mkIntExpr, mkCharExpr,
mkStringLit, mkStringLitFS, mkIntegerExpr,
- mkSelectorBinds, mkTupleExpr, mkTupleSelector, mkCoreTup,
+ mkSelectorBinds, mkTupleExpr, mkTupleSelector,
+ mkCoreTup, mkCoreSel, mkCoreTupTy,
+
+ dsReboundNames, lookupReboundName,
selectMatchVar
) where
#include "HsVersions.h"
-import {-# SOURCE #-} Match ( matchSimply )
+import {-# SOURCE #-} Match ( matchSimply )
+import {-# SOURCE #-} DsExpr( dsExpr )
import HsSyn
import TcHsSyn ( TypecheckedPat, hsPatType )
import CoreSyn
-
+import Constants ( mAX_TUPLE_SIZE )
import DsMonad
import CoreUtils ( exprType, mkIfThenElse, mkCoerce )
import MkId ( iRREFUT_PAT_ERROR_ID, mkReboxingAlt, mkNewTypeBody )
-import Id ( idType, Id, mkWildId )
+import Id ( idType, Id, mkWildId, mkTemplateLocals )
+import Name ( Name )
import Literal ( Literal(..), inIntRange, tARGET_MAX_INT )
import TyCon ( isNewTyCon, tyConDataCons )
import DataCon ( DataCon, dataConSourceArity )
import TcType ( tcTyConAppTyCon, isIntTy, isFloatTy, isDoubleTy )
import TysPrim ( intPrimTy )
import TysWiredIn ( nilDataCon, consDataCon,
- tupleCon,
+ tupleCon, mkTupleTy,
unitDataConId, unitTy,
charTy, charDataCon,
intTy, intDataCon, smallIntegerDataCon,
lengthPName, indexPName )
import Outputable
import UnicodeUtil ( intsToUtf8, stringToUtf8 )
-import Util ( isSingleton, notNull )
+import Util ( isSingleton, notNull, zipEqual )
+import ListSetOps ( assocDefault )
import FastString
\end{code}
%************************************************************************
%* *
+ Rebindable syntax
+%* *
+%************************************************************************
+
+\begin{code}
+dsReboundNames :: ReboundNames Id
+ -> DsM ([CoreBind], -- Auxiliary bindings
+ [(Name,Id)]) -- Maps the standard name to its value
+
+dsReboundNames rebound_ids
+ = mapAndUnzipDs mk_bind rebound_ids `thenDs` \ (binds_s, prs) ->
+ return (concat binds_s, prs)
+ where
+ -- The cheapo special case can happen when we
+ -- make an intermediate HsDo when desugaring a RecStmt
+ mk_bind (std_name, HsVar id) = return ([], (std_name, id))
+ mk_bind (std_name, expr) = dsExpr expr `thenDs` \ rhs ->
+ newSysLocalDs (exprType rhs) `thenDs` \ id ->
+ return ([NonRec id rhs], (std_name, id))
+
+lookupReboundName :: [(Name,Id)] -> Name -> CoreExpr
+lookupReboundName prs std_name
+ = Var (assocDefault (mk_panic std_name) prs std_name)
+ where
+ mk_panic std_name = pprPanic "dsReboundNames" (ptext SLIT("Not found:") <+> ppr std_name)
+\end{code}
+
+
+%************************************************************************
+%* *
\subsection{Tidying lit pats}
%* *
%************************************************************************
\end{code}
-@mkTupleExpr@ builds a tuple; the inverse to @mkTupleSelector@. If it
-has only one element, it is the identity function.
+%************************************************************************
+%* *
+ Tuples
+%* *
+%************************************************************************
-\begin{code}
-mkTupleExpr :: [Id] -> CoreExpr
+@mkTupleExpr@ builds a tuple; the inverse to @mkTupleSelector@.
-{- This code has been replaced by mkCoreTup below
-mkTupleExpr [] = Var unitDataConId
-mkTupleExpr [id] = Var id
-mkTupleExpr ids = mkConApp (tupleCon Boxed (length ids))
- (map (Type . idType) ids ++ [ Var i | i <-ids])
--}
+* If it has only one element, it is the identity function.
-mkTupleExpr ids = mkCoreTup(map Var ids)
-
-mkCoreTup :: [CoreExpr] -> CoreExpr
-mkCoreTup [] = Var unitDataConId
-mkCoreTup [c] = c
-mkCoreTup cs = mkConApp (tupleCon Boxed (length cs))
- (map (Type . exprType) cs ++ cs)
-
+* If there are more elements than a big tuple can have, it nests
+ the tuples.
+
+Nesting policy. Better a 2-tuple of 10-tuples (3 objects) than
+a 10-tuple of 2-tuples (11 objects). So we want the leaves to be big.
+
+\begin{code}
+mkTupleExpr :: [Id] -> CoreExpr
+mkTupleExpr ids
+ = mk_tuple_expr (chunkify (map Var ids))
+ where
+ mk_tuple_expr :: [[CoreExpr]] -> CoreExpr
+ -- Each sub-list is short enough to fit in a tuple
+ mk_tuple_expr [exprs] = mkCoreTup exprs
+ mk_tuple_expr exprs_s = mk_tuple_expr (chunkify (map mkCoreTup exprs_s))
+
+
+chunkify :: [a] -> [[a]]
+-- The sub-lists of the result all have length <= mAX_TUPLE_SIZE
+-- But there may be more than mAX_TUPLE_SIZE sub-lists
+chunkify xs
+ | n_xs <= mAX_TUPLE_SIZE = {- pprTrace "Small" (ppr n_xs) -} [xs]
+ | otherwise = {- pprTrace "Big" (ppr n_xs) -} (split xs)
+ where
+ n_xs = length xs
+ split [] = []
+ split xs = take mAX_TUPLE_SIZE xs : split (drop mAX_TUPLE_SIZE xs)
\end{code}
If there is just one id in the ``tuple'', then the selector is
just the identity.
+If it's big, it does nesting
+ mkTupleSelector [a,b,c,d] b v e
+ = case e of v {
+ (p,q) -> case p of p {
+ (a,b) -> b }}
+We use 'tpl' vars for the p,q, since shadowing does not matter.
+
+In fact, it's more convenient to generate it innermost first, getting
+
+ case (case e of v
+ (p,q) -> p) of p
+ (a,b) -> b
+
\begin{code}
mkTupleSelector :: [Id] -- The tuple args
-> Id -- The selected one
-> CoreExpr -- Scrutinee
-> CoreExpr
-mkTupleSelector [var] should_be_the_same_var scrut_var scrut
- = ASSERT(var == should_be_the_same_var)
- scrut
-
mkTupleSelector vars the_var scrut_var scrut
- = ASSERT( notNull vars )
- Case scrut scrut_var [(DataAlt (tupleCon Boxed (length vars)), vars, Var the_var)]
+ = mk_tup_sel (chunkify vars) the_var
+ where
+ mk_tup_sel [vars] the_var = mkCoreSel vars the_var scrut_var scrut
+ mk_tup_sel vars_s the_var = mkCoreSel group the_var tpl_v $
+ mk_tup_sel (chunkify tpl_vs) tpl_v
+ where
+ tpl_tys = [mkCoreTupTy (map idType gp) | gp <- vars_s]
+ tpl_vs = mkTemplateLocals tpl_tys
+ [(tpl_v, group)] = [(tpl,gp) | (tpl,gp) <- zipEqual "mkTupleSelector" tpl_vs vars_s,
+ the_var `elem` gp ]
\end{code}
mkListExpr :: Type -> [CoreExpr] -> CoreExpr
mkListExpr ty xs = foldr (mkConsExpr ty) (mkNilExpr ty) xs
+
+
+-- The next three functions make tuple types, constructors and selectors,
+-- with the rule that a 1-tuple is represented by the thing itselg
+mkCoreTupTy :: [Type] -> Type
+mkCoreTupTy [ty] = ty
+mkCoreTupTy tys = mkTupleTy Boxed (length tys) tys
+
+mkCoreTup :: [CoreExpr] -> CoreExpr
+-- Builds exactly the specified tuple.
+-- No fancy business for big tuples
+mkCoreTup [] = Var unitDataConId
+mkCoreTup [c] = c
+mkCoreTup cs = mkConApp (tupleCon Boxed (length cs))
+ (map (Type . exprType) cs ++ cs)
+
+mkCoreSel :: [Id] -- The tuple args
+ -> Id -- The selected one
+ -> Id -- A variable of the same type as the scrutinee
+ -> CoreExpr -- Scrutinee
+ -> CoreExpr
+-- mkCoreSel [x,y,z] x v e
+-- ===> case e of v { (x,y,z) -> x
+mkCoreSel [var] should_be_the_same_var scrut_var scrut
+ = ASSERT(var == should_be_the_same_var)
+ scrut
+mkCoreSel vars the_var scrut_var scrut
+ = ASSERT( notNull vars )
+ Case scrut scrut_var
+ [(DataAlt (tupleCon Boxed (length vars)), vars, Var the_var)]
\end{code}