromList :: AnnListG UNamePart dom stage -> UQualifiedName dom stage

-- | Parts of a qualified name.
data UNamePart dom stage
UNamePart :: String -> UNamePart dom stage
[_simpleNameStr] :: UNamePart dom stage -> String

-- | Program elements formatted as string literals (import packages, pragma
--   texts)
data UStringNode dom stage
UStringNode :: String -> UStringNode dom stage
[_stringNodeStr] :: UStringNode dom stage -> String
