module HsExpr where
-import Ubiq{-uitous-}
-import HsLoop -- for paranoia checking
+IMP_Ubiq(){-uitous-}
+IMPORT_DELOOPER(HsLoop) -- for paranoia checking
-- friends:
import HsBinds ( HsBinds )
import HsTypes ( PolyType )
-- others:
-import Id ( DictVar(..), GenId, Id(..) )
+import Id ( SYN_IE(DictVar), GenId, SYN_IE(Id) )
import Name ( pprNonSym, pprSym )
import Outputable ( interppSP, interpp'SP, ifnotPprForUser )
import PprType ( pprGenType, pprParendGenType, GenType{-instance-} )
import PprStyle ( PprStyle(..) )
import SrcLoc ( SrcLoc )
import Usage ( GenUsage{-instance-} )
-import Util ( panic{-ToDo:rm eventually-} )
+--import Util ( panic{-ToDo:rm eventually-} )
\end{code}
%************************************************************************
-- They are eventually removed by the type checker.
| NegApp (HsExpr tyvar uvar id pat) -- negated expr
- id -- the negate id
+ (HsExpr tyvar uvar id pat) -- the negate id (in a HsVar)
| HsPar (HsExpr tyvar uvar id pat) -- parenthesised expr
| HsDo [Stmt tyvar uvar id pat] -- "do":one or more stmts
SrcLoc
- | HsDoOut [Stmt tyvar uvar id pat] -- "do":one or more stmts
- id id -- Monad and MonadZero dicts
+ | HsDoOut [Stmt tyvar uvar id pat] -- "do":one or more stmts
+ id -- id for >>=, types applied
+ id -- id for zero, typed applied
SrcLoc
- | ListComp (HsExpr tyvar uvar id pat) -- list comprehension
- [Qual tyvar uvar id pat] -- at least one Qual(ifier)
+ | ListComp (HsExpr tyvar uvar id pat) -- list comprehension
+ [Qualifier tyvar uvar id pat] -- at least one Qualifier
| ExplicitList -- syntactic list
[HsExpr tyvar uvar id pat]
pprExpr sty expr@(HsApp e1 e2)
= let (fun, args) = collect_args expr [] in
- ppHang (pprParendExpr sty fun) 4 (ppSep (map (pprParendExpr sty) args))
+ ppHang (pprExpr sty fun) 4 (ppSep (map (pprExpr sty) args))
where
collect_args (HsApp fun arg) args = collect_args fun (arg:args)
collect_args fun args = (fun, args)
HsVar v -> pp_infixly v
_ -> pp_prefixly
where
- pp_e1 = pprParendExpr sty e1
- pp_e2 = pprParendExpr sty e2
+ pp_e1 = pprExpr sty e1
+ pp_e2 = pprExpr sty e2
pp_prefixly
- = ppHang (pprParendExpr sty op) 4 (ppSep [pp_e1, pp_e2])
+ = ppHang (pprExpr sty op) 4 (ppSep [pp_e1, pp_e2])
pp_infixly v
= ppSep [pp_e1, ppCat [pprSym sty v, pp_e2]]
where
pp_expr = pprParendExpr sty expr
- pp_prefixly = ppHang (ppCat [ppStr "( \\ _x ->", ppr sty op])
- 4 (ppCat [pp_expr, ppStr "_x )"])
+ pp_prefixly = ppHang (ppCat [ppStr "( \\ x_ ->", ppr sty op])
+ 4 (ppCat [pp_expr, ppStr "x_ )"])
pp_infixly v
= ppSep [ ppBeside ppLparen pp_expr,
ppBeside (pprSym sty v) ppRparen ]
where
pp_expr = pprParendExpr sty expr
- pp_prefixly = ppHang (ppCat [ppStr "( \\ _x ->", ppr sty op, ppPStr SLIT("_x")])
+ pp_prefixly = ppHang (ppCat [ppStr "( \\ x_ ->", ppr sty op, ppPStr SLIT("x_")])
4 (ppBeside pp_expr ppRparen)
pp_infixly v
= ppSep [ ppBeside ppLparen (pprSym sty v),
ppHang (ppPStr SLIT("in")) 2 (ppr sty expr)]
pprExpr sty (HsDo stmts _)
- = ppCat [ppPStr SLIT("do"), ppAboves (map (ppr sty) stmts)]
+ = ppHang (ppPStr SLIT("do")) 2 (ppAboves (map (ppr sty) stmts))
pprExpr sty (HsDoOut stmts _ _ _)
- = ppCat [ppPStr SLIT("do"), ppAboves (map (ppr sty) stmts)]
+ = ppHang (ppPStr SLIT("do")) 2 (ppAboves (map (ppr sty) stmts))
pprExpr sty (ListComp expr quals)
= ppHang (ppCat [ppLbrack, pprExpr sty expr, ppChar '|'])
= pp_rbinds sty (pprParendExpr sty aexp) rbinds
pprExpr sty (ExprWithTySig expr sig)
- = ppHang (ppBesides [ppLparen, ppNest 2 (pprExpr sty expr), ppPStr SLIT(" ::")])
- 4 (ppBeside (ppr sty sig) ppRparen)
+ = ppHang (ppBeside (ppNest 2 (pprExpr sty expr)) (ppPStr SLIT(" ::")))
+ 4 (ppr sty sig)
pprExpr sty (ArithSeqIn info)
= ppBracket (ppr sty info)
| ExprStmt (HsExpr tyvar uvar id pat)
SrcLoc
| LetStmt (HsBinds tyvar uvar id pat)
+
+ -- Translations; the types are the "a" and "b" types of the monad.
+ | BindStmtOut pat (HsExpr tyvar uvar id pat) SrcLoc (GenType tyvar uvar) (GenType tyvar uvar)
+ | ExprStmtOut (HsExpr tyvar uvar id pat) SrcLoc (GenType tyvar uvar) (GenType tyvar uvar)
\end{code}
\begin{code}
= ppCat [ppPStr SLIT("let"), ppr sty binds]
ppr sty (ExprStmt expr _)
= ppr sty expr
+ ppr sty (BindStmtOut pat expr _ _ _)
+ = ppCat [ppr sty pat, ppStr "<-", ppr sty expr]
+ ppr sty (ExprStmtOut expr _ _ _)
+ = ppr sty expr
\end{code}
%************************************************************************
``Qualifiers'' in list comprehensions:
\begin{code}
-data Qual tyvar uvar id pat
+data Qualifier tyvar uvar id pat
= GeneratorQual pat
(HsExpr tyvar uvar id pat)
| LetQual (HsBinds tyvar uvar id pat)
\begin{code}
instance (NamedThing id, Outputable id, Outputable pat,
Eq tyvar, Outputable tyvar, Eq uvar, Outputable uvar) =>
- Outputable (Qual tyvar uvar id pat) where
+ Outputable (Qualifier tyvar uvar id pat) where
ppr sty (GeneratorQual pat expr)
= ppCat [ppr sty pat, ppStr "<-", ppr sty expr]
ppr sty (LetQual binds)