\section[Main_match]{The @match@ function}
\begin{code}
-module Match ( match, matchExport, matchWrapper, matchSimply, matchSinglePat ) where
+module Match ( match, matchWrapper, matchSimply, matchSinglePat ) where
#include "HsVersions.h"
-import {-# SOURCE #-} DsExpr ( dsExpr, dsLet )
-
-import CmdLineOpts ( opt_WarnIncompletePatterns, opt_WarnOverlappingPatterns,
- opt_WarnSimplePatterns
- )
+import CmdLineOpts ( DynFlag(..), dopt )
import HsSyn
-import TcHsSyn ( TypecheckedPat, TypecheckedMatch )
-import DsHsSyn ( outPatType )
+import TcHsSyn ( hsPatType )
import Check ( check, ExhaustivePat )
import CoreSyn
-import CoreUtils ( bindNonRec )
+import CoreUtils ( bindNonRec, exprType )
import DsMonad
+import DsBinds ( dsHsNestedBinds )
import DsGRHSs ( dsGRHSs )
import DsUtils
-import Id ( idType, recordSelectorFieldLabel, Id )
-import DataCon ( dataConFieldLabels, dataConArgTys )
+import Id ( idName, idType, Id )
+import DataCon ( dataConFieldLabels, dataConInstOrigArgTys, isVanillaDataCon )
import MatchCon ( matchConFamily )
-import MatchLit ( matchLiterals )
+import MatchLit ( matchLiterals, matchNPlusKPats, matchNPats, tidyLitPat, tidyNPat )
import PrelInfo ( pAT_ERROR_ID )
-import Type ( isUnLiftedType, splitAlgTyConApp,
- mkTyVarTys, Type
- )
-import TysPrim ( intPrimTy, charPrimTy, floatPrimTy, doublePrimTy,
- addrPrimTy, wordPrimTy
- )
-import TysWiredIn ( nilDataCon, consDataCon, mkTupleTy, mkListTy,
- charTy, charDataCon, intTy, intDataCon,
- floatTy, floatDataCon, doubleTy, tupleCon,
- doubleDataCon, addrTy,
- addrDataCon, wordTy, wordDataCon,
- mkUnboxedTupleTy, unboxedTupleCon
- )
-import UniqSet
-import ErrUtils ( addErrLocHdrLine, dontAddErrLoc )
+import TcType ( Type, tcTyConAppArgs )
+import Type ( splitFunTysN )
+import TysWiredIn ( consDataCon, mkTupleTy, mkListTy,
+ tupleCon, parrFakeCon, mkPArrTy )
+import BasicTypes ( Boxity(..) )
+import ListSetOps ( runs )
+import SrcLoc ( noSrcSpan, noLoc, unLoc, Located(..) )
+import Util ( lengthExceeds, notNull )
+import Name ( Name )
import Outputable
\end{code}
JJCQ 30-Nov-1997
\begin{code}
-matchExport :: [Id] -- Vars rep'ing the exprs we're matching with
+matchCheck :: DsMatchContext
+ -> [Id] -- Vars rep'ing the exprs we're matching with
+ -> Type -- Type of the case expression
-> [EquationInfo] -- Info about patterns, etc. (type synonym below)
-> DsM MatchResult -- Desugared result!
-matchExport vars qs@((EqnInfo _ ctx _ (MatchResult _ _)) : _)
+matchCheck ctx vars ty qs
+ = getDOptsDs `thenDs` \ dflags ->
+ matchCheck_really dflags ctx vars ty qs
+
+matchCheck_really dflags ctx vars ty qs
| incomplete && shadow =
dsShadowWarn ctx eqns_shadow `thenDs` \ () ->
dsIncompleteWarn ctx pats `thenDs` \ () ->
- match vars qs
+ match vars ty qs
| incomplete =
dsIncompleteWarn ctx pats `thenDs` \ () ->
- match vars qs
+ match vars ty qs
| shadow =
dsShadowWarn ctx eqns_shadow `thenDs` \ () ->
- match vars qs
+ match vars ty qs
| otherwise =
- match vars qs
- where (pats,indexs) = check qs
- incomplete = opt_WarnIncompletePatterns && (length pats /= 0)
- shadow = opt_WarnOverlappingPatterns && sizeUniqSet indexs < no_eqns
- no_eqns = length qs
- unused_eqns = uniqSetToList (mkUniqSet [1..no_eqns] `minusUniqSet` indexs)
- eqns_shadow = map (\n -> qs!!(n - 1)) unused_eqns
+ match vars ty qs
+ where (pats, eqns_shadow) = check qs
+ incomplete = want_incomplete && (notNull pats)
+ want_incomplete = case ctx of
+ DsMatchContext RecUpd _ _ ->
+ dopt Opt_WarnIncompletePatternsRecUpd dflags
+ _ ->
+ dopt Opt_WarnIncompletePatterns dflags
+ shadow = dopt Opt_WarnOverlappingPatterns dflags
+ && not (null eqns_shadow)
\end{code}
This variable shows the maximum number of lines of output generated for warnings.
dsShadowWarn :: DsMatchContext -> [EquationInfo] -> DsM ()
dsShadowWarn ctx@(DsMatchContext kind _ _) qs = dsWarn warn
where
- warn | length qs > maximum_output
+ warn | qs `lengthExceeds` maximum_output
= pp_context ctx (ptext SLIT("are overlapped"))
(\ f -> vcat (map (ppr_eqn f kind) (take maximum_output qs)) $$
ptext SLIT("..."))
(take maximum_output pats))
$$ dots))
- dots | length pats > maximum_output = ptext SLIT("...")
- | otherwise = empty
+ dots | pats `lengthExceeds` maximum_output = ptext SLIT("...")
+ | otherwise = empty
pp_context NoMatchContext msg rest_of_msg_fun
- = dontAddErrLoc "" (ptext SLIT("Some match(es)") <+> hang msg 8 (rest_of_msg_fun id))
+ = (noSrcSpan, ptext SLIT("Some match(es)") <+> hang msg 8 (rest_of_msg_fun id))
pp_context (DsMatchContext kind pats loc) msg rest_of_msg_fun
- = case pp_match kind pats of
- (ppr_match, pref) ->
- addErrLocHdrLine loc message (nest 8 (rest_of_msg_fun pref))
- where
- message = ptext SLIT("Pattern match(es)") <+> msg <+> ppr_match <> char ':'
- where
- pp_match (FunMatch fun) pats
- = let ppr_fun = ppr fun in
- ( hsep [ptext SLIT("in the definition of function"), quotes ppr_fun]
- , (\ x -> ppr_fun <+> x)
- )
-
- pp_match CaseMatch pats
- = (hang (ptext SLIT("in a group of case alternatives beginning"))
- 4 (ppr_pats pats)
- , id
- )
-
- pp_match RecUpdMatch pats
- = (hang (ptext SLIT("in a record-update construct"))
- 4 (ppr_pats pats)
- , id
- )
-
- pp_match PatBindMatch pats
- = ( hang (ptext SLIT("in a pattern binding"))
- 4 (ppr_pats pats)
- , id
- )
-
- pp_match LambdaMatch pats
- = ( hang (ptext SLIT("in a lambda abstraction"))
- 4 (ppr_pats pats)
- , id
- )
-
- pp_match DoBindMatch pats
- = ( hang (ptext SLIT("in a `do' pattern binding"))
- 4 (ppr_pats pats)
- , id
- )
-
- pp_match ListCompMatch pats
- = ( hang (ptext SLIT("in a `list comprension' pattern binding"))
- 4 (ppr_pats pats)
- , id
- )
-
- pp_match LetMatch pats
- = ( hang (ptext SLIT("in a `let' pattern binding"))
- 4 (ppr_pats pats)
- , id
- )
+ = (loc, vcat [ptext SLIT("Pattern match(es)") <+> msg,
+ sep [ptext SLIT("In") <+> ppr_match <> char ':', nest 4 (rest_of_msg_fun pref)]])
+ where
+ (ppr_match, pref)
+ = case kind of
+ FunRhs fun -> (pprMatchContext kind, \ pp -> ppr fun <+> pp)
+ other -> (pprMatchContext kind, \ pp -> pp)
ppr_pats pats = sep (map ppr pats)
-separator (FunMatch _) = SLIT("=")
-separator (CaseMatch) = SLIT("->")
-separator (LambdaMatch) = SLIT("->")
-separator (PatBindMatch) = panic "When is this used?"
-separator (RecUpdMatch) = panic "When is this used?"
-separator (DoBindMatch) = SLIT("<-")
-separator (ListCompMatch) = SLIT("<-")
-separator (LetMatch) = SLIT("=")
-
ppr_shadow_pats kind pats
- = sep [ppr_pats pats, ptext (separator kind), ptext SLIT("...")]
+ = sep [ppr_pats pats, matchSeparator kind, ptext SLIT("...")]
ppr_incomplete_pats kind (pats,[]) = ppr_pats pats
ppr_incomplete_pats kind (pats,constraints) =
ppr_constraint (var,pats) = sep [ppr var, ptext SLIT("`notElem`"), ppr pats]
-ppr_eqn prefixF kind (EqnInfo _ _ pats _) = prefixF (ppr_shadow_pats kind pats)
+ppr_eqn prefixF kind eqn = prefixF (ppr_shadow_pats kind (eqn_pats eqn))
\end{code}
So, the full type signature:
\begin{code}
match :: [Id] -- Variables rep'ing the exprs we're matching with
+ -> Type -- Type of the case expression
-> [EquationInfo] -- Info about patterns, etc. (type synonym below)
-> DsM MatchResult -- Desugared result!
\end{code}
patterns in column~1, or they all have constructor patterns in ...
(see ``the mixture rule'' in SLPJ).
\item
-Call @matchUnmixedEqns@ on each block of equations; it will do the
+Call @matchEqnBlock@ on each block of equations; it will do the
appropriate thing for each kind of column-1 pattern, usually ending up
in a recursive call to @match@.
\end{enumerate}
And gluing the ``success expressions'' together isn't quite so pretty.
\begin{code}
-match [] eqns_info
- = complete_matches eqns_info
+match [] ty eqns_info
+ = ASSERT( not (null eqns_info) )
+ returnDs (foldr1 combineMatchResults match_results)
where
- complete_matches [eqn]
- = complete_match eqn
-
- complete_matches (eqn:eqns)
- = complete_match eqn `thenDs` \ match_result1 ->
- complete_matches eqns `thenDs` \ match_result2 ->
- returnDs (combineMatchResults match_result1 match_result2)
-
- complete_match (EqnInfo _ _ pats match_result)
- = ASSERT( null pats )
- returnDs match_result
+ match_results = [ ASSERT( null (eqn_pats eqn) )
+ adjustMatchResult (eqn_wrap eqn) (eqn_rhs eqn)
+ | eqn <- eqns_info ]
\end{code}
+
%************************************************************************
%* *
%* match: non-empty rule *
corresponds roughly to @matchVarCon@.
\begin{code}
-match vars@(v:vs) eqns_info
- = mapDs (tidyEqnInfo v) eqns_info `thenDs` \ tidy_eqns_info ->
- let
- tidy_eqns_blks = unmix_eqns tidy_eqns_info
- in
- match_unmixed_eqn_blks vars tidy_eqns_blks
+match vars@(v:_) ty eqns_info
+ = do { tidy_eqns <- mappM (tidyEqnInfo v) eqns_info
+ ; let eqns_blks = runs same_family tidy_eqns
+ ; match_results <- mappM match_block eqns_blks
+ ; ASSERT( not (null match_results) )
+ return (foldr1 combineMatchResults match_results) }
where
- unmix_eqns [] = []
- unmix_eqns [eqn] = [ [eqn] ]
- unmix_eqns (eq1@(EqnInfo _ _ (p1:p1s) _) : eq2@(EqnInfo _ _ (p2:p2s) _) : eqs)
- = if ( (isWildPat p1 && isWildPat p2)
- || (isConPat p1 && isConPat p2)
- || (isLitPat p1 && isLitPat p2) ) then
- eq1 `tack_onto` unmixed_rest
- else
- [ eq1 ] : unmixed_rest
- where
- unmixed_rest = unmix_eqns (eq2:eqs)
-
- x `tack_onto` xss = ( x : head xss) : tail xss
-
- -----------------------------------------------------------------------
- -- loop through the blocks:
- -- subsequent blocks create a "fail expr" for the first one...
- match_unmixed_eqn_blks :: [Id]
- -> [ [EquationInfo] ] -- List of eqn BLOCKS
- -> DsM MatchResult
-
- match_unmixed_eqn_blks vars [] = panic "match_unmixed_eqn_blks"
-
- match_unmixed_eqn_blks vars [eqn_blk] = matchUnmixedEqns vars eqn_blk
-
- match_unmixed_eqn_blks vars (eqn_blk:eqn_blks)
- = matchUnmixedEqns vars eqn_blk `thenDs` \ match_result1 -> -- try to match with first blk
- match_unmixed_eqn_blks vars eqn_blks `thenDs` \ match_result2 ->
- returnDs (combineMatchResults match_result1 match_result2)
+ same_family eqn1 eqn2
+ = samePatFamily (firstPat eqn1) (firstPat eqn2)
+
+ match_block eqns
+ = case firstPat (head eqns) of
+ WildPat {} -> matchVariables vars ty eqns
+ ConPatOut {} -> matchConFamily vars ty eqns
+ NPlusKPatOut {} -> matchNPlusKPats vars ty eqns
+ NPatOut {} -> matchNPats vars ty eqns
+ LitPat {} -> matchLiterals vars ty eqns
+
+-- After tidying, there are only five kinds of patterns
+samePatFamily (WildPat {}) (WildPat {}) = True
+samePatFamily (ConPatOut {}) (ConPatOut {}) = True
+samePatFamily (NPlusKPatOut {}) (NPlusKPatOut {}) = True
+samePatFamily (NPatOut {}) (NPatOut {}) = True
+samePatFamily (LitPat {}) (LitPat {}) = True
+samePatFamily _ _ = False
+
+matchVariables :: [Id] -> Type -> [EquationInfo] -> DsM MatchResult
+-- Real true variables, just like in matchVar, SLPJ p 94
+-- No binding to do: they'll all be wildcards by now (done in tidy)
+matchVariables (var:vars) ty eqns = match vars ty (shiftEqns eqns)
+\end{code}
+
+
\end{code}
Tidy up the leftmost pattern in an @EquationInfo@, given the variable @v@
\item
Removing lazy (irrefutable) patterns (you don't want to know...).
\item
-Converting explicit tuple- and list-pats into ordinary @ConPats@.
+Converting explicit tuple-, list-, and parallel-array-pats into ordinary
+@ConPats@.
\item
Convert the literal pat "" to [].
\end{itemize}
Float, Double, at least) are converted to unboxed form; e.g.,
\tr{(NPat (HsInt i) _ _)} is converted to:
\begin{verbatim}
-(ConPat I# _ _ [LitPat (HsIntPrim i) _])
+(ConPat I# _ _ [LitPat (HsIntPrim i)])
\end{verbatim}
\end{description}
\begin{code}
tidyEqnInfo :: Id -> EquationInfo -> DsM EquationInfo
- -- DsM'd because of internal call to "match".
+ -- DsM'd because of internal call to dsHsNestedBinds
+ -- and mkSelectorBinds.
-- "tidy1" does the interesting stuff, looking at
-- one pattern and fiddling the list of bindings.
--
-- NPlusKPat
-- but no other
-tidyEqnInfo v (EqnInfo n ctx (pat : pats) match_result)
- = tidy1 v pat match_result `thenDs` \ (pat', match_result') ->
- returnDs (EqnInfo n ctx (pat' : pats) match_result')
-
-tidy1 :: Id -- The Id being scrutinised
- -> TypecheckedPat -- The pattern against which it is to be matched
- -> MatchResult -- Current thing do do after matching
- -> DsM (TypecheckedPat, -- Equivalent pattern
- MatchResult) -- Augmented thing to do afterwards
- -- The augmentation usually takes the form
- -- of new bindings to be added to the front
-
-tidy1 v (VarPat var) match_result
- = returnDs (WildPat (idType var), match_result')
- where
- match_result' | v == var = match_result
- | otherwise = adjustMatchResult (bindNonRec var (Var v)) match_result
-
-tidy1 v (AsPat var pat) match_result
- = tidy1 v pat match_result'
- where
- match_result' | v == var = match_result
- | otherwise = adjustMatchResult (bindNonRec var (Var v)) match_result
+tidyEqnInfo v eqn@(EqnInfo { eqn_wrap = wrap, eqn_pats = pat : pats })
+ = tidy1 v wrap pat `thenDs` \ (wrap', pat') ->
+ returnDs (eqn { eqn_wrap = wrap', eqn_pats = pat' : pats })
+
+tidy1 :: Id -- The Id being scrutinised
+ -> DsWrapper -- Previous wrapping bindings
+ -> Pat Id -- The pattern against which it is to be matched
+ -> DsM (DsWrapper, -- Extra bindings around what to do afterwards
+ Pat Id) -- Equivalent pattern
+
+-- The extra bindings etc are all wrapped around the RHS of the match
+-- so they are only available when matching is complete. But that's ok
+-- becuase, for example, in the pattern x@(...), the x can only be
+-- used in the RHS, not in the nested pattern, nor subsquent patterns
+--
+-- However this does have an awkward consequence. The bindings in
+-- a VarPatOut get wrapped around the result in right to left order,
+-- rather than left to right. This only matters if one set of
+-- bindings can mention things used in another, and that can happen
+-- if we allow equality dictionary bindings of form d1=d2.
+-- bindIInstsOfLocalFuns is now careful not to do this, but it's a wart.
+-- (Without this care in bindInstsOfLocalFuns, compiling
+-- Data.Generics.Schemes.hs fails in function everywhereBut.)
+
+-------------------------------------------------------
+-- (pat', mr') = tidy1 v pat mr
+-- tidies the *outer level only* of pat, giving pat'
+-- It eliminates many pattern forms (as-patterns, variable patterns,
+-- list patterns, etc) yielding one of:
+-- WildPat
+-- ConPatOut
+-- LitPat
+-- NPat
+-- NPlusKPat
+
+tidy1 v wrap (ParPat pat) = tidy1 v wrap (unLoc pat)
+tidy1 v wrap (SigPatOut pat _) = tidy1 v wrap (unLoc pat)
+tidy1 v wrap (WildPat ty) = returnDs (wrap, WildPat ty)
+
+ -- case v of { x -> mr[] }
+ -- = case v of { _ -> let x=v in mr[] }
+tidy1 v wrap (VarPat var)
+ = returnDs (wrap . wrapBind var v, WildPat (idType var))
+
+tidy1 v wrap (VarPatOut var binds)
+ = do { prs <- dsHsNestedBinds binds
+ ; return (wrap . wrapBind var v . mkDsLet (Rec prs),
+ WildPat (idType var)) }
+
+ -- case v of { x@p -> mr[] }
+ -- = case v of { p -> let x=v in mr[] }
+tidy1 v wrap (AsPat (L _ var) pat)
+ = tidy1 v (wrap . wrapBind var v) (unLoc pat)
-tidy1 v (WildPat ty) match_result
- = returnDs (WildPat ty, match_result)
{- now, here we handle lazy patterns:
tidy1 v ~p bs = (v, v1 = case v of p -> v1 :
The case expr for v_i is just: match [v] [(p, [], \ x -> Var v_i)] any_expr
-}
-tidy1 v (LazyPat pat) match_result
- = mkSelectorBinds pat (Var v) `thenDs` \ sel_binds ->
- returnDs (WildPat (idType v),
- mkCoLetsMatchResult [NonRec b rhs | (b,rhs) <- sel_binds] match_result)
+tidy1 v wrap (LazyPat pat)
+ = do { v' <- newSysLocalDs (idType v)
+ ; sel_prs <- mkSelectorBinds pat (Var v)
+ ; let sel_binds = [NonRec b rhs | (b,rhs) <- sel_prs]
+ ; returnDs (wrap . wrapBind v' v . mkDsLets sel_binds,
+ WildPat (idType v)) }
-- re-express <con-something> as (ConPat ...) [directly]
-tidy1 v (RecPat data_con pat_ty ex_tvs dicts rpats) match_result
- | null rpats
- = -- Special case for C {}, which can be used for
- -- a constructor that isn't declared to have
- -- fields at all
- returnDs (ConPat data_con pat_ty ex_tvs dicts (map WildPat con_arg_tys'), match_result)
-
- | otherwise
- = returnDs (ConPat data_con pat_ty ex_tvs dicts pats, match_result)
+tidy1 v wrap (ConPatOut (L loc con) ex_tvs dicts binds ps pat_ty)
+ = returnDs (wrap, ConPatOut (L loc con) ex_tvs dicts binds tidy_ps pat_ty)
where
- pats = map mk_pat tagged_arg_tys
-
- -- Boring stuff to find the arg-tys of the constructor
- (_, inst_tys, _) = splitAlgTyConApp pat_ty
- con_arg_tys' = dataConArgTys data_con (inst_tys ++ mkTyVarTys ex_tvs)
- tagged_arg_tys = con_arg_tys' `zip` (dataConFieldLabels data_con)
+ tidy_ps = PrefixCon (tidy_con con pat_ty ps)
- -- mk_pat picks a WildPat of the appropriate type for absent fields,
- -- and the specified pattern for present fields
- mk_pat (arg_ty, lbl) = case [pat | (sel_id,pat,_) <- rpats,
- recordSelectorFieldLabel sel_id == lbl
- ] of
- (pat:pats) -> ASSERT( null pats )
- pat
- [] -> WildPat arg_ty
-
-tidy1 v (ListPat ty pats) match_result
- = returnDs (list_ConPat, match_result)
+tidy1 v wrap (ListPat pats ty)
+ = returnDs (wrap, unLoc list_ConPat)
where
- list_ty = mkListTy ty
- list_ConPat
- = foldr (\ x -> \y -> ConPat consDataCon list_ty [] [] [x, y])
- (ConPat nilDataCon list_ty [] [] [])
- pats
-
-tidy1 v (TuplePat pats True{-boxed-}) match_result
- = returnDs (tuple_ConPat, match_result)
+ list_ty = mkListTy ty
+ list_ConPat = foldr (\ x y -> mkPrefixConPat consDataCon [x, y] list_ty)
+ (mkNilPat list_ty)
+ pats
+
+-- Introduce fake parallel array constructors to be able to handle parallel
+-- arrays with the existing machinery for constructor pattern
+tidy1 v wrap (PArrPat pats ty)
+ = returnDs (wrap, unLoc parrConPat)
where
- arity = length pats
- tuple_ConPat
- = ConPat (tupleCon arity)
- (mkTupleTy arity (map outPatType pats)) [] []
- pats
+ arity = length pats
+ parrConPat = mkPrefixConPat (parrFakeCon arity) pats (mkPArrTy ty)
-tidy1 v (TuplePat pats False{-unboxed-}) match_result
- = returnDs (tuple_ConPat, match_result)
+tidy1 v wrap (TuplePat pats boxity)
+ = returnDs (wrap, unLoc tuple_ConPat)
where
arity = length pats
- tuple_ConPat
- = ConPat (unboxedTupleCon arity)
- (mkUnboxedTupleTy arity (map outPatType pats)) [] []
- pats
+ tuple_ConPat = mkPrefixConPat (tupleCon boxity arity) pats
+ (mkTupleTy boxity arity (map hsPatType pats))
-tidy1 v (DictPat dicts methods) match_result
+tidy1 v wrap (DictPat dicts methods)
= case num_of_d_and_ms of
- 0 -> tidy1 v (TuplePat [] True) match_result
- 1 -> tidy1 v (head dict_and_method_pats) match_result
- _ -> tidy1 v (TuplePat dict_and_method_pats True) match_result
+ 0 -> tidy1 v wrap (TuplePat [] Boxed)
+ 1 -> tidy1 v wrap (unLoc (head dict_and_method_pats))
+ _ -> tidy1 v wrap (TuplePat dict_and_method_pats Boxed)
where
num_of_d_and_ms = length dicts + length methods
- dict_and_method_pats = map VarPat (dicts ++ methods)
+ dict_and_method_pats = map nlVarPat (dicts ++ methods)
+-- LitPats: we *might* be able to replace these w/ a simpler form
+tidy1 v wrap pat@(LitPat lit)
+ = returnDs (wrap, unLoc (tidyLitPat lit (noLoc pat)))
--- deeply ugly mangling for some (common) NPats/LitPats
+-- NPats: we *might* be able to replace these w/ a simpler form
+tidy1 v wrap pat@(NPatOut lit lit_ty _)
+ = returnDs (wrap, unLoc (tidyNPat lit lit_ty (noLoc pat)))
--- LitPats: the desugarer only sees these at well-known types
+-- and everything else goes through unchanged...
-tidy1 v pat@(LitPat lit lit_ty) match_result
- = returnDs (tidyLitPat lit lit_ty pat, match_result)
+tidy1 v wrap non_interesting_pat
+ = returnDs (wrap, non_interesting_pat)
--- NPats: we *might* be able to replace these w/ a simpler form
-tidy1 v pat@(NPat lit lit_ty _) match_result
- = returnDs (tidyLitPat lit lit_ty pat, match_result)
--- and everything else goes through unchanged...
+tidy_con data_con pat_ty (PrefixCon ps) = ps
+tidy_con data_con pat_ty (InfixCon p1 p2) = [p1,p2]
+tidy_con data_con pat_ty (RecCon rpats)
+ | null rpats
+ = -- Special case for C {}, which can be used for
+ -- a constructor that isn't declared to have
+ -- fields at all
+ map (noLoc . WildPat) con_arg_tys'
-tidy1 v non_interesting_pat match_result
- = returnDs (non_interesting_pat, match_result)
+ | otherwise
+ = ASSERT( isVanillaDataCon data_con )
+ -- We're in a record case, so the data con must be vanilla
+ -- and hence no existentials to worry about
+ map mk_pat tagged_arg_tys
+ where
+ -- Boring stuff to find the arg-tys of the constructor
+
+ inst_tys = tcTyConAppArgs pat_ty -- Newtypes must be opaque
+ con_arg_tys' = dataConInstOrigArgTys data_con inst_tys
+ tagged_arg_tys = con_arg_tys' `zip` dataConFieldLabels data_con
+
+ -- mk_pat picks a WildPat of the appropriate type for absent fields,
+ -- and the specified pattern for present fields
+ mk_pat (arg_ty, lbl) =
+ case [ pat | (sel_id,pat) <- rpats, idName (unLoc sel_id) == lbl] of
+ (pat:pats) -> ASSERT( null pats ) pat
+ [] -> noLoc (WildPat arg_ty)
\end{code}
\noindent
%************************************************************************
%* *
-%* match on an unmixed block: the real business *
-%* *
-%************************************************************************
-\subsection[matchUnmixedEqns]{@matchUnmixedEqns@: getting down to business}
-
-The function @matchUnmixedEqns@ is where the matching stuff sets to
-work a block of equations, to which the mixture rule has been applied.
-Its arguments and results are the same as for the ``top-level'' @match@.
-
-\begin{code}
-matchUnmixedEqns :: [Id]
- -> [EquationInfo]
- -> DsM MatchResult
-
-matchUnmixedEqns [] _ = panic "matchUnmixedEqns: no names"
-
-matchUnmixedEqns all_vars@(var:vars) eqns_info
- | isWildPat first_pat
- = ASSERT( all isWildPat column_1_pats ) -- Sanity check
- -- Real true variables, just like in matchVar, SLPJ p 94
- -- No binding to do: they'll all be wildcards by now (done in tidy)
- match vars remaining_eqns_info
-
- | isConPat first_pat
- = ASSERT( patsAreAllCons column_1_pats )
- matchConFamily all_vars eqns_info
-
- | isLitPat first_pat
- = ASSERT( patsAreAllLits column_1_pats )
- -- see notes in MatchLiteral
- -- not worried about the same literal more than once in a column
- -- (ToDo: sort this out later)
- matchLiterals all_vars eqns_info
-
- where
- first_pat = head column_1_pats
- column_1_pats = [pat | EqnInfo _ _ (pat:_) _ <- eqns_info]
- remaining_eqns_info = [EqnInfo n ctx pats match_result | EqnInfo n ctx (_:pats) match_result <- eqns_info]
-\end{code}
-
-%************************************************************************
-%* *
%* matchWrapper: a convenient way to call @match@ *
%* *
%************************************************************************
\end{enumerate}
\begin{code}
-matchWrapper :: DsMatchKind -- For shadowing warning messages
- -> [TypecheckedMatch] -- Matches being desugared
- -> String -- Error message if the match fails
+matchWrapper :: HsMatchContext Name -- For shadowing warning messages
+ -> MatchGroup Id -- Matches being desugared
-> DsM ([Id], CoreExpr) -- Results
\end{code}
JJQC 30-Nov-1997
\begin{code}
-matchWrapper kind matches error_string
- = flattenMatches kind matches `thenDs` \ (result_ty, eqns_info) ->
- let
- EqnInfo _ _ arg_pats _ : _ = eqns_info
- in
- mapDs selectMatchVar arg_pats `thenDs` \ new_vars ->
- match_fun new_vars eqns_info `thenDs` \ match_result ->
-
- mkErrorAppDs pAT_ERROR_ID result_ty error_string `thenDs` \ fail_expr ->
- extractMatchResult match_result fail_expr `thenDs` \ result_expr ->
- returnDs (new_vars, result_expr)
- where match_fun = case kind of
- LambdaMatch | opt_WarnSimplePatterns -> matchExport
- | otherwise -> match
- _ -> matchExport
+matchWrapper ctxt (MatchGroup matches match_ty)
+ = do { eqns_info <- mapM mk_eqn_info matches
+ ; dflags <- getDOptsDs
+ ; locn <- getSrcSpanDs
+ ; let ds_ctxt = DsMatchContext ctxt arg_pats locn
+ error_string = matchContextErrString ctxt
+
+ ; new_vars <- selectMatchVars arg_pats pat_tys
+ ; match_result <- match_fun dflags ds_ctxt new_vars rhs_ty eqns_info
+
+ ; fail_expr <- mkErrorAppDs pAT_ERROR_ID rhs_ty error_string
+ ; result_expr <- extractMatchResult match_result fail_expr
+ ; return (new_vars, result_expr) }
+ where
+ arg_pats = map unLoc (hsLMatchPats (head matches))
+ n_pats = length arg_pats
+ (pat_tys, rhs_ty) = splitFunTysN n_pats match_ty
+
+ mk_eqn_info (L _ (Match pats _ grhss))
+ = do { let upats = map unLoc pats
+ ; match_result <- dsGRHSs ctxt upats grhss rhs_ty
+ ; return (EqnInfo { eqn_wrap = idWrapper,
+ eqn_pats = upats,
+ eqn_rhs = match_result}) }
+
+ match_fun dflags ds_ctxt
+ = case ctxt of
+ LambdaExpr | dopt Opt_WarnSimplePatterns dflags -> matchCheck ds_ctxt
+ | otherwise -> match
+ _ -> matchCheck ds_ctxt
\end{code}
%************************************************************************
\begin{code}
matchSimply :: CoreExpr -- Scrutinee
- -> DsMatchKind -- Match kind
- -> TypecheckedPat -- Pattern it should match
+ -> HsMatchContext Name -- Match kind
+ -> LPat Id -- Pattern it should match
-> CoreExpr -- Return this if it matches
-> CoreExpr -- Return this if it doesn't
-> DsM CoreExpr
matchSimply scrut kind pat result_expr fail_expr
- = getSrcLocDs `thenDs` \ locn ->
+ = getSrcSpanDs `thenDs` \ locn ->
let
- ctx = DsMatchContext kind [pat] locn
+ ctx = DsMatchContext kind [unLoc pat] locn
match_result = cantFailMatchResult result_expr
+ rhs_ty = exprType fail_expr
+ -- Use exprType of fail_expr, because won't refine in the case of failure!
in
- matchSinglePat scrut ctx pat match_result `thenDs` \ match_result' ->
+ matchSinglePat scrut ctx pat rhs_ty match_result `thenDs` \ match_result' ->
extractMatchResult match_result' fail_expr
-matchSinglePat :: CoreExpr -> DsMatchContext -> TypecheckedPat
- -> MatchResult -> DsM MatchResult
-
-matchSinglePat (Var var) ctx pat match_result
- = match_fn [var] [EqnInfo 1 ctx [pat] match_result]
+matchSinglePat :: CoreExpr -> DsMatchContext -> LPat Id
+ -> Type -> MatchResult -> DsM MatchResult
+matchSinglePat (Var var) ctx pat ty match_result
+ = getDOptsDs `thenDs` \ dflags ->
+ match_fn dflags [var] ty [EqnInfo { eqn_wrap = idWrapper,
+ eqn_pats = [unLoc pat],
+ eqn_rhs = match_result }]
where
- match_fn | opt_WarnSimplePatterns = matchExport
- | otherwise = match
+ match_fn dflags
+ | dopt Opt_WarnSimplePatterns dflags = matchCheck ctx
+ | otherwise = match
-matchSinglePat scrut ctx pat match_result
- = selectMatchVar pat `thenDs` \ var ->
- matchSinglePat (Var var) ctx pat match_result `thenDs` \ match_result' ->
+matchSinglePat scrut ctx pat ty match_result
+ = selectSimpleMatchVarL pat `thenDs` \ var ->
+ matchSinglePat (Var var) ctx pat ty match_result `thenDs` \ match_result' ->
returnDs (adjustMatchResult (bindNonRec var scrut) match_result')
\end{code}
-%************************************************************************
-%* *
-%* flattenMatches : create a list of EquationInfo *
-%* *
-%************************************************************************
-
-\subsection[flattenMatches]{@flattenMatches@: create @[EquationInfo]@}
-
-This is actually local to @matchWrapper@.
-
-\begin{code}
-flattenMatches
- :: DsMatchKind
- -> [TypecheckedMatch]
- -> DsM (Type, [EquationInfo])
-
-flattenMatches kind matches
- = mapAndUnzipDs flatten_match (matches `zip` [1..]) `thenDs` \ (result_tys, eqn_infos) ->
- let
- result_ty = head result_tys
- in
- ASSERT( all (== result_ty) result_tys )
- returnDs (result_ty, eqn_infos)
- where
- flatten_match (Match _ pats _ grhss, n)
- = dsGRHSs kind pats grhss `thenDs` \ (ty, match_result) ->
- getSrcLocDs `thenDs` \ locn ->
- returnDs (ty, EqnInfo n (DsMatchContext kind pats locn) pats match_result)
-\end{code}