{-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE StandaloneDeriving #-} module GHC.Hs.PlaceHolder where import Name import NameSet import RdrName import Var {- %************************************************************************ %* * \subsection{Annotating the syntax} %* * %************************************************************************ -} -- NB: These are intentionally open, allowing API consumers (like Haddock) -- to declare new instances placeHolderNamesTc :: NameSet placeHolderNamesTc :: NameSet placeHolderNamesTc = NameSet emptyNameSet {- TODO:AZ: remove this, and check if we still need all the UndecidableInstances Note [Pass sensitive types] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Since the same AST types are re-used through parsing,renaming and type checking there are naturally some places in the AST that do not have any meaningful value prior to the pass they are assigned a value. Historically these have been filled in with place holder values of the form panic "error message" This has meant the AST is difficult to traverse using standard generic programming techniques. The problem is addressed by introducing pass-specific data types, implemented as a pair of open type families, one for PostTc and one for PostRn. These are then explicitly populated with a PlaceHolder value when they do not yet have meaning. In terms of actual usage, we have the following PostTc id Kind PostTc id Type PostRn id Fixity PostRn id NameSet TcId and Var are synonyms for Id Unfortunately the type checker termination checking conditions fail for the DataId constraint type based on this, so even though it is safe the UndecidableInstances pragma is required where this is used. -} -- |Follow the @id@, but never beyond Name. This is used in a 'HsMatchContext', -- for printing messages related to a 'Match' type family NameOrRdrName id where NameOrRdrName Id = Name NameOrRdrName Name = Name NameOrRdrName RdrName = RdrName