\section[TcRules]{Typechecking transformation rules}
\begin{code}
-module TcRules ( tcIfaceRules, tcSourceRules ) where
+module TcRules ( tcRules ) where
#include "HsVersions.h"
-import HsSyn ( RuleDecl(..), RuleBndr(..) )
-import CoreSyn ( CoreRule(..) )
-import RnHsSyn ( RenamedRuleDecl )
-import HscTypes ( PackageRuleBase )
-import TcHsSyn ( TypecheckedRuleDecl, mkHsLet )
-import TcMonad
+import HsSyn ( RuleDecl(..), LRuleDecl, RuleBndr(..), mkHsDictLet )
+import TcRnMonad
import TcSimplify ( tcSimplifyToDicts, tcSimplifyInferCheck )
-import TcType ( zonkTcTyVarToTyVar, newTyVarTy )
-import TcIfaceSig ( tcCoreExpr, tcCoreLamBndrs, tcVar )
-import TcMonoType ( kcHsSigType, tcHsSigType, tcTyVars, checkSigTyVars )
-import TcExpr ( tcExpr )
-import TcEnv ( tcExtendLocalValEnv, tcExtendTyVarEnv, isLocalThing )
-import Rules ( extendRuleBase )
-import Inst ( LIE, plusLIEs, instToId )
-import Id ( idName, mkVanillaId )
-import Module ( Module )
-import VarSet
-import Type ( tyVarsOfType, openTypeKind )
-import List ( partition )
+import TcMType ( newFlexiTyVarTy, zonkQuantifiedTyVar, tcSkolSigTyVars )
+import TcType ( tyVarsOfTypes, openTypeKind, SkolemInfo(..), substTyWith, mkTyVarTys )
+import TcHsType ( UserTypeCtxt(..), tcHsPatSigType )
+import TcExpr ( tcMonoExpr )
+import TcEnv ( tcExtendIdEnv, tcExtendTyVarEnv )
+import Inst ( instToId )
+import Id ( idType, mkLocalId )
+import Name ( Name )
+import SrcLoc ( noLoc, unLoc )
import Outputable
\end{code}
\begin{code}
-tcIfaceRules :: PackageRuleBase -> Module -> [RenamedRuleDecl]
- -> TcM (PackageRuleBase, [TypecheckedRuleDecl])
-tcIfaceRules pkg_rule_base mod decls
- = mapTc tcIfaceRule decls `thenTc` \ new_rules ->
- let
- (local_rules, imported_rules) = partition is_local new_rules
- new_rule_base = foldl add pkg_rule_base imported_rules
- in
- returnTc (new_rule_base, local_rules)
- where
- add rule_base (IfaceRuleOut id rule) = extendRuleBase rule_base (id, rule)
-
- -- When relinking this module from its interface-file decls
- -- we'll have IfaceRules that are in fact local to this module
- is_local (IfaceRuleOut n _) = isLocalThing mod n
- is_local other = True
-
-tcIfaceRule :: RenamedRuleDecl -> TcM TypecheckedRuleDecl
- -- No zonking necessary!
-tcIfaceRule rule@(IfaceRule name vars fun args rhs src_loc)
- = tcAddSrcLoc src_loc $
- tcAddErrCtxt (ruleCtxt name) $
- tcVar fun `thenTc` \ fun' ->
- tcCoreLamBndrs vars $ \ vars' ->
- mapTc tcCoreExpr args `thenTc` \ args' ->
- tcCoreExpr rhs `thenTc` \ rhs' ->
- let
- new_rule :: TypecheckedRuleDecl
- new_rule = IfaceRuleOut fun' (Rule name vars' args' rhs')
- in
- returnTc new_rule
-
-tcSourceRules :: [RenamedRuleDecl] -> TcM (LIE, [TypecheckedRuleDecl])
-tcSourceRules decls
- = mapAndUnzipTc tcSourceRule decls `thenTc` \ (lies, decls') ->
- returnTc (plusLIEs lies, decls')
+tcRules :: [LRuleDecl Name] -> TcM [LRuleDecl TcId]
+tcRules decls = mappM (wrapLocM tcRule) decls
-tcSourceRule (HsRule name sig_tvs vars lhs rhs src_loc)
- = tcAddSrcLoc src_loc $
- tcAddErrCtxt (ruleCtxt name) $
- newTyVarTy openTypeKind `thenNF_Tc` \ rule_ty ->
+tcRule :: RuleDecl Name -> TcM (RuleDecl TcId)
+tcRule (HsRule name act vars lhs fv_lhs rhs fv_rhs)
+ = addErrCtxt (ruleCtxt name) $
+ traceTc (ptext SLIT("---- Rule ------")
+ <+> ppr name) `thenM_`
+ newFlexiTyVarTy openTypeKind `thenM` \ rule_ty ->
-- Deal with the tyvars mentioned in signatures
- tcTyVars sig_tvs (mapTc_ kcHsSigType sig_tys) `thenTc` \ sig_tyvars ->
- tcExtendTyVarEnv sig_tyvars (
-
- -- Ditto forall'd variables
- mapNF_Tc new_id vars `thenNF_Tc` \ ids ->
- tcExtendLocalValEnv [(idName id, id) | id <- ids] $
-
+ tcRuleBndrs vars (\ ids ->
-- Now LHS and RHS
- tcExpr lhs rule_ty `thenTc` \ (lhs', lhs_lie) ->
- tcExpr rhs rule_ty `thenTc` \ (rhs', rhs_lie) ->
-
- returnTc (sig_tyvars, ids, lhs', rhs', lhs_lie, rhs_lie)
- ) `thenTc` \ (sig_tyvars, ids, lhs', rhs', lhs_lie, rhs_lie) ->
+ getLIE (tcMonoExpr lhs rule_ty) `thenM` \ (lhs', lhs_lie) ->
+ getLIE (tcMonoExpr rhs rule_ty) `thenM` \ (rhs', rhs_lie) ->
+ returnM (ids, lhs', rhs', lhs_lie, rhs_lie)
+ ) `thenM` \ (ids, lhs', rhs', lhs_lie, rhs_lie) ->
-- Check that LHS has no overloading at all
- tcSimplifyToDicts lhs_lie `thenTc` \ (lhs_dicts, lhs_binds) ->
- checkSigTyVars sig_tyvars emptyVarSet `thenTc_`
+ getLIE (tcSimplifyToDicts lhs_lie) `thenM` \ (lhs_binds, lhs_dicts) ->
-- Gather the template variables and tyvars
let
-- b) We'd like to make available the dictionaries bound
-- on the LHS in the RHS, so quantifying over them is good
-- See the 'lhs_dicts' in tcSimplifyAndCheck for the RHS
- in
+ -- We initially quantify over any tyvars free in *either* the rule
+ -- *or* the bound variables. The latter is important. Consider
+ -- ss (x,(y,z)) = (x,z)
+ -- RULE: forall v. fst (ss v) = fst v
+ -- The type of the rhs of the rule is just a, but v::(a,(b,c))
+ --
+ -- We also need to get the free tyvars of the LHS; but we do that
+ -- during zonking (see TcHsSyn.zonkRule)
+ --
+ forall_tvs = tyVarsOfTypes (rule_ty : map idType tpl_ids)
+ in
-- RHS can be a bit more lenient. In particular,
-- we let constant dictionaries etc float outwards
+ --
+ -- NB: tcSimplifyInferCheck zonks the forall_tvs, and
+ -- knocks out any that are constrained by the environment
tcSimplifyInferCheck (text "tcRule")
- (varSetElems (tyVarsOfType rule_ty))
- lhs_dicts rhs_lie `thenTc` \ (forall_tvs', lie', rhs_binds) ->
-
- mapTc zonkTcTyVarToTyVar forall_tvs' `thenTc` \ tvs ->
- returnTc (lie', HsRule name tvs
- (map RuleBndr tpl_ids) -- yuk
- (mkHsLet lhs_binds lhs')
- (mkHsLet rhs_binds rhs')
- src_loc)
+ forall_tvs
+ lhs_dicts rhs_lie `thenM` \ (forall_tvs1, rhs_binds) ->
+ mappM zonkQuantifiedTyVar forall_tvs1 `thenM` \ forall_tvs2 ->
+ -- This zonk is exactly the same as the one in TcBinds.tcBindWithSigs
+
+ returnM (HsRule name act
+ (map (RuleBndr . noLoc) (forall_tvs2 ++ tpl_ids)) -- yuk
+ (mkHsDictLet lhs_binds lhs') fv_lhs
+ (mkHsDictLet rhs_binds rhs') fv_rhs)
where
- sig_tys = [t | RuleBndrSig _ t <- vars]
- new_id (RuleBndr var) = newTyVarTy openTypeKind `thenNF_Tc` \ ty ->
- returnNF_Tc (mkVanillaId var ty)
- new_id (RuleBndrSig var rn_ty) = tcHsSigType rn_ty `thenTc` \ ty ->
- returnNF_Tc (mkVanillaId var ty)
+tcRuleBndrs [] thing_inside = thing_inside []
+tcRuleBndrs (RuleBndr var : vars) thing_inside
+ = do { ty <- newFlexiTyVarTy openTypeKind
+ ; let id = mkLocalId (unLoc var) ty
+ ; tcExtendIdEnv [id] $
+ tcRuleBndrs vars (\ids -> thing_inside (id:ids)) }
+tcRuleBndrs (RuleBndrSig var rn_ty : vars) thing_inside
+-- e.g x :: a->a
+-- The tyvar 'a' is brought into scope first, just as if you'd written
+-- a::*, x :: a->a
+ = do { let ctxt = RuleSigCtxt (unLoc var)
+ ; (tyvars, ty) <- tcHsPatSigType ctxt rn_ty
+ ; let skol_tvs = tcSkolSigTyVars (SigSkol ctxt) tyvars
+ id_ty = substTyWith tyvars (mkTyVarTys skol_tvs) ty
+ id = mkLocalId (unLoc var) id_ty
+ ; tcExtendTyVarEnv skol_tvs $
+ tcExtendIdEnv [id] $
+ tcRuleBndrs vars (\ids -> thing_inside (id:ids)) }
ruleCtxt name = ptext SLIT("When checking the transformation rule") <+>
- doubleQuotes (ptext name)
+ doubleQuotes (ftext name)
\end{code}