import InstEnv
import FamInstEnv
import TcRnMonad
+import HsSyn
import HscTypes
import Finder
import DynFlags
import Data.List
import Data.IORef
import System.FilePath
-import System.Exit ( exitWith, ExitCode(..) )
\end{code}
-> Maybe Fingerprint -- The old fingerprint, if we have it
-> ModDetails -- The trimmed, tidied interface
-> ModGuts -- Usages, deprecations, etc
- -> IO (ModIface, -- The new one
- Bool) -- True <=> there was an old Iface, and the
+ -> IO (Messages,
+ Maybe (ModIface, -- The new one
+ Bool)) -- True <=> there was an old Iface, and the
-- new one is identical, so no need
-- to write it
= mkIface_ hsc_env maybe_old_fingerprint
this_mod is_boot used_names deps rdr_env
fix_env warns hpc_info dir_imp_mods mod_details
-
+
-- | make an interface from the results of typechecking only. Useful
-- for non-optimising compilation, or where we aren't generating any
-- object code at all ('HscNothing').
-> Maybe Fingerprint -- The old fingerprint, if we have it
-> ModDetails -- gotten from mkBootModDetails, probably
-> TcGblEnv -- Usages, deprecations, etc
- -> IO (ModIface,
- Bool)
+ -> IO (Messages, Maybe (ModIface, Bool))
mkIfaceTc hsc_env maybe_old_fingerprint mod_details
tc_result@TcGblEnv{ tcg_mod = this_mod,
tcg_src = hsc_src,
-> NameEnv FixItem -> Warnings -> HpcInfo
-> ImportedMods
-> ModDetails
- -> IO (ModIface, Bool)
+ -> IO (Messages, Maybe (ModIface, Bool))
mkIface_ hsc_env maybe_old_fingerprint
this_mod is_boot used_names deps rdr_env fix_env src_warns hpc_info
dir_imp_mods
| r <- iface_rules
, isNothing (ifRuleOrph r) ]
- ; when (not (isEmptyBag orph_warnings))
- (do { printErrorsAndWarnings dflags errs_and_warns -- XXX
- ; when (errorsFound dflags errs_and_warns)
- (exitWith (ExitFailure 1)) })
+ ; if errorsFound dflags errs_and_warns
+ then return ( errs_and_warns, Nothing )
+ else do {
-- XXX ; when (dopt Opt_D_dump_hi_diffs dflags) (printDump pp_diffs)
-- with the old GlobalRdrEnv (mi_globals).
; let final_iface = new_iface{ mi_globals = Just rdr_env }
- ; return (final_iface, no_change_at_all) }
+ ; return (errs_and_warns, Just (final_iface, no_change_at_all)) }}
where
r1 `le_rule` r2 = ifRuleName r1 <= ifRuleName r2
i1 `le_inst` i2 = ifDFun i1 `le_occ` ifDFun i2
orM = foldr f (return False)
where f m rest = do b <- m; if b then return True else rest
- dep_missing (L _ mod) = do
- find_res <- liftIO $ findImportedModule hsc_env mod Nothing
+ dep_missing (L _ (ImportDecl (L _ mod) pkg _ _ _ _)) = do
+ find_res <- liftIO $ findImportedModule hsc_env mod pkg
case find_res of
Found _ mod
| pkg == this_pkg
(tvs, fds) = classTvsFds cls
arg_names = [filterNameSet is_local (tyClsNamesOfType ty) | ty <- tys]
orph | is_local cls_name = Just (nameOccName cls_name)
- | all isJust mb_ns = head mb_ns
+ | all isJust mb_ns = ASSERT( not (null mb_ns) ) head mb_ns
| otherwise = Nothing
mb_ns :: [Maybe OccName] -- One for each fundep; a locally-defined name
toIfaceIdInfo :: IdInfo -> [IfaceInfoItem]
toIfaceIdInfo id_info
= catMaybes [arity_hsinfo, caf_hsinfo, strict_hsinfo,
- inline_hsinfo, wrkr_hsinfo, unfold_hsinfo]
+ inline_hsinfo, unfold_hsinfo]
where
------------ Arity --------------
arity_info = arityInfo id_info
Just sig | not (isTopSig sig) -> Just (HsStrictness sig)
_other -> Nothing
- ------------ Worker --------------
- work_info = workerInfo id_info
- has_worker = workerExists work_info
- wrkr_hsinfo = case work_info of
- HasWorker work_id wrap_arity ->
- Just (HsWorker ((idName work_id)) wrap_arity)
- NoWorker -> Nothing
-
------------ Unfolding --------------
- -- The unfolding is redundant if there is a worker
- unfold_info = unfoldingInfo id_info
- rhs = unfoldingTemplate unfold_info
- no_unfolding = neverUnfold unfold_info
- -- The CoreTidy phase retains unfolding info iff
- -- we want to expose the unfolding, taking into account
- -- unconditional NOINLINE, etc. See TidyPgm.addExternal
- unfold_hsinfo | no_unfolding = Nothing
- | has_worker = Nothing -- Unfolding is implicit
- | otherwise = Just (HsUnfold (toIfaceExpr rhs))
+ unfold_hsinfo = fmap HsUnfold $ toIfUnfolding (unfoldingInfo id_info)
------------ Inline prag --------------
inline_prag = inlinePragInfo id_info
- inline_hsinfo | isAlwaysActive inline_prag = Nothing
- | no_unfolding && not has_worker = Nothing
+ inline_hsinfo | isAlwaysActive inline_prag = Nothing
+ | isNothing unfold_hsinfo = Nothing
-- If the iface file give no unfolding info, we
-- don't need to say when inlining is OK!
- | otherwise = Just (HsInline inline_prag)
+ | otherwise = Just (HsInline inline_prag)
+
+--------------------------
+toIfUnfolding :: Unfolding -> Maybe IfaceUnfolding
+toIfUnfolding (CoreUnfolding { uf_tmpl = rhs, uf_guidance = guidance })
+ = case guidance of
+ UnfoldNever -> Nothing
+ _ -> Just (IfCoreUnfold (toIfaceExpr rhs))
+toIfUnfolding (InlineRule { uf_worker = Just wkr, uf_arity = arity })
+ = Just (IfWrapper arity (idName wkr))
+toIfUnfolding (InlineRule { uf_worker = Nothing, uf_tmpl = rhs, uf_arity = arity })
+ = Just (IfInlineRule arity (toIfaceExpr rhs))
+toIfUnfolding _
+ = Nothing
--------------------------
coreRuleToIfaceRule :: Module -> CoreRule -> IfaceRule
---------------------
toIfaceNote :: Note -> IfaceNote
toIfaceNote (SCC cc) = IfaceSCC cc
-toIfaceNote InlineMe = IfaceInlineMe
toIfaceNote (CoreNote s) = IfaceCoreNote s
---------------------