#include "HsVersions.h"
-import CmdLineOpts ( DynFlag(..), dopt, opt_SccProfilingOn )
+import CmdLineOpts ( DynFlag(..), DynFlags(..), dopt, opt_SccProfilingOn )
+import DriverPhases ( isHsBoot )
import HscTypes ( ModGuts(..), ModGuts, HscEnv(..), GhciMode(..),
- Dependencies(..), TypeEnv,
- unQualInScope, availsToNameSet )
+ Dependencies(..), TypeEnv, IsBootInterface )
import HsSyn ( RuleDecl(..), RuleBndr(..), HsExpr(..), LHsExpr,
HsBindGroup(..), LRuleDecl, HsBind(..) )
import TcRnTypes ( TcGblEnv(..), ImportAvails(..) )
import MkIface ( mkUsageInfo )
-import Id ( Id, setIdLocalExported, idName )
+import Id ( Id, setIdExported, idName, idIsFrom )
import Name ( Name, isExternalName )
import CoreSyn
import PprCore ( pprIdRules, pprCoreExpr )
-import Subst ( substExpr, mkSubst, mkInScopeSet )
+import CoreSubst ( substExpr, mkSubst )
import DsMonad
import DsExpr ( dsLExpr )
import DsBinds ( dsHsBinds, AutoScc(..) )
import DsForeign ( dsForeigns )
import DsExpr () -- Forces DsExpr to be compiled; DsBinds only
-- depends on DsExpr.hi-boot.
-import Module ( Module, moduleEnvElts, emptyModuleEnv )
+import Module ( Module, moduleEnvElts, delModuleEnv, moduleFS )
import Id ( Id )
import RdrName ( GlobalRdrEnv )
import NameSet
import VarEnv
import VarSet
-import Bag ( isEmptyBag, mapBag, emptyBag, bagToList )
+import Bag ( Bag, isEmptyBag, emptyBag, bagToList )
import CoreLint ( showPass, endPass )
import CoreFVs ( ruleRhsFreeVars )
+import Packages ( PackageState(thPackageId), PackageIdH(..) )
import ErrUtils ( doIfSet, dumpIfSet_dyn, pprBagOfWarnings,
- mkWarnMsg, errorsFound, WarnMsg )
+ errorsFound, WarnMsg )
+import ListSetOps ( insertList )
import Outputable
-import qualified Pretty
import UniqSupply ( mkSplitUniqSupply )
-import SrcLoc ( Located(..), SrcSpan, unLoc )
+import SrcLoc ( Located(..), unLoc )
import DATA_IOREF ( readIORef )
import FastString
+import Util ( sortLe )
\end{code}
%************************************************************************
%************************************************************************
\begin{code}
-deSugar :: HscEnv -> TcGblEnv -> IO (Maybe ModGuts)
+deSugar :: HscEnv -> TcGblEnv -> IO (Bag WarnMsg, Maybe ModGuts)
-- Can modify PCS by faulting in more declarations
deSugar hsc_env
tcg_env@(TcGblEnv { tcg_mod = mod,
+ tcg_src = hsc_src,
tcg_type_env = type_env,
tcg_imports = imports,
tcg_exports = exports,
tcg_dus = dus,
tcg_inst_uses = dfun_uses_var,
+ tcg_th_used = th_var,
+ tcg_keep = keep_var,
tcg_rdr_env = rdr_env,
tcg_fix_env = fix_env,
tcg_deprecs = deprecs,
+ tcg_binds = binds,
+ tcg_fords = fords,
+ tcg_rules = rules,
tcg_insts = insts })
= do { showPass dflags "Desugar"
- -- Do desugaring
- ; let { is_boot = imp_dep_mods imports }
- ; (results, warnings) <- initDs hsc_env mod type_env is_boot $
- dsProgram ghci_mode tcg_env
+ -- Desugar the program
+ ; ((all_prs, ds_rules, ds_fords), warns)
+ <- initDs hsc_env mod rdr_env type_env $ do
+ { core_prs <- dsHsBinds auto_scc binds []
+ ; (ds_fords, foreign_prs) <- dsForeigns fords
+ ; let all_prs = foreign_prs ++ core_prs
+ local_bndrs = mkVarSet (map fst all_prs)
+ ; ds_rules <- mappM (dsRule mod local_bndrs) rules
+ ; return (all_prs, ds_rules, ds_fords) }
- ; let { (ds_binds, ds_rules, ds_fords) = results
- ; warns = mapBag mk_warn warnings
- ; warn_doc = pprBagOfWarnings warns }
- -- Display any warnings
- ; doIfSet (not (isEmptyBag warnings))
- (printErrs warn_doc)
-- If warnings are considered errors, leave.
; if errorsFound dflags (warns, emptyBag)
- then return Nothing
+ then return (warns, Nothing)
else do
+ { -- Add export flags to bindings
+ keep_alive <- readIORef keep_var
+ ; let final_prs = addExportFlags ghci_mode exports keep_alive
+ all_prs ds_rules
+ ds_binds = [Rec final_prs]
+ -- Notice that we put the whole lot in a big Rec, even the foreign binds
+ -- When compiling PrelFloat, which defines data Float = F# Float#
+ -- we want F# to be in scope in the foreign marshalling code!
+ -- You might think it doesn't matter, but the simplifier brings all top-level
+ -- things into the in-scope set before simplifying; so we get no unfolding for F#!
+
-- Lint result if necessary
- { endPass dflags "Desugar" Opt_D_dump_ds ds_binds
+ ; endPass dflags "Desugar" Opt_D_dump_ds ds_binds
-- Dump output
; doIfSet (dopt Opt_D_dump_ds dflags)
(printDump (ppr_ds_rules ds_rules))
; dfun_uses <- readIORef dfun_uses_var -- What dfuns are used
+ ; th_used <- readIORef th_var -- Whether TH is used
; let used_names = allUses dus `unionNameSets` dfun_uses
- ; usages <- mkUsageInfo hsc_env imports used_names
+ thPackage = thPackageId (pkgState dflags)
+ pkgs | ExtPackage th_id <- thPackage, th_used
+ = insertList th_id (imp_dep_pkgs imports)
+ | otherwise
+ = imp_dep_pkgs imports
+
+ dep_mods = moduleEnvElts (delModuleEnv (imp_dep_mods imports) mod)
+ -- M.hi-boot can be in the imp_dep_mods, but we must remove
+ -- it before recording the modules on which this one depends!
+ -- (We want to retain M.hi-boot in imp_dep_mods so that
+ -- loadHiBootInterface can see if M's direct imports depend
+ -- on M.hi-boot, and hence that we should do the hi-boot consistency
+ -- check.)
+
+ dir_imp_mods = imp_mods imports
+
+ ; usages <- mkUsageInfo hsc_env dir_imp_mods dep_mods used_names
+
; let
- deps = Deps { dep_mods = moduleEnvElts (imp_dep_mods imports),
- dep_pkgs = imp_dep_pkgs imports,
- dep_orphs = imp_orphs imports }
+ -- Modules don't compare lexicographically usually,
+ -- but we want them to do so here.
+ le_mod :: Module -> Module -> Bool
+ le_mod m1 m2 = moduleFS m1 <= moduleFS m2
+ le_dep_mod :: (Module, IsBootInterface) -> (Module, IsBootInterface) -> Bool
+ le_dep_mod (m1,_) (m2,_) = m1 `le_mod` m2
+
+ deps = Deps { dep_mods = sortLe le_dep_mod dep_mods,
+ dep_pkgs = sortLe (<=) pkgs,
+ dep_orphs = sortLe le_mod (imp_orphs imports) }
+ -- sort to get into canonical order
+
mod_guts = ModGuts {
mg_module = mod,
+ mg_boot = isHsBoot hsc_src,
mg_exports = exports,
mg_deps = deps,
mg_usages = usages,
- mg_dir_imps = [m | (m,_) <- moduleEnvElts (imp_mods imports)],
+ mg_dir_imps = [m | (m,_,_) <- moduleEnvElts dir_imp_mods],
mg_rdr_env = rdr_env,
mg_fix_env = fix_env,
mg_deprecs = deprecs,
mg_binds = ds_binds,
mg_foreign = ds_fords }
- ; return (Just mod_guts)
+ ; return (warns, Just mod_guts)
}}
where
dflags = hsc_dflags hsc_env
ghci_mode = hsc_mode hsc_env
- print_unqual = unQualInScope rdr_env
-
- -- Desugarer warnings are SDocs; here we
- -- add the info about whether or not to print unqualified
- mk_warn :: (SrcSpan,SDoc) -> WarnMsg
- mk_warn (loc, sdoc) = mkWarnMsg loc print_unqual sdoc
-
+ auto_scc | opt_SccProfilingOn = TopLevel
+ | otherwise = NoSccs
deSugarExpr :: HscEnv
-> Module -> GlobalRdrEnv -> TypeEnv
; us <- mkSplitUniqSupply 'd'
-- Do desugaring
- ; let { is_boot = emptyModuleEnv } -- Assume no hi-boot files when
- -- doing stuff from the command line
- ; (core_expr, ds_warns) <- initDs hsc_env this_mod type_env is_boot $
+ ; (core_expr, ds_warns) <- initDs hsc_env this_mod rdr_env type_env $
dsLExpr tc_expr
-- Display any warnings
-- Note: if -Werror is used, we don't signal an error here.
; doIfSet (not (isEmptyBag ds_warns))
- (printErrs (pprBagOfWarnings (mapBag mk_warn ds_warns)))
+ (printErrs (pprBagOfWarnings ds_warns))
-- Dump output
; dumpIfSet_dyn dflags Opt_D_dump_ds "Desugared" (pprCoreExpr core_expr)
}
where
dflags = hsc_dflags hsc_env
- print_unqual = unQualInScope rdr_env
- mk_warn :: (SrcSpan,SDoc) -> WarnMsg
- mk_warn (loc,sdoc) = mkWarnMsg loc print_unqual sdoc
-
-
-dsProgram ghci_mode (TcGblEnv { tcg_exports = exports,
- tcg_keep = keep_alive,
- tcg_binds = binds,
- tcg_fords = fords,
- tcg_rules = rules })
- = dsHsBinds auto_scc binds [] `thenDs` \ core_prs ->
- dsForeigns fords `thenDs` \ (ds_fords, foreign_prs) ->
- let
- all_prs = foreign_prs ++ core_prs
- local_bndrs = mkVarSet (map fst all_prs)
- in
- mappM (dsRule local_bndrs) rules `thenDs` \ ds_rules ->
- let
- final_prs = addExportFlags ghci_mode exports keep_alive
- local_bndrs all_prs ds_rules
- ds_binds = [Rec final_prs]
- -- Notice that we put the whole lot in a big Rec, even the foreign binds
- -- When compiling PrelFloat, which defines data Float = F# Float#
- -- we want F# to be in scope in the foreign marshalling code!
- -- You might think it doesn't matter, but the simplifier brings all top-level
- -- things into the in-scope set before simplifying; so we get no unfolding for F#!
- in
- returnDs (ds_binds, ds_rules, ds_fords)
- where
- auto_scc | opt_SccProfilingOn = TopLevel
- | otherwise = NoSccs
-- addExportFlags
-- Set the no-discard flag if either
-- it's just because the type checker is rather busy already and
-- I didn't want to pass in yet another mapping.
-addExportFlags ghci_mode exports keep_alive bndrs prs rules
+addExportFlags ghci_mode exports keep_alive prs rules
= [(add_export bndr, rhs) | (bndr,rhs) <- prs]
where
- add_export bndr | dont_discard bndr = setIdLocalExported bndr
- | otherwise = bndr
+ add_export bndr
+ | dont_discard bndr = setIdExported bndr
+ | otherwise = bndr
orph_rhs_fvs = unionVarSets [ ruleRhsFreeVars rule
- | (id, rule) <- rules,
- not (id `elemVarSet` bndrs) ]
- -- An orphan rule must keep alive the free vars
- -- of its right-hand side.
- -- Non-orphan rules are attached to the Id (bndr_with_rules above)
- -- and that keeps the rhs free vars alive
+ | IdCoreRule _ is_orphan_rule rule <- rules,
+ is_orphan_rule ]
+ -- An orphan rule keeps alive the free vars of its right-hand side.
+ -- Non-orphan rules are (later, after gentle simplification)
+ -- attached to the Id and that keeps the rhs free vars alive
dont_discard bndr = is_exported name
|| name `elemNameSet` keep_alive
-- introduced by the type checker.
is_exported :: Name -> Bool
is_exported | ghci_mode == Interactive = isExternalName
- | otherwise = (`elemNameSet` export_fvs)
-
- export_fvs = availsToNameSet exports
+ | otherwise = (`elemNameSet` exports)
ppr_ds_rules [] = empty
ppr_ds_rules rules
%************************************************************************
\begin{code}
-dsRule :: IdSet -> LRuleDecl Id -> DsM (Id, CoreRule)
-dsRule in_scope (L loc (HsRule name act vars lhs rhs))
+dsRule :: Module -> IdSet -> LRuleDecl Id -> DsM IdCoreRule
+dsRule mod in_scope (L loc (HsRule name act vars lhs rhs))
= putSrcSpanDs loc $
ds_lhs all_vars lhs `thenDs` \ (fn, args) ->
dsLExpr rhs `thenDs` \ core_rhs ->
- returnDs (fn, Rule name act tpl_vars args core_rhs)
+ returnDs (IdCoreRule fn (is_orphan fn) (Rule name act tpl_vars args core_rhs))
where
- tpl_vars = [var | RuleBndr (L _ var) <- vars]
- all_vars = mkInScopeSet (extendVarSetList in_scope tpl_vars)
+ tpl_vars = [var | RuleBndr (L _ var) <- vars]
+ all_vars = mkInScopeSet (extendVarSetList in_scope tpl_vars)
+ is_orphan id = not (idIsFrom mod id)
+ -- NB we can't use isLocalId in the orphan test,
+ -- because isLocalId isn't true of class methods
ds_lhs all_vars lhs
= let
other -> (emptyBag, lhs)
in
mappM ds_dict_bind (bagToList dict_binds) `thenDs` \ dict_binds' ->
- dsLExpr body `thenDs` \ body' ->
+ dsLExpr body `thenDs` \ body' ->
-- Substitute the dict bindings eagerly,
-- and take the body apart into a (f args) form
let
- subst_env = mkSubstEnv [id | (id,rhs) <- dict_binds']
- [ContEx subst_env rhs | (id,rhs) <- dict_binds']
+ subst = mkSubst all_vars emptyVarEnv (mkVarEnv id_pairs)
+ id_pairs = [(id, substExpr subst rhs) | (id,rhs) <- dict_binds']
-- Note recursion here... substitution won't terminate
-- if there is genuine recursion... which there isn't
- subst = mkSubst all_vars subst_env
body'' = substExpr subst body'
in