%
% (c) The University of Glasgow 2006
% (c) The AQUA Project, Glasgow University, 1996-1998
%
Printing of Core syntax
\begin{code}
module PprCore (
pprCoreExpr, pprParendExpr,
pprCoreBinding, pprCoreBindings, pprCoreAlt,
pprRules
) where
import CoreSyn
import Literal( pprLiteral )
import Name( pprInfixName, pprPrefixName )
import Var
import Id
import IdInfo
import Demand
import DataCon
import TyCon
import Type
import Coercion
import DynFlags
import BasicTypes
import Util
import Outputable
import FastString
\end{code}
%************************************************************************
%* *
\subsection{Public interfaces for Core printing (excluding instances)}
%* *
%************************************************************************
@pprParendCoreExpr@ puts parens around non-atomic Core expressions.
\begin{code}
pprCoreBindings :: OutputableBndr b => [Bind b] -> SDoc
pprCoreBinding :: OutputableBndr b => Bind b -> SDoc
pprCoreExpr :: OutputableBndr b => Expr b -> SDoc
pprParendExpr :: OutputableBndr b => Expr b -> SDoc
pprCoreBindings = pprTopBinds
pprCoreBinding = pprTopBind
instance OutputableBndr b => Outputable (Bind b) where
ppr bind = ppr_bind bind
instance OutputableBndr b => Outputable (Expr b) where
ppr expr = pprCoreExpr expr
\end{code}
%************************************************************************
%* *
\subsection{The guts}
%* *
%************************************************************************
\begin{code}
pprTopBinds :: OutputableBndr a => [Bind a] -> SDoc
pprTopBinds binds = vcat (map pprTopBind binds)
pprTopBind :: OutputableBndr a => Bind a -> SDoc
pprTopBind (NonRec binder expr)
= ppr_binding (binder,expr) $$ blankLine
pprTopBind (Rec [])
= ptext (sLit "Rec { }")
pprTopBind (Rec (b:bs))
= vcat [ptext (sLit "Rec {"),
ppr_binding b,
vcat [blankLine $$ ppr_binding b | b <- bs],
ptext (sLit "end Rec }"),
blankLine]
\end{code}
\begin{code}
ppr_bind :: OutputableBndr b => Bind b -> SDoc
ppr_bind (NonRec val_bdr expr) = ppr_binding (val_bdr, expr)
ppr_bind (Rec binds) = vcat (map pp binds)
where
pp bind = ppr_binding bind <> semi
ppr_binding :: OutputableBndr b => (b, Expr b) -> SDoc
ppr_binding (val_bdr, expr)
= pprBndr LetBind val_bdr $$
hang (ppr val_bdr <+> equals) 2 (pprCoreExpr expr)
\end{code}
\begin{code}
pprParendExpr expr = ppr_expr parens expr
pprCoreExpr expr = ppr_expr noParens expr
noParens :: SDoc -> SDoc
noParens pp = pp
\end{code}
\begin{code}
ppr_expr :: OutputableBndr b => (SDoc -> SDoc) -> Expr b -> SDoc
ppr_expr _ (Var name) = ppr name
ppr_expr add_par (Type ty) = add_par (ptext (sLit "TYPE") <+> ppr ty)
ppr_expr add_par (Coercion co) = add_par (ptext (sLit "CO") <+> ppr co)
ppr_expr add_par (Lit lit) = pprLiteral add_par lit
ppr_expr add_par (Cast expr co)
= add_par $
sep [pprParendExpr expr,
ptext (sLit "`cast`") <+> pprCo co]
where
pprCo co = sdocWithDynFlags $ \dflags ->
if gopt Opt_SuppressCoercions dflags
then ptext (sLit "...")
else parens $
sep [ppr co, dcolon <+> pprEqPred (coercionKind co)]
ppr_expr add_par expr@(Lam _ _)
= let
(bndrs, body) = collectBinders expr
in
add_par $
hang (ptext (sLit "\\") <+> sep (map (pprBndr LambdaBind) bndrs) <+> arrow)
2 (pprCoreExpr body)
ppr_expr add_par expr@(App {})
= case collectArgs expr of { (fun, args) ->
let
pp_args = sep (map pprArg args)
val_args = dropWhile isTypeArg args
pp_tup_args = sep (punctuate comma (map pprCoreExpr val_args))
in
case fun of
Var f -> case isDataConWorkId_maybe f of
Just dc | saturated && isTupleTyCon tc
-> tupleParens (tupleTyConSort tc) pp_tup_args
where
tc = dataConTyCon dc
saturated = val_args `lengthIs` idArity f
_ -> add_par (hang (ppr f) 2 pp_args)
_ -> add_par (hang (pprParendExpr fun) 2 pp_args)
}
ppr_expr add_par (Case expr var ty [(con,args,rhs)])
= sdocWithDynFlags $ \dflags ->
if gopt Opt_PprCaseAsLet dflags
then add_par $
sep [ sep [ ptext (sLit "let! {")
<+> ppr_case_pat con args
<+> ptext (sLit "~")
<+> ppr_bndr var
, ptext (sLit "<-") <+> ppr_expr id expr
<+> ptext (sLit "} in") ]
, pprCoreExpr rhs
]
else add_par $
sep [sep [ptext (sLit "case") <+> pprCoreExpr expr,
ifPprDebug (braces (ppr ty)),
sep [ptext (sLit "of") <+> ppr_bndr var,
char '{' <+> ppr_case_pat con args <+> arrow]
],
pprCoreExpr rhs,
char '}'
]
where
ppr_bndr = pprBndr CaseBind
ppr_expr add_par (Case expr var ty alts)
= add_par $
sep [sep [ptext (sLit "case")
<+> pprCoreExpr expr
<+> ifPprDebug (braces (ppr ty)),
ptext (sLit "of") <+> ppr_bndr var <+> char '{'],
nest 2 (vcat (punctuate semi (map pprCoreAlt alts))),
char '}'
]
where
ppr_bndr = pprBndr CaseBind
ppr_expr add_par (Let bind expr)
= add_par $
sep [hang (ptext keyword) 2 (ppr_bind bind <+> ptext (sLit "} in")),
pprCoreExpr expr]
where
keyword = case bind of
Rec _ -> (sLit "letrec {")
NonRec _ _ -> (sLit "let {")
ppr_expr add_par (Tick tickish expr)
= add_par (sep [ppr tickish, pprCoreExpr expr])
pprCoreAlt :: OutputableBndr a => (AltCon, [a] , Expr a) -> SDoc
pprCoreAlt (con, args, rhs)
= hang (ppr_case_pat con args <+> arrow) 2 (pprCoreExpr rhs)
ppr_case_pat :: OutputableBndr a => AltCon -> [a] -> SDoc
ppr_case_pat (DataAlt dc) args
| isTupleTyCon tc
= tupleParens (tupleTyConSort tc) (hsep (punctuate comma (map ppr_bndr args)))
where
ppr_bndr = pprBndr CaseBind
tc = dataConTyCon dc
ppr_case_pat con args
= ppr con <+> (fsep (map ppr_bndr args))
where
ppr_bndr = pprBndr CaseBind
pprArg :: OutputableBndr a => Expr a -> SDoc
pprArg (Type ty)
= sdocWithDynFlags $ \dflags ->
if gopt Opt_SuppressTypeApplications dflags
then empty
else ptext (sLit "@") <+> pprParendType ty
pprArg (Coercion co) = ptext (sLit "@~") <+> pprParendCo co
pprArg expr = pprParendExpr expr
\end{code}
Note [Print case as let]
~~~~~~~~~~~~~~~~~~~~~~~~
Single-branch case expressions are very common:
case x of y { I# x' ->
case p of q { I# p' -> ... } }
These are, in effect, just strict let's, with pattern matching.
With -dppr-case-as-let we print them as such:
let! { I# x' ~ y <- x } in
let! { I# p' ~ q <- p } in ...
Other printing bits-and-bobs used with the general @pprCoreBinding@
and @pprCoreExpr@ functions.
\begin{code}
instance OutputableBndr Var where
pprBndr = pprCoreBinder
pprInfixOcc = pprInfixName . varName
pprPrefixOcc = pprPrefixName . varName
pprCoreBinder :: BindingSite -> Var -> SDoc
pprCoreBinder LetBind binder
| isTyVar binder = pprKindedTyVarBndr binder
| otherwise = pprTypedLetBinder binder $$
ppIdInfo binder (idInfo binder)
pprCoreBinder bind_site bndr
= getPprStyle $ \ sty ->
pprTypedLamBinder bind_site (debugStyle sty) bndr
pprUntypedBinder :: Var -> SDoc
pprUntypedBinder binder
| isTyVar binder = ptext (sLit "@") <+> ppr binder
| otherwise = pprIdBndr binder
pprTypedLamBinder :: BindingSite -> Bool -> Var -> SDoc
pprTypedLamBinder bind_site debug_on var
= sdocWithDynFlags $ \dflags ->
case () of
_
| not debug_on && isDeadBinder var -> char '_'
| not debug_on, CaseBind <- bind_site ->
pprUntypedBinder var
| gopt Opt_SuppressTypeSignatures dflags ->
pprUntypedBinder var
| isTyVar var -> parens (pprKindedTyVarBndr var)
| otherwise ->
parens (hang (pprIdBndr var)
2 (vcat [ dcolon <+> pprType (idType var), pp_unf]))
where
unf_info = unfoldingInfo (idInfo var)
pp_unf | hasSomeUnfolding unf_info = ptext (sLit "Unf=") <> ppr unf_info
| otherwise = empty
pprTypedLetBinder :: Var -> SDoc
pprTypedLetBinder binder
= sdocWithDynFlags $ \dflags ->
case () of
_
| isTyVar binder -> pprKindedTyVarBndr binder
| gopt Opt_SuppressTypeSignatures dflags -> pprIdBndr binder
| otherwise -> hang (pprIdBndr binder) 2 (dcolon <+> pprType (idType binder))
pprKindedTyVarBndr :: TyVar -> SDoc
pprKindedTyVarBndr tyvar
= ptext (sLit "@") <+> pprTvBndr tyvar
pprIdBndr :: Id -> SDoc
pprIdBndr id = ppr id <+> pprIdBndrInfo (idInfo id)
pprIdBndrInfo :: IdInfo -> SDoc
pprIdBndrInfo info
= sdocWithDynFlags $ \dflags ->
if gopt Opt_SuppressIdInfo dflags
then empty
else megaSeqIdInfo info `seq` doc
where
prag_info = inlinePragInfo info
occ_info = occInfo info
dmd_info = demandInfo info
lbv_info = lbvarInfo info
has_prag = not (isDefaultInlinePragma prag_info)
has_occ = not (isNoOcc occ_info)
has_dmd = not $ isTopDmd dmd_info
has_lbv = not (hasNoLBVarInfo lbv_info)
doc = showAttributes
[ (has_prag, ptext (sLit "InlPrag=") <> ppr prag_info)
, (has_occ, ptext (sLit "Occ=") <> ppr occ_info)
, (has_dmd, ptext (sLit "Dmd=") <> ppr dmd_info)
, (has_lbv , ptext (sLit "Lbv=") <> ppr lbv_info)
]
\end{code}
-----------------------------------------------------
-- IdDetails and IdInfo
-----------------------------------------------------
\begin{code}
ppIdInfo :: Id -> IdInfo -> SDoc
ppIdInfo id info
= sdocWithDynFlags $ \dflags ->
if gopt Opt_SuppressIdInfo dflags
then empty
else
showAttributes
[ (True, pp_scope <> ppr (idDetails id))
, (has_arity, ptext (sLit "Arity=") <> int arity)
, (has_caf_info, ptext (sLit "Caf=") <> ppr caf_info)
, (True, ptext (sLit "Str=") <> pprStrictness str_info)
, (has_unf, ptext (sLit "Unf=") <> ppr unf_info)
, (not (null rules), ptext (sLit "RULES:") <+> vcat (map pprRule rules))
]
where
pp_scope | isGlobalId id = ptext (sLit "GblId")
| isExportedId id = ptext (sLit "LclIdX")
| otherwise = ptext (sLit "LclId")
arity = arityInfo info
has_arity = arity /= 0
caf_info = cafInfo info
has_caf_info = not (mayHaveCafRefs caf_info)
str_info = strictnessInfo info
unf_info = unfoldingInfo info
has_unf = hasSomeUnfolding unf_info
rules = specInfoRules (specInfo info)
showAttributes :: [(Bool,SDoc)] -> SDoc
showAttributes stuff
| null docs = empty
| otherwise = brackets (sep (punctuate comma docs))
where
docs = [d | (True,d) <- stuff]
\end{code}
-----------------------------------------------------
-- Unfolding and UnfoldingGuidance
-----------------------------------------------------
\begin{code}
instance Outputable UnfoldingGuidance where
ppr UnfNever = ptext (sLit "NEVER")
ppr (UnfWhen unsat_ok boring_ok)
= ptext (sLit "ALWAYS_IF") <>
parens (ptext (sLit "unsat_ok=") <> ppr unsat_ok <> comma <>
ptext (sLit "boring_ok=") <> ppr boring_ok)
ppr (UnfIfGoodArgs { ug_args = cs, ug_size = size, ug_res = discount })
= hsep [ ptext (sLit "IF_ARGS"),
brackets (hsep (map int cs)),
int size,
int discount ]
instance Outputable UnfoldingSource where
ppr InlineCompulsory = ptext (sLit "Compulsory")
ppr (InlineWrapper w) = ptext (sLit "Worker=") <> ppr w
ppr InlineStable = ptext (sLit "InlineStable")
ppr InlineRhs = ptext (sLit "<vanilla>")
instance Outputable Unfolding where
ppr NoUnfolding = ptext (sLit "No unfolding")
ppr (OtherCon cs) = ptext (sLit "OtherCon") <+> ppr cs
ppr (DFunUnfolding { df_bndrs = bndrs, df_con = con, df_args = args })
= hang (ptext (sLit "DFun:") <+> ptext (sLit "\\")
<+> sep (map (pprBndr LambdaBind) bndrs) <+> arrow)
2 (ppr con <+> sep (map ppr args))
ppr (CoreUnfolding { uf_src = src
, uf_tmpl=rhs, uf_is_top=top, uf_is_value=hnf
, uf_is_conlike=conlike, uf_is_work_free=wf
, uf_expandable=exp, uf_guidance=g, uf_arity=arity})
= ptext (sLit "Unf") <> braces (pp_info $$ pp_rhs)
where
pp_info = fsep $ punctuate comma
[ ptext (sLit "Src=") <> ppr src
, ptext (sLit "TopLvl=") <> ppr top
, ptext (sLit "Arity=") <> int arity
, ptext (sLit "Value=") <> ppr hnf
, ptext (sLit "ConLike=") <> ppr conlike
, ptext (sLit "WorkFree=") <> ppr wf
, ptext (sLit "Expandable=") <> ppr exp
, ptext (sLit "Guidance=") <> ppr g ]
pp_tmpl = ptext (sLit "Tmpl=") <+> ppr rhs
pp_rhs | isStableSource src = pp_tmpl
| otherwise = empty
\end{code}
-----------------------------------------------------
-- Rules
-----------------------------------------------------
\begin{code}
instance Outputable CoreRule where
ppr = pprRule
pprRules :: [CoreRule] -> SDoc
pprRules rules = vcat (map pprRule rules)
pprRule :: CoreRule -> SDoc
pprRule (BuiltinRule { ru_fn = fn, ru_name = name})
= ptext (sLit "Built in rule for") <+> ppr fn <> colon <+> doubleQuotes (ftext name)
pprRule (Rule { ru_name = name, ru_act = act, ru_fn = fn,
ru_bndrs = tpl_vars, ru_args = tpl_args,
ru_rhs = rhs })
= hang (doubleQuotes (ftext name) <+> ppr act)
4 (sep [ptext (sLit "forall") <+>
sep (map (pprCoreBinder LambdaBind) tpl_vars) <> dot,
nest 2 (ppr fn <+> sep (map pprArg tpl_args)),
nest 2 (ptext (sLit "=") <+> pprCoreExpr rhs)
])
\end{code}
-----------------------------------------------------
-- Tickish
-----------------------------------------------------
\begin{code}
instance Outputable id => Outputable (Tickish id) where
ppr (HpcTick modl ix) =
hcat [ptext (sLit "tick<"),
ppr modl, comma,
ppr ix,
ptext (sLit ">")]
ppr (Breakpoint ix vars) =
hcat [ptext (sLit "break<"),
ppr ix,
ptext (sLit ">"),
parens (hcat (punctuate comma (map ppr vars)))]
ppr (ProfNote { profNoteCC = cc,
profNoteCount = tick,
profNoteScope = scope }) =
case (tick,scope) of
(True,True) -> hcat [ptext (sLit "scctick<"), ppr cc, char '>']
(True,False) -> hcat [ptext (sLit "tick<"), ppr cc, char '>']
_ -> hcat [ptext (sLit "scc<"), ppr cc, char '>']
\end{code}
-----------------------------------------------------
-- Vectorisation declarations
-----------------------------------------------------
\begin{code}
instance Outputable CoreVect where
ppr (Vect var e) = hang (ptext (sLit "VECTORISE") <+> ppr var <+> char '=')
4 (pprCoreExpr e)
ppr (NoVect var) = ptext (sLit "NOVECTORISE") <+> ppr var
ppr (VectType False var Nothing) = ptext (sLit "VECTORISE type") <+> ppr var
ppr (VectType True var Nothing) = ptext (sLit "VECTORISE SCALAR type") <+> ppr var
ppr (VectType False var (Just tc)) = ptext (sLit "VECTORISE type") <+> ppr var <+> char '=' <+>
ppr tc
ppr (VectType True var (Just tc)) = ptext (sLit "VECTORISE SCALAR type") <+> ppr var <+>
char '=' <+> ppr tc
ppr (VectClass tc) = ptext (sLit "VECTORISE class") <+> ppr tc
ppr (VectInst var) = ptext (sLit "VECTORISE SCALAR instance") <+> ppr var
\end{code}