tcRnLookupName,
tcRnGetInfo,
getModuleExports,
+ tcRnRecoverDataCon,
#endif
tcRnModule,
tcTopSrcDecls,
import SrcLoc
import HscTypes
import Outputable
+import Breakpoints
#ifdef GHCI
+import Linker
+import DataCon
import TcHsType
import TcMType
import TcMatches
loadOrphanModules (imp_orphs imports) False ;
loadOrphanModules (imp_finsts imports) True ;
+ traceRn (text "rn1: checking family instance consistency") ;
let { directlyImpMods = map (\(mod, _, _) -> mod)
. moduleEnvElts
. imp_mods
mg_types = final_type_env,
mg_insts = tcg_insts tcg_env,
mg_fam_insts = tcg_fam_insts tcg_env,
+ mg_fam_inst_env = tcg_fam_inst_env tcg_env,
mg_rules = [],
mg_binds = core_binds,
mg_fix_env = emptyFixityEnv,
mg_deprecs = NoDeprecs,
mg_foreign = NoStubs,
- mg_hpc_info = noHpcInfo
+ mg_hpc_info = noHpcInfo,
+ mg_dbg_sites = noDbgSites
} } ;
tcCoreDump mod_guts ;
boot_iface <- tcHiBootIface mod ;
-- Do all the declarations
- tcg_env <- tc_rn_src_decls boot_iface decls ;
+ (tc_envs, lie) <- getLIE $ tc_rn_src_decls boot_iface decls ;
+
+ -- Finish simplifying class constraints
+ --
+ -- tcSimplifyTop deals with constant or ambiguous InstIds.
+ -- How could there be ambiguous ones? They can only arise if a
+ -- top-level decl falls under the monomorphism restriction
+ -- and no subsequent decl instantiates its type.
+ --
+ -- We do this after checkMain, so that we use the type info
+ -- thaat checkMain adds
+ --
+ -- We do it with both global and local env in scope:
+ -- * the global env exposes the instances to tcSimplifyTop
+ -- * the local env exposes the local Ids to tcSimplifyTop,
+ -- so that we get better error messages (monomorphism restriction)
+ traceTc (text "Tc8") ;
+ inst_binds <- setEnvs tc_envs (tcSimplifyTop lie) ;
-- Backsubstitution. This must be done last.
-- Even tcSimplifyTop may do some unification.
traceTc (text "Tc9") ;
- let { TcGblEnv { tcg_type_env = type_env, tcg_binds = binds,
- tcg_rules = rules, tcg_fords = fords } = tcg_env } ;
+ let { (tcg_env, _) = tc_envs
+ ; TcGblEnv { tcg_type_env = type_env, tcg_binds = binds,
+ tcg_rules = rules, tcg_fords = fords } = tcg_env
+ ; all_binds = binds `unionBags` inst_binds } ;
- (bind_ids, binds', fords', rules') <- zonkTopDecls binds rules fords ;
+ (bind_ids, binds', fords', rules') <- zonkTopDecls all_binds rules fords ;
let { final_type_env = extendTypeEnvWithIds type_env bind_ids
; tcg_env' = tcg_env { tcg_type_env = final_type_env,
return (tcg_env' { tcg_binds = tcg_binds tcg_env' `unionBags` dfun_binds })
}
-tc_rn_src_decls :: ModDetails -> [LHsDecl RdrName] -> TcM TcGblEnv
+tc_rn_src_decls :: ModDetails -> [LHsDecl RdrName] -> TcM (TcGblEnv, TcLclEnv)
-- Loops around dealing with each top level inter-splice group
-- in turn, until it's dealt with the entire module
tc_rn_src_decls boot_details ds
-- If ds is [] we get ([], Nothing)
-- Deal with decls up to, but not including, the first splice
- (tcg_env, rn_decls) <- rnTopSrcDecls first_group ;
- ((tcg_env, tcl_env), lie) <- getLIE $ setGblEnv tcg_env $
- tcTopSrcDecls boot_details rn_decls ;
-
- -- tcSimplifyTop deals with constant or ambiguous InstIds.
- -- How could there be ambiguous ones? They can only arise if a
- -- top-level decl falls under the monomorphism restriction
- -- and no subsequent decl instantiates its type.
- traceTc (text "Tc8") ;
- inst_binds <- setEnvs (tcg_env, tcl_env) (tcSimplifyTop lie) ;
- -- Setting the global env exposes the instances to tcSimplifyTop
- -- Setting the local env exposes the local Ids to tcSimplifyTop,
- -- so that we get better error messages (monomorphism restriction)
-
- let { tcg_env' = tcg_env { tcg_binds = tcg_binds tcg_env `unionBags` inst_binds } } ;
+ (tcg_env, rn_decls) <- checkNoErrs $ rnTopSrcDecls first_group ;
+ -- checkNoErrs: stop if renaming fails
- setEnvs (tcg_env', tcl_env) $
+ (tcg_env, tcl_env) <- setGblEnv tcg_env $
+ tcTopSrcDecls boot_details rn_decls ;
-- If there is no splice, we're nearly done
+ setEnvs (tcg_env, tcl_env) $
case group_tail of {
- Nothing -> -- Last thing: check for `main'
- checkMain ;
+ Nothing -> do { tcg_env <- checkMain ; -- Check for `main'
+ return (tcg_env, tcl_env)
+ } ;
-- If there's a splice, we must carry on
- Just (SpliceDecl splice_expr, rest_ds) ->
- do {
+ Just (SpliceDecl splice_expr, rest_ds) -> do {
#ifndef GHCI
failWithTc (text "Can't do a top-level splice; need a bootstrapped compiler")
#else
-- Rename the splice expression, and get its supporting decls
- (rn_splice_expr, splice_fvs) <- rnLExpr splice_expr ;
- failIfErrsM ; -- Don't typecheck if renaming failed
+ (rn_splice_expr, splice_fvs) <- checkNoErrs (rnLExpr splice_expr) ;
+ -- checkNoErrs: don't typecheck if renaming failed
rnDump (ppr rn_splice_expr) ;
-- Execute the splice
setGblEnv (tcg_env `addTcgDUs` usesOnly splice_fvs) $
tc_rn_src_decls boot_details (spliced_decls ++ rest_ds)
#endif /* GHCI */
- }}}
+ } } }
\end{code}
%************************************************************************
; (main_expr, ty) <- setSrcSpan (srcLocSpan (getSrcLoc main_name)) $
tcInferRho rhs
- -- The function that the RTS invokes is always :Main.main,
- -- which we call root_main_id.
- -- (Because GHC allows the user to have a module not called
- -- Main as the main module, we can't rely on the main function
- -- being called "Main.main". That's why root_main_id has a fixed
- -- module ":Main".)
- -- We also make root_main_id an implicit Id, by making main_name
- -- its parent (hence (Just main_name)). That has the effect
- -- of preventing its type and unfolding from getting out into
- -- the interface file. Otherwise we can end up with two defns
- -- for 'main' in the interface file!
-
+ -- See Note [Root-main Id]
; let { root_main_name = mkExternalName rootMainKey rOOT_MAIN
(mkVarOccFS FSLIT("main"))
(getSrcLoc main_name)
<+> ptext SLIT("is not defined in module") <+> quotes (ppr main_mod)
\end{code}
+Note [Root-main Id]
+~~~~~~~~~~~~~~~~~~~
+The function that the RTS invokes is always :Main.main, which we call
+root_main_id. (Because GHC allows the user to have a module not
+called Main as the main module, we can't rely on the main function
+being called "Main.main". That's why root_main_id has a fixed module
+":Main".)
+
+This is unusual: it's a LocalId whose Name has a Module from another
+module. Tiresomely, we must filter it out again in MkIface, les we
+get two defns for 'main' in the interface file!
+
+
%*********************************************************
%* *
GHCi stuff
-- Now typecheck the expression;
-- it might have a rank-2 type (e.g. :t runST)
((tc_expr, res_ty), lie) <- getLIE (tcInferRho rn_expr) ;
- ((qtvs, _, dict_ids), lie_top) <- getLIE (tcSimplifyInfer smpl_doc (tyVarsOfType res_ty) lie) ;
+ ((qtvs, dict_insts, _), lie_top) <- getLIE (tcSimplifyInfer smpl_doc (tyVarsOfType res_ty) lie) ;
tcSimplifyInteractive lie_top ;
- qtvs' <- mappM zonkQuantifiedTyVar qtvs ;
- let { all_expr_ty = mkForAllTys qtvs' $
- mkFunTys (map idType dict_ids) $
+ let { all_expr_ty = mkForAllTys qtvs $
+ mkFunTys (map (idType . instToId) dict_insts) $
res_ty } ;
zonkTcType all_expr_ty
}
-- could not be found.
getModuleExports :: HscEnv -> Module -> IO (Messages, Maybe [AvailInfo])
getModuleExports hsc_env mod
- = initTc hsc_env HsSrcFile iNTERACTIVE (tcGetModuleExports mod)
-
-tcGetModuleExports :: Module -> TcM [AvailInfo]
-tcGetModuleExports mod = do
- let doc = ptext SLIT("context for compiling statements")
- iface <- initIfaceTcRn $ loadSysInterface doc mod
- loadOrphanModules (dep_orphs (mi_deps iface)) False
- -- Load any orphan-module interfaces,
- -- so their instances are visible
- loadOrphanModules (dep_finsts (mi_deps iface)) True
- -- Load any family instance-module interfaces,
- -- so all family instances are visible
- ifaceExportNames (mi_exports iface)
+ = let
+ ic = hsc_IC hsc_env
+ checkMods = ic_toplev_scope ic ++ ic_exports ic
+ in
+ initTc hsc_env HsSrcFile iNTERACTIVE (tcGetModuleExports mod checkMods)
+
+-- Get the export avail info and also load all orphan and family-instance
+-- modules. Finally, check that the family instances of all modules in the
+-- interactive context are consistent (these modules are in the second
+-- argument).
+tcGetModuleExports :: Module -> [Module] -> TcM [AvailInfo]
+tcGetModuleExports mod directlyImpMods
+ = do { let doc = ptext SLIT("context for compiling statements")
+ ; iface <- initIfaceTcRn $ loadSysInterface doc mod
+
+ -- Load any orphan-module and family instance-module
+ -- interfaces, so their instances are visible.
+ ; loadOrphanModules (dep_orphs (mi_deps iface)) False
+ ; loadOrphanModules (dep_finsts (mi_deps iface)) True
+
+ -- Check that the family instances of all directly loaded
+ -- modules are consistent.
+ ; checkFamInstConsistency (dep_finsts (mi_deps iface)) directlyImpMods
+
+ ; ifaceExportNames (mi_exports iface)
+ }
tcRnLookupRdrName :: HscEnv -> RdrName -> IO (Maybe [Name])
tcRnLookupRdrName hsc_env rdr_name
return good_names
}
+tcRnRecoverDataCon :: HscEnv -> a -> IO (Maybe DataCon)
+tcRnRecoverDataCon hsc_env a
+ = initTcPrintErrors hsc_env iNTERACTIVE $
+ setInteractiveContext hsc_env (hsc_IC hsc_env) $
+ do name <- recoverDataCon a
+ tcLookupDataCon name
tcRnLookupName :: HscEnv -> Name -> IO (Maybe TyThing)
tcRnLookupName hsc_env name
ispecs <- lookupInsts (icPrintUnqual ictxt) thing
return (thing, fixity, ispecs)
-
lookupInsts :: PrintUnqualified -> TyThing -> TcM [Instance]
-- Filter the instances by the ones whose tycons (or clases resp)
-- are in scope unqualified. Otherwise we list a whole lot too many!