import CmdLineOpts ( opt_D_dump_ds )
import HsSyn ( MonoBinds, RuleDecl(..), RuleBndr(..), HsExpr(..), HsBinds(..), MonoBinds(..) )
-import HsCore ( UfRuleBody(..) )
-import TcHsSyn ( TypecheckedMonoBinds, TypecheckedForeignDecl, TypecheckedRuleDecl )
+import TcHsSyn ( TypecheckedRuleDecl )
import TcModule ( TcResults(..) )
import CoreSyn
import Rules ( ProtoCoreRule(..), pprProtoCoreRule )
-import Subst ( substExpr, mkSubst )
+import Subst ( substExpr, mkSubst, mkInScopeSet )
import DsMonad
import DsExpr ( dsExpr )
import DsBinds ( dsMonoBinds, AutoScc(..) )
import DsForeign ( dsForeigns )
-import DsUtils
import DsExpr () -- Forces DsExpr to be compiled; DsBinds only
-- depends on DsExpr.hi-boot.
-import Module ( Module, moduleString )
-import Id ( Id )
-import Name ( isLocallyDefined )
+import Module ( Module )
import VarEnv
import VarSet
-import Bag ( isEmptyBag, unionBags )
-import CmdLineOpts ( opt_SccGroup, opt_SccProfilingOn )
+import Bag ( isEmptyBag )
+import CmdLineOpts ( opt_SccProfilingOn )
import CoreLint ( beginPass, endPass )
import ErrUtils ( doIfSet, pprBagOfWarnings )
import Outputable
-import UniqSupply ( splitUniqSupply, UniqSupply )
+import UniqSupply ( UniqSupply )
\end{code}
%************************************************************************
deSugar :: Module
-> UniqSupply
-> TcResults
- -> IO ([CoreBind], [ProtoCoreRule], SDoc, SDoc)
+ -> IO ([CoreBind], [ProtoCoreRule], SDoc, SDoc, [CoreBndr])
deSugar mod_name us (TcResults {tc_env = global_val_env,
tc_binds = all_binds,
= do
beginPass "Desugar"
-- Do desugaring
- let (result, ds_warns) = initDs us global_val_env module_and_group
- (dsProgram mod_name all_binds rules fo_decls)
- (ds_binds, ds_rules, _, _) = result
+ let (result, ds_warns) =
+ initDs us global_val_env mod_name
+ (dsProgram mod_name all_binds rules fo_decls)
+ (ds_binds, ds_rules, _, _, _) = result
-- Display any warnings
doIfSet (not (isEmptyBag ds_warns))
doIfSet opt_D_dump_ds (printDump (ppr_ds_rules ds_rules))
return result
- where
- module_and_group = (mod_name, grp_name)
- grp_name = case opt_SccGroup of
- Just xx -> _PK_ xx
- Nothing -> _PK_ (moduleString mod_name) -- default: module name
dsProgram mod_name all_binds rules fo_decls
= dsMonoBinds auto_scc all_binds [] `thenDs` \ core_prs ->
- dsForeigns mod_name fo_decls `thenDs` \ (fi_binds, fe_binds, h_code, c_code) ->
- mapDs dsRule rules `thenDs` \ rules' ->
- let
- ds_binds = fi_binds ++ [Rec core_prs] ++ fe_binds
+ dsForeigns mod_name fo_decls `thenDs` \ (fe_binders, foreign_binds, h_code, c_code) ->
+ let
+ ds_binds = [Rec (foreign_binds ++ core_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#!
+
+ local_binders = mkVarSet (bindersOfBinds ds_binds)
in
- returnDs (ds_binds, rules', h_code, c_code)
+ mapDs (dsRule local_binders) rules `thenDs` \ rules' ->
+ returnDs (ds_binds, rules', h_code, c_code, fe_binders)
where
auto_scc | opt_SccProfilingOn = TopLevel
| otherwise = NoSccs
%************************************************************************
\begin{code}
-dsRule :: TypecheckedRuleDecl -> DsM ProtoCoreRule
-dsRule (IfaceRuleDecl fn (CoreRuleBody name all_vars args rhs) loc)
- = returnDs (ProtoCoreRule False {- non-local -} fn
- (Rule name all_vars args rhs))
+dsRule :: IdSet -> TypecheckedRuleDecl -> DsM ProtoCoreRule
+dsRule in_scope (IfaceRuleOut fn rule)
+ = returnDs (ProtoCoreRule False {- non-local -} fn rule)
-dsRule (RuleDecl name sig_tvs vars lhs rhs loc)
+dsRule in_scope (HsRule name sig_tvs vars lhs rhs loc)
= putSrcLocDs loc $
ds_lhs all_vars lhs `thenDs` \ (fn, args) ->
dsExpr rhs `thenDs` \ core_rhs ->
returnDs (ProtoCoreRule True {- local -} fn
- (Rule name all_vars args core_rhs))
+ (Rule name tpl_vars args core_rhs))
where
- all_vars = sig_tvs ++ [var | RuleBndr var <- vars]
+ tpl_vars = sig_tvs ++ [var | RuleBndr var <- vars]
+ all_vars = mkInScopeSet (in_scope `unionVarSet` mkVarSet tpl_vars)
ds_lhs all_vars lhs
= let
(dict_binds, body) = case lhs of
- (HsLet (MonoBind dict_binds _ _) body) -> (dict_binds, body)
- other -> (EmptyMonoBinds, lhs)
+ (HsLet (MonoBind dict_binds _ _) body) -> (dict_binds, body)
+ other -> (EmptyMonoBinds, lhs)
in
ds_dict_binds dict_binds `thenDs` \ dict_binds' ->
dsExpr body `thenDs` \ body' ->
-- Note recursion here... substitution won't terminate
-- if there is genuine recursion... which there isn't
- subst = mkSubst (mkVarSet all_vars) subst_env
+ subst = mkSubst all_vars subst_env
body'' = substExpr subst body'
in