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|
{-# LANGUAGE CPP #-}
{-# LANGUAGE LambdaCase #-}
-- | This module implements interface renaming, which is
-- used to rewrite interface files on the fly when we
-- are doing indefinite typechecking and need instantiations
-- of modules which do not necessarily exist yet.
module RnModIface(
rnModIface,
rnModExports,
tcRnModIface,
tcRnModExports,
) where
#include "HsVersions.h"
import GhcPrelude
import SrcLoc
import Outputable
import HscTypes
import Module
import UniqFM
import Avail
import IfaceSyn
import FieldLabel
import Var
import ErrUtils
import Name
import TcRnMonad
import Util
import Fingerprint
import BasicTypes
-- a bit vexing
import {-# SOURCE #-} LoadIface
import DynFlags
import qualified Data.Traversable as T
import Bag
import Data.IORef
import NameShape
import IfaceEnv
tcRnMsgMaybe :: IO (Either ErrorMessages a) -> TcM a
tcRnMsgMaybe do_this = do
r <- liftIO $ do_this
case r of
Left errs -> do
addMessages (emptyBag, errs)
failM
Right x -> return x
tcRnModIface :: [(ModuleName, Module)] -> Maybe NameShape -> ModIface -> TcM ModIface
tcRnModIface x y z = do
hsc_env <- getTopEnv
tcRnMsgMaybe $ rnModIface hsc_env x y z
tcRnModExports :: [(ModuleName, Module)] -> ModIface -> TcM [AvailInfo]
tcRnModExports x y = do
hsc_env <- getTopEnv
tcRnMsgMaybe $ rnModExports hsc_env x y
failWithRn :: SDoc -> ShIfM a
failWithRn doc = do
errs_var <- fmap sh_if_errs getGblEnv
dflags <- getDynFlags
errs <- readTcRef errs_var
-- TODO: maybe associate this with a source location?
writeTcRef errs_var (errs `snocBag` mkPlainErrMsg dflags noSrcSpan doc)
failM
-- | What we have is a generalized ModIface, which corresponds to
-- a module that looks like p[A=<A>]:B. We need a *specific* ModIface, e.g.
-- p[A=q():A]:B (or maybe even p[A=<B>]:B) which we load
-- up (either to merge it, or to just use during typechecking).
--
-- Suppose we have:
--
-- p[A=<A>]:M ==> p[A=q():A]:M
--
-- Substitute all occurrences of <A> with q():A (renameHoleModule).
-- Then, for any Name of form {A.T}, replace the Name with
-- the Name according to the exports of the implementing module.
-- This works even for p[A=<B>]:M, since we just read in the
-- exports of B.hi, which is assumed to be ready now.
--
-- This function takes an optional 'NameShape', which can be used
-- to further refine the identities in this interface: suppose
-- we read a declaration for {H.T} but we actually know that this
-- should be Foo.T; then we'll also rename this (this is used
-- when loading an interface to merge it into a requirement.)
rnModIface :: HscEnv -> [(ModuleName, Module)] -> Maybe NameShape
-> ModIface -> IO (Either ErrorMessages ModIface)
rnModIface hsc_env insts nsubst iface = do
initRnIface hsc_env iface insts nsubst $ do
mod <- rnModule (mi_module iface)
sig_of <- case mi_sig_of iface of
Nothing -> return Nothing
Just x -> fmap Just (rnModule x)
exports <- mapM rnAvailInfo (mi_exports iface)
decls <- mapM rnIfaceDecl' (mi_decls iface)
insts <- mapM rnIfaceClsInst (mi_insts iface)
fams <- mapM rnIfaceFamInst (mi_fam_insts iface)
deps <- rnDependencies (mi_deps iface)
-- TODO:
-- mi_rules
-- mi_vect_info (LOW PRIORITY)
return iface { mi_module = mod
, mi_sig_of = sig_of
, mi_insts = insts
, mi_fam_insts = fams
, mi_exports = exports
, mi_decls = decls
, mi_deps = deps }
-- | Rename just the exports of a 'ModIface'. Useful when we're doing
-- shaping prior to signature merging.
rnModExports :: HscEnv -> [(ModuleName, Module)] -> ModIface -> IO (Either ErrorMessages [AvailInfo])
rnModExports hsc_env insts iface
= initRnIface hsc_env iface insts Nothing
$ mapM rnAvailInfo (mi_exports iface)
rnDependencies :: Rename Dependencies
rnDependencies deps = do
orphs <- rnDepModules dep_orphs deps
finsts <- rnDepModules dep_finsts deps
return deps { dep_orphs = orphs, dep_finsts = finsts }
rnDepModules :: (Dependencies -> [Module]) -> Dependencies -> ShIfM [Module]
rnDepModules sel deps = do
hsc_env <- getTopEnv
hmap <- getHoleSubst
-- NB: It's not necessary to test if we're doing signature renaming,
-- because ModIface will never contain module reference for itself
-- in these dependencies.
fmap (nubSort . concat) . T.forM (sel deps) $ \mod -> do
dflags <- getDynFlags
let mod' = renameHoleModule dflags hmap mod
iface <- liftIO . initIfaceCheck (text "rnDepModule") hsc_env
$ loadSysInterface (text "rnDepModule") mod'
return (mod' : sel (mi_deps iface))
{-
************************************************************************
* *
ModIface substitution
* *
************************************************************************
-}
-- | Run a computation in the 'ShIfM' monad.
initRnIface :: HscEnv -> ModIface -> [(ModuleName, Module)] -> Maybe NameShape
-> ShIfM a -> IO (Either ErrorMessages a)
initRnIface hsc_env iface insts nsubst do_this = do
errs_var <- newIORef emptyBag
let dflags = hsc_dflags hsc_env
hsubst = listToUFM insts
rn_mod = renameHoleModule dflags hsubst
env = ShIfEnv {
sh_if_module = rn_mod (mi_module iface),
sh_if_semantic_module = rn_mod (mi_semantic_module iface),
sh_if_hole_subst = listToUFM insts,
sh_if_shape = nsubst,
sh_if_errs = errs_var
}
-- Modeled off of 'initTc'
res <- initTcRnIf 'c' hsc_env env () $ tryM do_this
msgs <- readIORef errs_var
case res of
Left _ -> return (Left msgs)
Right r | not (isEmptyBag msgs) -> return (Left msgs)
| otherwise -> return (Right r)
-- | Environment for 'ShIfM' monads.
data ShIfEnv = ShIfEnv {
-- What we are renaming the ModIface to. It assumed that
-- the original mi_module of the ModIface is
-- @generalizeModule (mi_module iface)@.
sh_if_module :: Module,
-- The semantic module that we are renaming to
sh_if_semantic_module :: Module,
-- Cached hole substitution, e.g.
-- @sh_if_hole_subst == listToUFM . unitIdInsts . moduleUnitId . sh_if_module@
sh_if_hole_subst :: ShHoleSubst,
-- An optional name substitution to be applied when renaming
-- the names in the interface. If this is 'Nothing', then
-- we just load the target interface and look at the export
-- list to determine the renaming.
sh_if_shape :: Maybe NameShape,
-- Mutable reference to keep track of errors (similar to 'tcl_errs')
sh_if_errs :: IORef ErrorMessages
}
getHoleSubst :: ShIfM ShHoleSubst
getHoleSubst = fmap sh_if_hole_subst getGblEnv
type ShIfM = TcRnIf ShIfEnv ()
type Rename a = a -> ShIfM a
rnModule :: Rename Module
rnModule mod = do
hmap <- getHoleSubst
dflags <- getDynFlags
return (renameHoleModule dflags hmap mod)
rnAvailInfo :: Rename AvailInfo
rnAvailInfo (Avail n) = Avail <$> rnIfaceGlobal n
rnAvailInfo (AvailTC n ns fs) = do
-- Why don't we rnIfaceGlobal the availName itself? It may not
-- actually be exported by the module it putatively is from, in
-- which case we won't be able to tell what the name actually
-- is. But for the availNames they MUST be exported, so they
-- will rename fine.
ns' <- mapM rnIfaceGlobal ns
fs' <- mapM rnFieldLabel fs
case ns' ++ map flSelector fs' of
[] -> panic "rnAvailInfoEmpty AvailInfo"
(rep:rest) -> ASSERT2( all ((== nameModule rep) . nameModule) rest, ppr rep $$ hcat (map ppr rest) ) do
n' <- setNameModule (Just (nameModule rep)) n
return (AvailTC n' ns' fs')
rnFieldLabel :: Rename FieldLabel
rnFieldLabel (FieldLabel l b sel) = do
sel' <- rnIfaceGlobal sel
return (FieldLabel l b sel')
-- | The key function. This gets called on every Name embedded
-- inside a ModIface. Our job is to take a Name from some
-- generalized unit ID p[A=<A>, B=<B>], and change
-- it to the correct name for a (partially) instantiated unit
-- ID, e.g. p[A=q[]:A, B=<B>].
--
-- There are two important things to do:
--
-- If a hole is substituted with a real module implementation,
-- we need to look at that actual implementation to determine what
-- the true identity of this name should be. We'll do this by
-- loading that module's interface and looking at the mi_exports.
--
-- However, there is one special exception: when we are loading
-- the interface of a requirement. In this case, we may not have
-- the "implementing" interface, because we are reading this
-- interface precisely to "merge it in".
--
-- External case:
-- p[A=<B>]:A (and thisUnitId is something else)
-- We are loading this in order to determine B.hi! So
-- don't load B.hi to find the exports.
--
-- Local case:
-- p[A=<A>]:A (and thisUnitId is p[A=<A>])
-- This should not happen, because the rename is not necessary
-- in this case, but if it does we shouldn't load A.hi!
--
-- Compare me with 'tcIfaceGlobal'!
-- In effect, this function needs compute the name substitution on the
-- fly. What it has is the name that we would like to substitute.
-- If the name is not a hole name {M.x} (e.g. isHoleModule) then
-- no renaming can take place (although the inner hole structure must
-- be updated to account for the hole module renaming.)
rnIfaceGlobal :: Name -> ShIfM Name
rnIfaceGlobal n = do
hsc_env <- getTopEnv
let dflags = hsc_dflags hsc_env
iface_semantic_mod <- fmap sh_if_semantic_module getGblEnv
mb_nsubst <- fmap sh_if_shape getGblEnv
hmap <- getHoleSubst
let m = nameModule n
m' = renameHoleModule dflags hmap m
case () of
-- Did we encounter {A.T} while renaming p[A=<B>]:A? If so,
-- do NOT assume B.hi is available.
-- In this case, rename {A.T} to {B.T} but don't look up exports.
_ | m' == iface_semantic_mod
, isHoleModule m'
-- NB: this could be Nothing for computeExports, we have
-- nothing to say.
-> do n' <- setNameModule (Just m') n
case mb_nsubst of
Nothing -> return n'
Just nsubst ->
case maybeSubstNameShape nsubst n' of
-- TODO: would love to have context
-- TODO: This will give an unpleasant message if n'
-- is a constructor; then we'll suggest adding T
-- but it won't work.
Nothing -> failWithRn $ vcat [
text "The identifier" <+> ppr (occName n') <+>
text "does not exist in the local signature.",
parens (text "Try adding it to the export list of the hsig file.")
]
Just n'' -> return n''
-- Fastpath: we are renaming p[H=<H>]:A.T, in which case the
-- export list is irrelevant.
| not (isHoleModule m)
-> setNameModule (Just m') n
-- The substitution was from <A> to p[]:A.
-- But this does not mean {A.T} goes to p[]:A.T:
-- p[]:A may reexport T from somewhere else. Do the name
-- substitution. Furthermore, we need
-- to make sure we pick the accurate name NOW,
-- or we might accidentally reject a merge.
| otherwise
-> do -- Make sure we look up the local interface if substitution
-- went from <A> to <B>.
let m'' = if isHoleModule m'
-- Pull out the local guy!!
then mkModule (thisPackage dflags) (moduleName m')
else m'
iface <- liftIO . initIfaceCheck (text "rnIfaceGlobal") hsc_env
$ loadSysInterface (text "rnIfaceGlobal") m''
let nsubst = mkNameShape (moduleName m) (mi_exports iface)
case maybeSubstNameShape nsubst n of
Nothing -> failWithRn $ vcat [
text "The identifier" <+> ppr (occName n) <+>
-- NB: report m' because it's more user-friendly
text "does not exist in the signature for" <+> ppr m',
parens (text "Try adding it to the export list in that hsig file.")
]
Just n' -> return n'
-- | Rename an implicit name, e.g., a DFun or coercion axiom.
-- Here is where we ensure that DFuns have the correct module as described in
-- Note [rnIfaceNeverExported].
rnIfaceNeverExported :: Name -> ShIfM Name
rnIfaceNeverExported name = do
hmap <- getHoleSubst
dflags <- getDynFlags
iface_semantic_mod <- fmap sh_if_semantic_module getGblEnv
let m = renameHoleModule dflags hmap $ nameModule name
-- Doublecheck that this DFun/coercion axiom was, indeed, locally defined.
MASSERT2( iface_semantic_mod == m, ppr iface_semantic_mod <+> ppr m )
setNameModule (Just m) name
-- Note [rnIfaceNeverExported]
-- ~~~~~~~~~~~~~~~~~~~~~~~~~~~
-- For the high-level overview, see
-- Note [Handling never-exported TyThings under Backpack]
--
-- When we see a reference to an entity that was defined in a signature,
-- 'rnIfaceGlobal' relies on the identifier in question being part of the
-- exports of the implementing 'ModIface', so that we can use the exports to
-- decide how to rename the identifier. Unfortunately, references to 'DFun's
-- and 'CoAxiom's will run into trouble under this strategy, because they are
-- never exported.
--
-- Let us consider first what should happen in the absence of promotion. In
-- this setting, a reference to a 'DFun' or a 'CoAxiom' can only occur inside
-- the signature *that is defining it* (as there are no Core terms in
-- typechecked-only interface files, there's no way for a reference to occur
-- besides from the defining 'ClsInst' or closed type family). Thus,
-- it doesn't really matter what names we give the DFun/CoAxiom, as long
-- as it's consistent between the declaration site and the use site.
--
-- We have to make sure that these bogus names don't get propagated,
-- but it is fine: see Note [Signature merging DFuns] for the fixups
-- to the names we do before writing out the merged interface.
-- (It's even easier for instantiation, since the DFuns all get
-- dropped entirely; the instances are reexported implicitly.)
--
-- Unfortunately, this strategy is not enough in the presence of promotion
-- (see bug #13149), where modules which import the signature may make
-- reference to their coercions. It's not altogether clear how to
-- fix this case, but it is definitely a bug!
-- PILES AND PILES OF BOILERPLATE
-- | Rename an 'IfaceClsInst', with special handling for an associated
-- dictionary function.
rnIfaceClsInst :: Rename IfaceClsInst
rnIfaceClsInst cls_inst = do
n <- rnIfaceGlobal (ifInstCls cls_inst)
tys <- mapM rnMaybeIfaceTyCon (ifInstTys cls_inst)
dfun <- rnIfaceNeverExported (ifDFun cls_inst)
return cls_inst { ifInstCls = n
, ifInstTys = tys
, ifDFun = dfun
}
rnMaybeIfaceTyCon :: Rename (Maybe IfaceTyCon)
rnMaybeIfaceTyCon Nothing = return Nothing
rnMaybeIfaceTyCon (Just tc) = Just <$> rnIfaceTyCon tc
rnIfaceFamInst :: Rename IfaceFamInst
rnIfaceFamInst d = do
fam <- rnIfaceGlobal (ifFamInstFam d)
tys <- mapM rnMaybeIfaceTyCon (ifFamInstTys d)
axiom <- rnIfaceGlobal (ifFamInstAxiom d)
return d { ifFamInstFam = fam, ifFamInstTys = tys, ifFamInstAxiom = axiom }
rnIfaceDecl' :: Rename (Fingerprint, IfaceDecl)
rnIfaceDecl' (fp, decl) = (,) fp <$> rnIfaceDecl decl
rnIfaceDecl :: Rename IfaceDecl
rnIfaceDecl d@IfaceId{} = do
name <- case ifIdDetails d of
IfDFunId -> rnIfaceNeverExported (ifName d)
_ | isDefaultMethodOcc (occName (ifName d))
-> rnIfaceNeverExported (ifName d)
-- Typeable bindings. See Note [Grand plan for Typeable].
_ | isTypeableBindOcc (occName (ifName d))
-> rnIfaceNeverExported (ifName d)
| otherwise -> rnIfaceGlobal (ifName d)
ty <- rnIfaceType (ifType d)
details <- rnIfaceIdDetails (ifIdDetails d)
info <- rnIfaceIdInfo (ifIdInfo d)
return d { ifName = name
, ifType = ty
, ifIdDetails = details
, ifIdInfo = info
}
rnIfaceDecl d@IfaceData{} = do
name <- rnIfaceGlobal (ifName d)
binders <- mapM rnIfaceTyConBinder (ifBinders d)
ctxt <- mapM rnIfaceType (ifCtxt d)
cons <- rnIfaceConDecls (ifCons d)
parent <- rnIfaceTyConParent (ifParent d)
return d { ifName = name
, ifBinders = binders
, ifCtxt = ctxt
, ifCons = cons
, ifParent = parent
}
rnIfaceDecl d@IfaceSynonym{} = do
name <- rnIfaceGlobal (ifName d)
binders <- mapM rnIfaceTyConBinder (ifBinders d)
syn_kind <- rnIfaceType (ifResKind d)
syn_rhs <- rnIfaceType (ifSynRhs d)
return d { ifName = name
, ifBinders = binders
, ifResKind = syn_kind
, ifSynRhs = syn_rhs
}
rnIfaceDecl d@IfaceFamily{} = do
name <- rnIfaceGlobal (ifName d)
binders <- mapM rnIfaceTyConBinder (ifBinders d)
fam_kind <- rnIfaceType (ifResKind d)
fam_flav <- rnIfaceFamTyConFlav (ifFamFlav d)
return d { ifName = name
, ifBinders = binders
, ifResKind = fam_kind
, ifFamFlav = fam_flav
}
rnIfaceDecl d@IfaceClass{} = do
name <- rnIfaceGlobal (ifName d)
binders <- mapM rnIfaceTyConBinder (ifBinders d)
body <- rnIfaceClassBody (ifBody d)
return d { ifName = name
, ifBinders = binders
, ifBody = body
}
rnIfaceDecl d@IfaceAxiom{} = do
name <- rnIfaceNeverExported (ifName d)
tycon <- rnIfaceTyCon (ifTyCon d)
ax_branches <- mapM rnIfaceAxBranch (ifAxBranches d)
return d { ifName = name
, ifTyCon = tycon
, ifAxBranches = ax_branches
}
rnIfaceDecl d@IfacePatSyn{} = do
name <- rnIfaceGlobal (ifName d)
let rnPat (n, b) = (,) <$> rnIfaceGlobal n <*> pure b
pat_matcher <- rnPat (ifPatMatcher d)
pat_builder <- T.traverse rnPat (ifPatBuilder d)
pat_univ_bndrs <- mapM rnIfaceForAllBndr (ifPatUnivBndrs d)
pat_ex_bndrs <- mapM rnIfaceForAllBndr (ifPatExBndrs d)
pat_prov_ctxt <- mapM rnIfaceType (ifPatProvCtxt d)
pat_req_ctxt <- mapM rnIfaceType (ifPatReqCtxt d)
pat_args <- mapM rnIfaceType (ifPatArgs d)
pat_ty <- rnIfaceType (ifPatTy d)
return d { ifName = name
, ifPatMatcher = pat_matcher
, ifPatBuilder = pat_builder
, ifPatUnivBndrs = pat_univ_bndrs
, ifPatExBndrs = pat_ex_bndrs
, ifPatProvCtxt = pat_prov_ctxt
, ifPatReqCtxt = pat_req_ctxt
, ifPatArgs = pat_args
, ifPatTy = pat_ty
}
rnIfaceClassBody :: Rename IfaceClassBody
rnIfaceClassBody IfAbstractClass = return IfAbstractClass
rnIfaceClassBody d@IfConcreteClass{} = do
ctxt <- mapM rnIfaceType (ifClassCtxt d)
ats <- mapM rnIfaceAT (ifATs d)
sigs <- mapM rnIfaceClassOp (ifSigs d)
return d { ifClassCtxt = ctxt, ifATs = ats, ifSigs = sigs }
rnIfaceFamTyConFlav :: Rename IfaceFamTyConFlav
rnIfaceFamTyConFlav (IfaceClosedSynFamilyTyCon (Just (n, axs)))
= IfaceClosedSynFamilyTyCon . Just <$> ((,) <$> rnIfaceNeverExported n
<*> mapM rnIfaceAxBranch axs)
rnIfaceFamTyConFlav flav = pure flav
rnIfaceAT :: Rename IfaceAT
rnIfaceAT (IfaceAT decl mb_ty)
= IfaceAT <$> rnIfaceDecl decl <*> T.traverse rnIfaceType mb_ty
rnIfaceTyConParent :: Rename IfaceTyConParent
rnIfaceTyConParent (IfDataInstance n tc args)
= IfDataInstance <$> rnIfaceGlobal n
<*> rnIfaceTyCon tc
<*> rnIfaceTcArgs args
rnIfaceTyConParent IfNoParent = pure IfNoParent
rnIfaceConDecls :: Rename IfaceConDecls
rnIfaceConDecls (IfDataTyCon ds)
= IfDataTyCon <$> mapM rnIfaceConDecl ds
rnIfaceConDecls (IfNewTyCon d) = IfNewTyCon <$> rnIfaceConDecl d
rnIfaceConDecls IfAbstractTyCon = pure IfAbstractTyCon
rnIfaceConDecl :: Rename IfaceConDecl
rnIfaceConDecl d = do
con_name <- rnIfaceGlobal (ifConName d)
con_ex_tvs <- mapM rnIfaceTvBndr (ifConExTvs d)
con_user_tvbs <- mapM rnIfaceForAllBndr (ifConUserTvBinders d)
let rnIfConEqSpec (n,t) = (,) n <$> rnIfaceType t
con_eq_spec <- mapM rnIfConEqSpec (ifConEqSpec d)
con_ctxt <- mapM rnIfaceType (ifConCtxt d)
con_arg_tys <- mapM rnIfaceType (ifConArgTys d)
con_fields <- mapM rnFieldLabel (ifConFields d)
let rnIfaceBang (IfUnpackCo co) = IfUnpackCo <$> rnIfaceCo co
rnIfaceBang bang = pure bang
con_stricts <- mapM rnIfaceBang (ifConStricts d)
return d { ifConName = con_name
, ifConExTvs = con_ex_tvs
, ifConUserTvBinders = con_user_tvbs
, ifConEqSpec = con_eq_spec
, ifConCtxt = con_ctxt
, ifConArgTys = con_arg_tys
, ifConFields = con_fields
, ifConStricts = con_stricts
}
rnIfaceClassOp :: Rename IfaceClassOp
rnIfaceClassOp (IfaceClassOp n ty dm) =
IfaceClassOp <$> rnIfaceGlobal n
<*> rnIfaceType ty
<*> rnMaybeDefMethSpec dm
rnMaybeDefMethSpec :: Rename (Maybe (DefMethSpec IfaceType))
rnMaybeDefMethSpec (Just (GenericDM ty)) = Just . GenericDM <$> rnIfaceType ty
rnMaybeDefMethSpec mb = return mb
rnIfaceAxBranch :: Rename IfaceAxBranch
rnIfaceAxBranch d = do
ty_vars <- mapM rnIfaceTvBndr (ifaxbTyVars d)
lhs <- rnIfaceTcArgs (ifaxbLHS d)
rhs <- rnIfaceType (ifaxbRHS d)
return d { ifaxbTyVars = ty_vars
, ifaxbLHS = lhs
, ifaxbRHS = rhs }
rnIfaceIdInfo :: Rename IfaceIdInfo
rnIfaceIdInfo NoInfo = pure NoInfo
rnIfaceIdInfo (HasInfo is) = HasInfo <$> mapM rnIfaceInfoItem is
rnIfaceInfoItem :: Rename IfaceInfoItem
rnIfaceInfoItem (HsUnfold lb if_unf)
= HsUnfold lb <$> rnIfaceUnfolding if_unf
rnIfaceInfoItem i
= pure i
rnIfaceUnfolding :: Rename IfaceUnfolding
rnIfaceUnfolding (IfCoreUnfold stable if_expr)
= IfCoreUnfold stable <$> rnIfaceExpr if_expr
rnIfaceUnfolding (IfCompulsory if_expr)
= IfCompulsory <$> rnIfaceExpr if_expr
rnIfaceUnfolding (IfInlineRule arity unsat_ok boring_ok if_expr)
= IfInlineRule arity unsat_ok boring_ok <$> rnIfaceExpr if_expr
rnIfaceUnfolding (IfDFunUnfold bs ops)
= IfDFunUnfold <$> rnIfaceBndrs bs <*> mapM rnIfaceExpr ops
rnIfaceExpr :: Rename IfaceExpr
rnIfaceExpr (IfaceLcl name) = pure (IfaceLcl name)
rnIfaceExpr (IfaceExt gbl) = IfaceExt <$> rnIfaceGlobal gbl
rnIfaceExpr (IfaceType ty) = IfaceType <$> rnIfaceType ty
rnIfaceExpr (IfaceCo co) = IfaceCo <$> rnIfaceCo co
rnIfaceExpr (IfaceTuple sort args) = IfaceTuple sort <$> rnIfaceExprs args
rnIfaceExpr (IfaceLam lam_bndr expr)
= IfaceLam <$> rnIfaceLamBndr lam_bndr <*> rnIfaceExpr expr
rnIfaceExpr (IfaceApp fun arg)
= IfaceApp <$> rnIfaceExpr fun <*> rnIfaceExpr arg
rnIfaceExpr (IfaceCase scrut case_bndr alts)
= IfaceCase <$> rnIfaceExpr scrut
<*> pure case_bndr
<*> mapM rnIfaceAlt alts
rnIfaceExpr (IfaceECase scrut ty)
= IfaceECase <$> rnIfaceExpr scrut <*> rnIfaceType ty
rnIfaceExpr (IfaceLet (IfaceNonRec bndr rhs) body)
= IfaceLet <$> (IfaceNonRec <$> rnIfaceLetBndr bndr <*> rnIfaceExpr rhs)
<*> rnIfaceExpr body
rnIfaceExpr (IfaceLet (IfaceRec pairs) body)
= IfaceLet <$> (IfaceRec <$> mapM (\(bndr, rhs) ->
(,) <$> rnIfaceLetBndr bndr
<*> rnIfaceExpr rhs) pairs)
<*> rnIfaceExpr body
rnIfaceExpr (IfaceCast expr co)
= IfaceCast <$> rnIfaceExpr expr <*> rnIfaceCo co
rnIfaceExpr (IfaceLit lit) = pure (IfaceLit lit)
rnIfaceExpr (IfaceFCall cc ty) = IfaceFCall cc <$> rnIfaceType ty
rnIfaceExpr (IfaceTick tickish expr) = IfaceTick tickish <$> rnIfaceExpr expr
rnIfaceBndrs :: Rename [IfaceBndr]
rnIfaceBndrs = mapM rnIfaceBndr
rnIfaceBndr :: Rename IfaceBndr
rnIfaceBndr (IfaceIdBndr (fs, ty)) = IfaceIdBndr <$> ((,) fs <$> rnIfaceType ty)
rnIfaceBndr (IfaceTvBndr tv_bndr) = IfaceIdBndr <$> rnIfaceTvBndr tv_bndr
rnIfaceTvBndr :: Rename IfaceTvBndr
rnIfaceTvBndr (fs, kind) = (,) fs <$> rnIfaceType kind
rnIfaceTyConBinder :: Rename IfaceTyConBinder
rnIfaceTyConBinder (TvBndr tv vis) = TvBndr <$> rnIfaceTvBndr tv <*> pure vis
rnIfaceAlt :: Rename IfaceAlt
rnIfaceAlt (conalt, names, rhs)
= (,,) <$> rnIfaceConAlt conalt <*> pure names <*> rnIfaceExpr rhs
rnIfaceConAlt :: Rename IfaceConAlt
rnIfaceConAlt (IfaceDataAlt data_occ) = IfaceDataAlt <$> rnIfaceGlobal data_occ
rnIfaceConAlt alt = pure alt
rnIfaceLetBndr :: Rename IfaceLetBndr
rnIfaceLetBndr (IfLetBndr fs ty info jpi)
= IfLetBndr fs <$> rnIfaceType ty <*> rnIfaceIdInfo info <*> pure jpi
rnIfaceLamBndr :: Rename IfaceLamBndr
rnIfaceLamBndr (bndr, oneshot) = (,) <$> rnIfaceBndr bndr <*> pure oneshot
rnIfaceCo :: Rename IfaceCoercion
rnIfaceCo (IfaceReflCo role ty) = IfaceReflCo role <$> rnIfaceType ty
rnIfaceCo (IfaceFunCo role co1 co2)
= IfaceFunCo role <$> rnIfaceCo co1 <*> rnIfaceCo co2
rnIfaceCo (IfaceTyConAppCo role tc cos)
= IfaceTyConAppCo role <$> rnIfaceTyCon tc <*> mapM rnIfaceCo cos
rnIfaceCo (IfaceAppCo co1 co2)
= IfaceAppCo <$> rnIfaceCo co1 <*> rnIfaceCo co2
rnIfaceCo (IfaceForAllCo bndr co1 co2)
= IfaceForAllCo <$> rnIfaceTvBndr bndr <*> rnIfaceCo co1 <*> rnIfaceCo co2
rnIfaceCo (IfaceFreeCoVar c) = pure (IfaceFreeCoVar c)
rnIfaceCo (IfaceCoVarCo lcl) = IfaceCoVarCo <$> pure lcl
rnIfaceCo (IfaceAxiomInstCo n i cs)
= IfaceAxiomInstCo <$> rnIfaceGlobal n <*> pure i <*> mapM rnIfaceCo cs
rnIfaceCo (IfaceUnivCo s r t1 t2)
= IfaceUnivCo s r <$> rnIfaceType t1 <*> rnIfaceType t2
rnIfaceCo (IfaceSymCo c)
= IfaceSymCo <$> rnIfaceCo c
rnIfaceCo (IfaceTransCo c1 c2)
= IfaceTransCo <$> rnIfaceCo c1 <*> rnIfaceCo c2
rnIfaceCo (IfaceInstCo c1 c2)
= IfaceInstCo <$> rnIfaceCo c1 <*> rnIfaceCo c2
rnIfaceCo (IfaceNthCo d c) = IfaceNthCo d <$> rnIfaceCo c
rnIfaceCo (IfaceLRCo lr c) = IfaceLRCo lr <$> rnIfaceCo c
rnIfaceCo (IfaceSubCo c) = IfaceSubCo <$> rnIfaceCo c
rnIfaceCo (IfaceAxiomRuleCo ax cos)
= IfaceAxiomRuleCo ax <$> mapM rnIfaceCo cos
rnIfaceCo (IfaceKindCo c) = IfaceKindCo <$> rnIfaceCo c
rnIfaceCo (IfaceCoherenceCo c1 c2) = IfaceCoherenceCo <$> rnIfaceCo c1 <*> rnIfaceCo c2
rnIfaceTyCon :: Rename IfaceTyCon
rnIfaceTyCon (IfaceTyCon n info)
= IfaceTyCon <$> rnIfaceGlobal n <*> pure info
rnIfaceExprs :: Rename [IfaceExpr]
rnIfaceExprs = mapM rnIfaceExpr
rnIfaceIdDetails :: Rename IfaceIdDetails
rnIfaceIdDetails (IfRecSelId (Left tc) b) = IfRecSelId <$> fmap Left (rnIfaceTyCon tc) <*> pure b
rnIfaceIdDetails (IfRecSelId (Right decl) b) = IfRecSelId <$> fmap Right (rnIfaceDecl decl) <*> pure b
rnIfaceIdDetails details = pure details
rnIfaceType :: Rename IfaceType
rnIfaceType (IfaceFreeTyVar n) = pure (IfaceFreeTyVar n)
rnIfaceType (IfaceTyVar n) = pure (IfaceTyVar n)
rnIfaceType (IfaceAppTy t1 t2)
= IfaceAppTy <$> rnIfaceType t1 <*> rnIfaceType t2
rnIfaceType (IfaceLitTy l) = return (IfaceLitTy l)
rnIfaceType (IfaceFunTy t1 t2)
= IfaceFunTy <$> rnIfaceType t1 <*> rnIfaceType t2
rnIfaceType (IfaceDFunTy t1 t2)
= IfaceDFunTy <$> rnIfaceType t1 <*> rnIfaceType t2
rnIfaceType (IfaceTupleTy s i tks)
= IfaceTupleTy s i <$> rnIfaceTcArgs tks
rnIfaceType (IfaceTyConApp tc tks)
= IfaceTyConApp <$> rnIfaceTyCon tc <*> rnIfaceTcArgs tks
rnIfaceType (IfaceForAllTy tv t)
= IfaceForAllTy <$> rnIfaceForAllBndr tv <*> rnIfaceType t
rnIfaceType (IfaceCoercionTy co)
= IfaceCoercionTy <$> rnIfaceCo co
rnIfaceType (IfaceCastTy ty co)
= IfaceCastTy <$> rnIfaceType ty <*> rnIfaceCo co
rnIfaceForAllBndr :: Rename IfaceForAllBndr
rnIfaceForAllBndr (TvBndr tv vis) = TvBndr <$> rnIfaceTvBndr tv <*> pure vis
rnIfaceTcArgs :: Rename IfaceTcArgs
rnIfaceTcArgs (ITC_Invis t ts) = ITC_Invis <$> rnIfaceType t <*> rnIfaceTcArgs ts
rnIfaceTcArgs (ITC_Vis t ts) = ITC_Vis <$> rnIfaceType t <*> rnIfaceTcArgs ts
rnIfaceTcArgs ITC_Nil = pure ITC_Nil
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