X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Fcompiler%2Ftypes%2FPprType.lhs;h=637ea1f812ba5e49004ab5078633924ec796be8a;hb=5f67848a9c686f64bd4960a40a0e109f286df74b;hp=fd203292bd2f37130b8c2f6fa5ce9f5c366fda52;hpb=573ef10b2afd99d3c6a36370a9367609716c97d2;p=ghc-hetmet.git diff --git a/ghc/compiler/types/PprType.lhs b/ghc/compiler/types/PprType.lhs index fd20329..637ea1f 100644 --- a/ghc/compiler/types/PprType.lhs +++ b/ghc/compiler/types/PprType.lhs @@ -1,250 +1,101 @@ % -% (c) The AQUA Project, Glasgow University, 1996 +% (c) The AQUA Project, Glasgow University, 1996-1998 % -\section[PprType]{Printing Types, TyVars, Classes, ClassOps, TyCons} +\section[PprType]{Printing Types, TyVars, Classes, TyCons} \begin{code} -#include "HsVersions.h" - module PprType( - GenTyVar, pprGenTyVar, - TyCon, pprTyCon, showTyCon, - GenType, - pprGenType, pprParendGenType, + pprKind, pprParendKind, pprType, pprParendType, - pprMaybeTy, - getTypeString, - typeMaybeString, - specMaybeTysSuffix, - getTyDescription, - GenClass, - GenClassOp, pprGenClassOp, - - addTyVar{-ToDo:don't export-}, nmbrTyVar, - addUVar, nmbrUsage, - nmbrType, nmbrTyCon, nmbrClass + pprConstraint, pprPred, pprTheta, + pprTyVarBndr, pprTyVarBndrs, + + -- Junk + getTyDescription, showTypeCategory ) where -IMP_Ubiq() -IMPORT_DELOOPER(IdLoop) ---IMPORT_DELOOPER(TyLoop) -- for paranoia checking +#include "HsVersions.h" -- friends: -- (PprType can see all the representations it's trying to print) -import Type ( GenType(..), maybeAppTyCon, - splitForAllTy, splitSigmaTy, splitRhoTy, splitAppTy ) -import TyVar ( GenTyVar(..) ) -import TyCon ( TyCon(..), NewOrData ) -import Class ( SYN_IE(Class), GenClass(..), - SYN_IE(ClassOp), GenClassOp(..) ) -import Kind ( Kind(..) ) -import Usage ( pprUVar, GenUsage(..), SYN_IE(Usage), SYN_IE(UVar) ) +import TypeRep ( Type(..), TyNote(..), Kind, UsageAnn(..), + boxedTypeKind, + ) -- friend +import Type ( PredType(..), ThetaType, + splitPredTy_maybe, + splitForAllTys, splitSigmaTy, splitRhoTy, + isDictTy, splitTyConApp_maybe, splitFunTy_maybe, + splitUsForAllTys, predRepTy + ) +import Var ( TyVar, tyVarKind ) +import TyCon ( TyCon, isPrimTyCon, isTupleTyCon, isUnboxedTupleTyCon, + maybeTyConSingleCon, isEnumerationTyCon, + tyConArity + ) +import Class ( Class ) -- others: -import CStrings ( identToC ) -import CmdLineOpts ( opt_OmitInterfacePragmas ) import Maybes ( maybeToBool ) -import Name ( isLexVarSym, isLexSpecialSym, origName, moduleOf, - getLocalName, Name{-instance Outputable-} - ) -import Outputable ( ifPprShowAll, interpp'SP ) +import Name ( getOccString, getOccName ) +import Outputable import PprEnv -import PprStyle ( PprStyle(..), codeStyle, showUserishTypes ) -import Pretty -import TysWiredIn ( listTyCon ) -import UniqFM ( addToUFM_Directly, lookupUFM_Directly, ufmToList{-ToDo:rm-} ) -import Unique ( pprUnique10, pprUnique, incrUnique, listTyConKey ) -import Util -\end{code} - -\begin{code} -instance (Eq tyvar, Outputable tyvar, - Eq uvar, Outputable uvar ) => Outputable (GenType tyvar uvar) where - ppr sty ty = pprGenType sty ty - -instance Outputable TyCon where - ppr sty tycon = pprTyCon sty tycon - -instance Outputable (GenClass tyvar uvar) where - -- we use pprIfaceClass for printing in interfaces - ppr sty (Class u n _ _ _ _ _ _ _ _) = ppr sty n - -instance Outputable ty => Outputable (GenClassOp ty) where - ppr sty clsop = pprGenClassOp sty clsop - -instance Outputable (GenTyVar flexi) where - ppr sty tv = pprGenTyVar sty tv - --- and two SPECIALIZEd ones: -instance Outputable {-Type, i.e.:-}(GenType TyVar UVar) where - ppr sty ty = pprGenType sty ty - -instance Outputable {-TyVar, i.e.:-}(GenTyVar Usage) where - ppr sty ty = pprGenTyVar sty ty +import Unique ( Uniquable(..) ) +import PrelNames -- quite a few *Keys \end{code} %************************************************************************ %* * -\subsection[Type]{@Type@} +\subsection{The external interface} %* * %************************************************************************ -@pprGenType@ is the std @Type@ printer; the overloaded @ppr@ function is -defined to use this. @pprParendGenType@ is the same, except it puts -parens around the type, except for the atomic cases. @pprParendGenType@ +@pprType@ is the standard @Type@ printer; the overloaded @ppr@ function is +defined to use this. @pprParendType@ is the same, except it puts +parens around the type, except for the atomic cases. @pprParendType@ works just by setting the initial context precedence very high. \begin{code} -pprGenType, pprParendGenType :: (Eq tyvar, Outputable tyvar, Eq uvar, Outputable uvar) - => PprStyle -> GenType tyvar uvar -> Pretty - -pprGenType sty ty = ppr_ty sty (init_ppr_env sty) tOP_PREC ty -pprParendGenType sty ty = ppr_ty sty (init_ppr_env sty) tYCON_PREC ty - -pprType sty ty = ppr_ty sty (init_ppr_env sty) tOP_PREC (ty :: Type) -pprParendType sty ty = ppr_ty sty (init_ppr_env sty) tYCON_PREC (ty :: Type) - -pprMaybeTy :: (Eq tyvar, Outputable tyvar, Eq uvar, Outputable uvar) - => PprStyle -> Maybe (GenType tyvar uvar) -> Pretty -pprMaybeTy sty Nothing = ppChar '*' -pprMaybeTy sty (Just ty) = pprParendGenType sty ty -\end{code} - -\begin{code} -ppr_ty :: (Eq tyvar, Outputable tyvar, Eq uvar, Outputable uvar) - => PprStyle -> PprEnv tyvar uvar bndr occ -> Int - -> GenType tyvar uvar - -> Pretty - -ppr_ty sty env ctxt_prec (TyVarTy tyvar) - = ppr_tyvar env tyvar - -ppr_ty sty env ctxt_prec (TyConTy tycon usage) - = ppr sty tycon - -ppr_ty sty env ctxt_prec ty@(ForAllTy _ _) - | showUserishTypes sty = ppr_ty sty env' ctxt_prec body_ty - - | otherwise = ppSep [ ppPStr SLIT("_forall_"), - ppIntersperse pp'SP pp_tyvars, - ppPStr SLIT("=>"), - ppr_ty sty env' ctxt_prec body_ty - ] - where - (tyvars, body_ty) = splitForAllTy ty - env' = foldl add_tyvar env tyvars - pp_tyvars = map (ppr_tyvar env') tyvars - -ppr_ty sty env ctxt_prec (ForAllUsageTy uv uvs ty) - = panic "ppr_ty:ForAllUsageTy" - -ppr_ty sty env ctxt_prec ty@(FunTy (DictTy _ _ _) _ _) - | showUserishTypes sty - -- Print a nice looking context (Eq a, Text b) => ... - = ppSep [ppBeside (ppr_theta theta) (ppPStr SLIT(" =>")), - ppr_ty sty env ctxt_prec body_ty - ] - where - (theta, body_ty) = splitRhoTy ty - - ppr_theta = case sty of { PprInterface -> ppr_theta_2 ; _ -> ppr_theta_1 } - - ppr_theta_1 [ct] = ppr_dict sty env tOP_PREC ct - ppr_theta_1 cts = ppParens (ppInterleave ppComma (map (ppr_dict sty env tOP_PREC) cts)) - - ppr_theta_2 cts = ppBesides [ppStr "{{", ppInterleave ppComma (map (ppr_dict sty env tOP_PREC) cts), ppStr "}}"] - -ppr_ty sty env ctxt_prec (FunTy ty1 ty2 usage) - -- We fiddle the precedences passed to left/right branches, - -- so that right associativity comes out nicely... - = maybeParen ctxt_prec fUN_PREC - (ppCat [ppr_ty sty env fUN_PREC ty1, - ppPStr SLIT("->"), - ppr_ty sty env tOP_PREC ty2]) - -ppr_ty sty env ctxt_prec ty@(AppTy _ _) - = ppr_corner sty env ctxt_prec fun_ty arg_tys - where - (fun_ty, arg_tys) = splitAppTy ty +pprType, pprParendType :: Type -> SDoc +pprType ty = ppr_ty pprTyEnv tOP_PREC ty +pprParendType ty = ppr_ty pprTyEnv tYCON_PREC ty -ppr_ty sty env ctxt_prec (SynTy tycon tys expansion) - | codeStyle sty - -- always expand types that squeak into C-variable names - = ppr_ty sty env ctxt_prec expansion +pprKind, pprParendKind :: Kind -> SDoc +pprKind = pprType +pprParendKind = pprParendType - | otherwise - = ppBeside - (ppr_app sty env ctxt_prec (ppr sty tycon) tys) - (ifPprShowAll sty (ppCat [ppStr " {- expansion:", - ppr_ty sty env tOP_PREC expansion, - ppStr "-}"])) - -ppr_ty sty env ctxt_prec (DictTy clas ty usage) - = ppr_dict sty env ctxt_prec (clas, ty) - --- Some help functions -ppr_corner sty env ctxt_prec (TyConTy FunTyCon usage) arg_tys - | length arg_tys == 2 - = ppr_ty sty env ctxt_prec (FunTy ty1 ty2 usage) - where - (ty1:ty2:_) = arg_tys +pprPred :: PredType -> SDoc +pprPred (Class clas tys) = pprConstraint clas tys +pprPred (IParam n ty) = hsep [ptext SLIT("?") <> ppr n, + ptext SLIT("::"), ppr ty] -ppr_corner sty env ctxt_prec (TyConTy (TupleTyCon _ _ a) usage) arg_tys - | not (codeStyle sty) -- no magic in that case - = --ASSERT(length arg_tys == a) - (if (length arg_tys /= a) then pprTrace "ppr_corner:" (ppCat [ppInt a, ppInterleave ppComma (map (pprGenType PprDebug) arg_tys)]) else id) $ - ppBesides [ppLparen, arg_tys_w_commas, ppRparen] - where - arg_tys_w_commas = ppIntersperse pp'SP (map (ppr_ty sty env tOP_PREC) arg_tys) +pprConstraint :: Class -> [Type] -> SDoc +pprConstraint clas tys = ppr clas <+> hsep (map pprParendType tys) -ppr_corner sty env ctxt_prec (TyConTy tycon usage) arg_tys - | not (codeStyle sty) && tycon == listTyCon - = ASSERT(length arg_tys == 1) - ppBesides [ppLbrack, ppr_ty sty env tOP_PREC ty1, ppRbrack] - where - (ty1:_) = arg_tys +pprTheta :: ThetaType -> SDoc +pprTheta theta = parens (hsep (punctuate comma (map pprPred theta))) -ppr_corner sty env ctxt_prec (TyConTy tycon usage) arg_tys - = ppr_app sty env ctxt_prec (ppr sty tycon) arg_tys - -ppr_corner sty env ctxt_prec (TyVarTy tyvar) arg_tys - = ppr_app sty env ctxt_prec (ppr_tyvar env tyvar) arg_tys - +instance Outputable Type where + ppr ty = pprType ty -ppr_app sty env ctxt_prec pp_fun [] - = pp_fun -ppr_app sty env ctxt_prec pp_fun arg_tys - = maybeParen ctxt_prec tYCON_PREC (ppCat [pp_fun, arg_tys_w_spaces]) - where - arg_tys_w_spaces = ppIntersperse ppSP (map (ppr_ty sty env tYCON_PREC) arg_tys) - - -ppr_dict sty env ctxt_prec (clas, ty) - = maybeParen ctxt_prec tYCON_PREC - (ppCat [ppr sty clas, ppr_ty sty env tYCON_PREC ty]) +instance Outputable PredType where + ppr = pprPred \end{code} -This stuff is effectively stubbed out for the time being -(WDP 960425): -\begin{code} -init_ppr_env sty - = initPprEnv sty b b b b b b b b b b b - where - b = panic "PprType:init_ppr_env" - -ppr_tyvar env tyvar = ppr (pStyle env) tyvar -ppr_uvar env uvar = ppr (pStyle env) uvar -add_tyvar env tyvar = env -add_uvar env uvar = env -\end{code} +%************************************************************************ +%* * +\subsection{Pretty printing} +%* * +%************************************************************************ +Precedence +~~~~~~~~~~ @ppr_ty@ takes an @Int@ that is the precedence of the context. The precedence levels are: \begin{description} -\item[0:] What we start with. -\item[1:] Function application (@FunTys@). -\item[2:] Type constructors. +\item[tOP_PREC] No parens required. +\item[fUN_PREC] Left hand argument of a function arrow. +\item[tYCON_PREC] Argument of a type constructor. \end{description} @@ -255,120 +106,155 @@ tYCON_PREC = (2 :: Int) maybeParen ctxt_prec inner_prec pretty | ctxt_prec < inner_prec = pretty - | otherwise = ppParens pretty + | otherwise = parens pretty \end{code} -%************************************************************************ -%* * -\subsection[TyVar]{@TyVar@} -%* * -%************************************************************************ - \begin{code} -pprGenTyVar sty (TyVar uniq kind name usage) - | codeStyle sty - = pp_u +ppr_ty :: PprEnv TyVar -> Int -> Type -> SDoc +ppr_ty env ctxt_prec (TyVarTy tyvar) + = pTyVarO env tyvar + +ppr_ty env ctxt_prec ty@(TyConApp tycon tys) + -- KIND CASE; it's of the form (Type x) + | tycon `hasKey` typeConKey && n_tys == 1 + = -- For kinds, print (Type x) as just x if x is a + -- type constructor (must be Boxed, Unboxed, AnyBox) + -- Otherwise print as (Type x) + case ty1 of + TyConApp bx [] -> ppr (getOccName bx) -- Always unqualified + other -> maybeParen ctxt_prec tYCON_PREC + (sep [ppr tycon, nest 4 tys_w_spaces]) + + -- TUPLE CASE (boxed and unboxed) + | isTupleTyCon tycon + && length tys == tyConArity tycon -- no magic if partially applied + = parens tys_w_commas + + | isUnboxedTupleTyCon tycon + && length tys == tyConArity tycon -- no magic if partially applied + = parens (char '#' <+> tys_w_commas <+> char '#') + + -- LIST CASE + | tycon `hasKey` listTyConKey && n_tys == 1 + = brackets (ppr_ty env tOP_PREC ty1) + + -- DICTIONARY CASE, prints {C a} + -- This means that instance decls come out looking right in interfaces + -- and that in turn means they get "gated" correctly when being slurped in + | maybeToBool maybe_pred + = braces (ppr_pred env pred) + + -- NO-ARGUMENT CASE (=> no parens) + | null tys + = ppr tycon + + -- GENERAL CASE | otherwise - = case sty of - PprInterface -> pp_u - _ -> ppBesides [pp_name, ppStr "{-", pp_u, ppStr "-}"] + = maybeParen ctxt_prec tYCON_PREC (sep [ppr tycon, nest 4 tys_w_spaces]) + where - pp_u = pprUnique uniq - pp_name = case name of - Just n -> ppPStr (getLocalName n) - Nothing -> case kind of - TypeKind -> ppChar 'o' - BoxedTypeKind -> ppChar 't' - UnboxedTypeKind -> ppChar 'u' - ArrowKind _ _ -> ppChar 'a' -\end{code} + n_tys = length tys + (ty1:_) = tys + Just pred = maybe_pred + maybe_pred = splitPredTy_maybe ty -- Checks class and arity + tys_w_commas = sep (punctuate comma (map (ppr_ty env tOP_PREC) tys)) + tys_w_spaces = sep (map (ppr_ty env tYCON_PREC) tys) + -%************************************************************************ -%* * -\subsection[TyCon]{@TyCon@} -%* * -%************************************************************************ -ToDo; all this is suspiciously like getOccName! +ppr_ty env ctxt_prec ty@(ForAllTy _ _) + = getPprStyle $ \ sty -> + maybeParen ctxt_prec fUN_PREC $ + sep [ ptext SLIT("forall") <+> pp_tyvars <> ptext SLIT("."), + ppr_theta theta, + ppr_ty env tOP_PREC tau + ] + where + (tyvars, rho) = splitForAllTys ty -- don't treat theta specially any more (KSW 1999-04) + (theta, tau) = splitRhoTy rho + + pp_tyvars = hsep (map (pBndr env LambdaBind) tyvars) + + ppr_theta [] = empty + ppr_theta theta = parens (hsep (punctuate comma (map (ppr_pred env) theta))) + <+> ptext SLIT("=>") + + +ppr_ty env ctxt_prec (FunTy ty1 ty2) + = maybeParen ctxt_prec fUN_PREC (sep (ppr_ty env fUN_PREC ty1 : pp_rest ty2)) + -- we don't want to lose usage annotations or synonyms, + -- so we mustn't use splitFunTys here. + where + pp_rest (FunTy ty1 ty2) = pp_codom ty1 : pp_rest ty2 + pp_rest ty = [pp_codom ty] + pp_codom ty = ptext SLIT("->") <+> ppr_ty env fUN_PREC ty -\begin{code} -showTyCon :: PprStyle -> TyCon -> String -showTyCon sty tycon = ppShow 80 (pprTyCon sty tycon) +ppr_ty env ctxt_prec (AppTy ty1 ty2) + = maybeParen ctxt_prec tYCON_PREC $ + ppr_ty env tOP_PREC ty1 <+> ppr_ty env tYCON_PREC ty2 -maybe_code sty x - = if codeStyle sty - then ppBesides (ppPStr SLIT("Prelude_") : map mangle x) - else ppStr x +ppr_ty env ctxt_prec (NoteTy (SynNote ty) expansion) + = ppr_ty env ctxt_prec ty +-- = ppr_ty env ctxt_prec expansion -- if we don't want to see syntys + +ppr_ty env ctxt_prec (NoteTy (FTVNote _) ty) = ppr_ty env ctxt_prec ty + +ppr_ty env ctxt_prec ty@(NoteTy (UsgForAll _) _) + = maybeParen ctxt_prec fUN_PREC $ + sep [ ptext SLIT("__fuall") <+> brackets pp_uvars <+> ptext SLIT("=>"), + ppr_ty env tOP_PREC sigma + ] where - -- ToDo: really should be in CStrings - mangle '(' = ppPStr SLIT("Z40") -- decimal ascii #s - mangle ')' = ppPStr SLIT("Z41") - mangle '[' = ppPStr SLIT("Z91") - mangle ']' = ppPStr SLIT("Z93") - mangle ',' = ppPStr SLIT("Z44") - mangle '-' = ppPStr SLIT("Zm") - mangle '>' = ppPStr SLIT("Zg") - -pprTyCon :: PprStyle -> TyCon -> Pretty - -pprTyCon sty (PrimTyCon _ name _ _) = ppr sty name - -pprTyCon sty FunTyCon = maybe_code sty "->" -pprTyCon sty (TupleTyCon _ _ arity) = case arity of - 0 -> maybe_code sty "()" - 2 -> maybe_code sty "(,)" - 3 -> maybe_code sty "(,,)" - 4 -> maybe_code sty "(,,,)" - 5 -> maybe_code sty "(,,,,)" - n -> maybe_code sty ( "(" ++ nOfThem (n-1) ',' ++ ")" ) - -pprTyCon sty tycon@(DataTyCon uniq name kind tyvars ctxt cons derivings nd) - | uniq == listTyConKey - = maybe_code sty "[]" - | otherwise - = ppr sty name + (uvars,sigma) = splitUsForAllTys ty + pp_uvars = hsep (map ppr uvars) + +ppr_ty env ctxt_prec (NoteTy (UsgNote u) ty) + = maybeParen ctxt_prec tYCON_PREC $ + ptext SLIT("__u") <+> ppr u <+> ppr_ty env tYCON_PREC ty + +ppr_ty env ctxt_prec (PredTy p) = braces (ppr_pred env p) + +ppr_pred env (Class clas tys) = ppr clas <+> + hsep (map (ppr_ty env tYCON_PREC) tys) +ppr_pred env (IParam n ty) = hsep [char '?' <> ppr n, text "::", + ppr_ty env tYCON_PREC ty] +\end{code} -pprTyCon sty (SpecTyCon tc ty_maybes) - = ppBeside (pprTyCon sty tc) - ((if (codeStyle sty) then identToC else ppPStr) tys_stuff) +\begin{code} +pprTyEnv = initPprEnv b (Just ppr) b (Just (\site -> pprTyVarBndr)) b where - tys_stuff = specMaybeTysSuffix ty_maybes - -pprTyCon sty (SynTyCon uniq name kind arity tyvars expansion) - = ppBeside (ppr sty name) - (ifPprShowAll sty - (ppCat [ ppStr " {-", - ppInt arity, - interpp'SP sty tyvars, - pprParendGenType sty expansion, - ppStr "-}"])) + b = panic "PprType:init_ppr_env" +\end{code} + +\begin{code} +instance Outputable UsageAnn where + ppr UsOnce = ptext SLIT("-") + ppr UsMany = ptext SLIT("!") + ppr (UsVar uv) = ppr uv \end{code} %************************************************************************ %* * -\subsection[Class]{@Class@} +\subsection[TyVar]{@TyVar@} %* * %************************************************************************ -\begin{code} -pprGenClassOp :: Outputable ty => PprStyle -> GenClassOp ty -> Pretty - -pprGenClassOp sty op = ppr_class_op sty [] op +We print type-variable binders with their kinds in interface files, +and when in debug mode. -ppr_class_op sty tyvars (ClassOp op_name i ty) - = case sty of - PprForC -> pp_C - PprForAsm _ _ -> pp_C - PprInterface -> pp_sigd - PprShowAll -> pp_sigd - _ -> pp_user +\begin{code} +pprTyVarBndr tyvar + = getPprStyle $ \ sty -> + if (ifaceStyle sty && kind /= boxedTypeKind) || debugStyle sty then + hsep [ppr tyvar, dcolon, pprParendKind kind] + -- See comments with ppDcolon in PprCore.lhs + else + ppr tyvar where - pp_C = ppPStr op_name - pp_user = if isLexVarSym op_name && not (isLexSpecialSym op_name) - then ppParens pp_C - else pp_C - pp_sigd = ppCat [pp_user, ppPStr SLIT("::"), ppr sty ty] + kind = tyVarKind tyvar + +pprTyVarBndrs tyvars = hsep (map pprTyVarBndr tyvars) \end{code} @@ -378,250 +264,78 @@ ppr_class_op sty tyvars (ClassOp op_name i ty) %* * %************************************************************************ -\begin{code} - -- Shallowly magical; converts a type into something - -- vaguely close to what can be used in C identifier. - -- Produces things like what we have in mkCompoundName, - -- which can be "dot"ted together... - -getTypeString :: Type -> [Either OrigName FAST_STRING] - -getTypeString ty - = case (splitAppTy ty) of { (tc, args) -> - do_tc tc : map do_arg_ty args } - where - do_tc (TyConTy tc _) = Left (origName "do_tc" tc) - do_tc (SynTy _ _ ty) = do_tc ty - do_tc other = --pprTrace "getTypeString:do_tc:" (pprType PprDebug other) $ - Right (_PK_ (ppShow 1000 (pprType PprForC other))) - - do_arg_ty (TyConTy tc _) = Left (origName "do_arg_ty" tc) - do_arg_ty (TyVarTy tv) = Right (_PK_ (ppShow 80 (ppr PprForC tv))) - do_arg_ty (SynTy _ _ ty) = do_arg_ty ty - do_arg_ty other = --pprTrace "getTypeString:do_arg_ty:" (pprType PprDebug other) $ - Right (_PK_ (ppShow 1000 (pprType PprForC other))) - - -- PprForC expands type synonyms as it goes; - -- it also forces consistent naming of tycons - -- (e.g., can't have both "(,) a b" and "(a,b)": - -- must be consistent! - - -------------------------------------------------- - -- tidy: very ad-hoc - tidy [] = [] -- done - - tidy (' ' : more) - = case more of - ' ' : _ -> tidy more - '-' : '>' : xs -> '-' : '>' : tidy (no_leading_sps xs) - other -> ' ' : tidy more - - tidy (',' : more) = ',' : tidy (no_leading_sps more) - - tidy (x : xs) = x : tidy xs -- catch all - - no_leading_sps [] = [] - no_leading_sps (' ':xs) = no_leading_sps xs - no_leading_sps other = other - -typeMaybeString :: Maybe Type -> [Either OrigName FAST_STRING] -typeMaybeString Nothing = [Right SLIT("!")] -typeMaybeString (Just t) = getTypeString t - -specMaybeTysSuffix :: [Maybe Type] -> FAST_STRING -specMaybeTysSuffix ty_maybes - = panic "PprType.specMaybeTysSuffix" -{- LATER: - = let - ty_strs = concat (map typeMaybeString ty_maybes) - dotted_tys = [ _CONS_ '.' str | str <- ty_strs ] - in - _CONCAT_ dotted_tys --} -\end{code} - Grab a name for the type. This is used to determine the type description for profiling. + \begin{code} getTyDescription :: Type -> String getTyDescription ty = case (splitSigmaTy ty) of { (_, _, tau_ty) -> case tau_ty of - TyVarTy _ -> "*" - AppTy fun _ -> getTyDescription fun - FunTy _ res _ -> '-' : '>' : fun_result res - TyConTy tycon _ -> _UNPK_ (getLocalName tycon) - SynTy tycon _ _ -> _UNPK_ (getLocalName tycon) - DictTy _ _ _ -> "dict" - _ -> pprPanic "getTyDescription: other" (pprType PprDebug tau_ty) + TyVarTy _ -> "*" + AppTy fun _ -> getTyDescription fun + FunTy _ res -> '-' : '>' : fun_result res + TyConApp tycon _ -> getOccString tycon + NoteTy (FTVNote _) ty -> getTyDescription ty + NoteTy (SynNote ty1) _ -> getTyDescription ty1 + NoteTy (UsgNote _) ty -> getTyDescription ty + PredTy p -> getTyDescription (predRepTy p) + ForAllTy _ ty -> getTyDescription ty } where - fun_result (FunTy _ res _) = '>' : fun_result res - fun_result other = getTyDescription other -\end{code} - -ToDo: possibly move: -\begin{code} -nmbrType :: Type -> NmbrM Type - -nmbrType (TyVarTy tv) - = nmbrTyVar tv `thenNmbr` \ new_tv -> - returnNmbr (TyVarTy new_tv) - -nmbrType (AppTy t1 t2) - = nmbrType t1 `thenNmbr` \ new_t1 -> - nmbrType t2 `thenNmbr` \ new_t2 -> - returnNmbr (AppTy new_t1 new_t2) - -nmbrType (TyConTy tc use) - = --nmbrTyCon tc `thenNmbr` \ new_tc -> - nmbrUsage use `thenNmbr` \ new_use -> - returnNmbr (TyConTy tc new_use) - -nmbrType (SynTy tc args expand) - = --nmbrTyCon tc `thenNmbr` \ new_tc -> - mapNmbr nmbrType args `thenNmbr` \ new_args -> - nmbrType expand `thenNmbr` \ new_expand -> - returnNmbr (SynTy tc new_args new_expand) - -nmbrType (ForAllTy tv ty) - = addTyVar tv `thenNmbr` \ new_tv -> - nmbrType ty `thenNmbr` \ new_ty -> - returnNmbr (ForAllTy new_tv new_ty) - -nmbrType (ForAllUsageTy u us ty) - = addUVar u `thenNmbr` \ new_u -> - mapNmbr nmbrUVar us `thenNmbr` \ new_us -> - nmbrType ty `thenNmbr` \ new_ty -> - returnNmbr (ForAllUsageTy new_u new_us new_ty) - -nmbrType (FunTy t1 t2 use) - = nmbrType t1 `thenNmbr` \ new_t1 -> - nmbrType t2 `thenNmbr` \ new_t2 -> - nmbrUsage use `thenNmbr` \ new_use -> - returnNmbr (FunTy new_t1 new_t2 new_use) - -nmbrType (DictTy c ty use) - = --nmbrClass c `thenNmbr` \ new_c -> - nmbrType ty `thenNmbr` \ new_ty -> - nmbrUsage use `thenNmbr` \ new_use -> - returnNmbr (DictTy c new_ty new_use) + fun_result (FunTy _ res) = '>' : fun_result res + fun_result other = getTyDescription other \end{code} -\begin{code} -addTyVar, nmbrTyVar :: TyVar -> NmbrM TyVar - -addTyVar tv@(TyVar u k maybe_name use) nenv@(NmbrEnv ui ut uu idenv tvenv uvenv) - = --pprTrace "addTyVar:" (ppCat [pprUnique u, pprUnique ut]) $ - case (lookupUFM_Directly tvenv u) of - Just xx -> -- pprTrace "addTyVar: already in map!" (ppr PprDebug tv) $ - -- (It gets triggered when we do a datatype: first we - -- "addTyVar" the tyvars for the datatype as a whole; - -- we will subsequently "addId" the data cons, including - -- the type for each of them -- each of which includes - -- _forall_ ...tvs..., which we will addTyVar. - -- Harmless, if that's all that happens.... - (nenv, xx) - Nothing -> - let - nenv_plus_tv = NmbrEnv ui (incrUnique ut) uu - idenv - (addToUFM_Directly tvenv u new_tv) - uvenv - - (nenv2, new_use) = nmbrUsage use nenv_plus_tv - - new_tv = TyVar ut k maybe_name new_use - in - (nenv2, new_tv) - -nmbrTyVar tv@(TyVar u _ _ _) nenv@(NmbrEnv ui ut uu idenv tvenv uvenv) - = case (lookupUFM_Directly tvenv u) of - Just xx -> (nenv, xx) - Nothing -> - pprTrace "nmbrTyVar: lookup failed:" (ppCat (ppr PprDebug u : [ppCat [ppr PprDebug x, ppStr "=>", ppr PprDebug tv] | (x,tv) <- ufmToList tvenv])) $ - (nenv, tv) -\end{code} - -nmbrTyCon : only called from ``top-level'', if you know what I mean. -\begin{code} -nmbrTyCon tc@FunTyCon = returnNmbr tc -nmbrTyCon tc@(TupleTyCon _ _ _) = returnNmbr tc -nmbrTyCon tc@(PrimTyCon _ _ _ _) = returnNmbr tc - -nmbrTyCon (DataTyCon u n k tvs theta cons clss nod) - = --pprTrace "nmbrDataTyCon:" (ppCat (map (ppr PprDebug) tvs)) $ - mapNmbr addTyVar tvs `thenNmbr` \ new_tvs -> - mapNmbr nmbr_theta theta `thenNmbr` \ new_theta -> - mapNmbr nmbrId cons `thenNmbr` \ new_cons -> - returnNmbr (DataTyCon u n k new_tvs new_theta new_cons clss nod) - where - nmbr_theta (c,t) - = --nmbrClass c `thenNmbr` \ new_c -> - nmbrType t `thenNmbr` \ new_t -> - returnNmbr (c, new_t) - -nmbrTyCon (SynTyCon u n k a tvs expand) - = mapNmbr addTyVar tvs `thenNmbr` \ new_tvs -> - nmbrType expand `thenNmbr` \ new_expand -> - returnNmbr (SynTyCon u n k a new_tvs new_expand) - -nmbrTyCon (SpecTyCon tc specs) - = mapNmbr nmbrMaybeTy specs `thenNmbr` \ new_specs -> - returnNmbr (SpecTyCon tc new_specs) - ------------ -nmbrMaybeTy Nothing = returnNmbr Nothing -nmbrMaybeTy (Just t) = nmbrType t `thenNmbr` \ new_t -> - returnNmbr (Just new_t) -\end{code} - -\begin{code} -nmbrClass (Class u n tv supers ssels ops osels odefms instenv isupers) - = addTyVar tv `thenNmbr` \ new_tv -> - mapNmbr nmbr_op ops `thenNmbr` \ new_ops -> - returnNmbr (Class u n new_tv supers ssels new_ops osels odefms instenv isupers) - where - nmbr_op (ClassOp n tag ty) - = nmbrType ty `thenNmbr` \ new_ty -> - returnNmbr (ClassOp n tag new_ty) -\end{code} - -\begin{code} -nmbrUsage :: Usage -> NmbrM Usage - -nmbrUsage u = returnNmbr u -{- LATER: -nmbrUsage u@UsageOne = returnNmbr u -nmbrUsage u@UsageOmega = returnNmbr u -nmbrUsage (UsageVar u) - = nmbrUVar u `thenNmbr` \ new_u -> - returnNmbr (UsageVar new_u) --} -\end{code} \begin{code} -addUVar, nmbrUVar :: UVar -> NmbrM UVar - -addUVar u nenv@(NmbrEnv ui ut uu idenv tvenv uvenv) - = case (lookupUFM_Directly uvenv u) of - Just xx -> trace "addUVar: already in map!" $ - (nenv, xx) - Nothing -> - let - nenv_plus_uv = NmbrEnv ui ut (incrUnique uu) - idenv - tvenv - (addToUFM_Directly uvenv u new_uv) - new_uv = uu - in - (nenv_plus_uv, new_uv) - -nmbrUVar u nenv@(NmbrEnv ui ut uu idenv tvenv uvenv) - = case (lookupUFM_Directly uvenv u) of - Just xx -> (nenv, xx) - Nothing -> - trace "nmbrUVar: lookup failed" $ - (nenv, u) +showTypeCategory :: Type -> Char + {- + {C,I,F,D} char, int, float, double + T tuple + S other single-constructor type + {c,i,f,d} unboxed ditto + t *unpacked* tuple + s *unpacked" single-cons... + + v void# + a primitive array + + E enumeration type + + dictionary, unless it's a ... + L List + > function + M other (multi-constructor) data-con type + . other type + - reserved for others to mark as "uninteresting" + -} +showTypeCategory ty + = if isDictTy ty + then '+' + else + case splitTyConApp_maybe ty of + Nothing -> if maybeToBool (splitFunTy_maybe ty) + then '>' + else '.' + + Just (tycon, _) -> + let utc = getUnique tycon in + if utc == charDataConKey then 'C' + else if utc == intDataConKey then 'I' + else if utc == floatDataConKey then 'F' + else if utc == doubleDataConKey then 'D' + else if utc == smallIntegerDataConKey || + utc == largeIntegerDataConKey then 'J' + else if utc == charPrimTyConKey then 'c' + else if (utc == intPrimTyConKey || utc == wordPrimTyConKey + || utc == addrPrimTyConKey) then 'i' + else if utc == floatPrimTyConKey then 'f' + else if utc == doublePrimTyConKey then 'd' + else if isPrimTyCon tycon {- array, we hope -} then 'A' + else if isEnumerationTyCon tycon then 'E' + else if isTupleTyCon tycon then 'T' + else if maybeToBool (maybeTyConSingleCon tycon) then 'S' + else if utc == listTyConKey then 'L' + else 'M' -- oh, well... \end{code}