% % (c) The GRASP/AQUA Project, Glasgow University, 1993-1998 % \section[GHC_Stats]{Statistics for per-module compilations} \begin{code} module HscStats ( ppSourceStats ) where #include "HsVersions.h" import HsSyn import Outputable import Char ( isSpace ) import Util ( count ) \end{code} %************************************************************************ %* * \subsection{Statistics} %* * %************************************************************************ \begin{code} ppSourceStats short (HsModule name version exports imports decls _ src_loc) = (if short then hcat else vcat) (map pp_val [("ExportAll ", export_all), -- 1 if no export list ("ExportDecls ", export_ds), ("ExportModules ", export_ms), ("Imports ", import_no), (" ImpQual ", import_qual), (" ImpAs ", import_as), (" ImpAll ", import_all), (" ImpPartial ", import_partial), (" ImpHiding ", import_hiding), ("FixityDecls ", fixity_ds), ("DefaultDecls ", default_ds), ("TypeDecls ", type_ds), ("DataDecls ", data_ds), ("NewTypeDecls ", newt_ds), ("DataConstrs ", data_constrs), ("DataDerivings ", data_derivs), ("ClassDecls ", class_ds), ("ClassMethods ", class_method_ds), ("DefaultMethods ", default_method_ds), ("InstDecls ", inst_ds), ("InstMethods ", inst_method_ds), ("TypeSigs ", bind_tys), ("ValBinds ", val_bind_ds), ("FunBinds ", fn_bind_ds), ("InlineMeths ", method_inlines), ("InlineBinds ", bind_inlines), -- ("SpecialisedData ", data_specs), -- ("SpecialisedInsts ", inst_specs), ("SpecialisedMeths ", method_specs), ("SpecialisedBinds ", bind_specs) ]) where pp_val (str, 0) = empty pp_val (str, n) | not short = hcat [text str, int n] | otherwise = hcat [text (trim str), equals, int n, semi] trim ls = takeWhile (not.isSpace) (dropWhile isSpace ls) fixity_ds = count (\ x -> case x of { FixD{} -> True; _ -> False}) decls -- NB: this omits fixity decls on local bindings and -- in class decls. ToDo tycl_decls = [d | TyClD d <- decls] (class_ds, data_ds, newt_ds, type_ds, _) = countTyClDecls tycl_decls inst_decls = [d | InstD d <- decls] inst_ds = length inst_decls default_ds = count (\ x -> case x of { DefD{} -> True; _ -> False}) decls val_decls = [d | ValD d <- decls] real_exports = case exports of { Nothing -> []; Just es -> es } n_exports = length real_exports export_ms = count (\ e -> case e of { IEModuleContents{} -> True;_ -> False}) real_exports export_ds = n_exports - export_ms export_all = case exports of { Nothing -> 1; other -> 0 } (val_bind_ds, fn_bind_ds, bind_tys, bind_specs, bind_inlines) = count_binds (foldr ThenBinds EmptyBinds val_decls) (import_no, import_qual, import_as, import_all, import_partial, import_hiding) = foldr add6 (0,0,0,0,0,0) (map import_info imports) (data_constrs, data_derivs) = foldr add2 (0,0) (map data_info tycl_decls) (class_method_ds, default_method_ds) = foldr add2 (0,0) (map class_info tycl_decls) (inst_method_ds, method_specs, method_inlines) = foldr add3 (0,0,0) (map inst_info inst_decls) count_binds EmptyBinds = (0,0,0,0,0) count_binds (ThenBinds b1 b2) = count_binds b1 `add5` count_binds b2 count_binds (MonoBind b sigs _) = case (count_monobinds b, count_sigs sigs) of ((vs,fs),(ts,_,ss,is)) -> (vs,fs,ts,ss,is) count_monobinds EmptyMonoBinds = (0,0) count_monobinds (AndMonoBinds b1 b2) = count_monobinds b1 `add2` count_monobinds b2 count_monobinds (PatMonoBind (VarPatIn n) r _) = (1,0) count_monobinds (PatMonoBind p r _) = (0,1) count_monobinds (FunMonoBind f _ m _) = (0,1) count_mb_monobinds (Just mbs) = count_monobinds mbs count_mb_monobinds Nothing = (0,0) count_sigs sigs = foldr add4 (0,0,0,0) (map sig_info sigs) sig_info (Sig _ _ _) = (1,0,0,0) sig_info (ClassOpSig _ _ _ _) = (0,1,0,0) sig_info (SpecSig _ _ _) = (0,0,1,0) sig_info (InlineSig _ _ _ _) = (0,0,0,1) sig_info _ = (0,0,0,0) import_info (ImportDecl _ _ qual as spec _) = add6 (1, qual_info qual, as_info as, 0,0,0) (spec_info spec) qual_info False = 0 qual_info True = 1 as_info Nothing = 0 as_info (Just _) = 1 spec_info Nothing = (0,0,0,1,0,0) spec_info (Just (False, _)) = (0,0,0,0,1,0) spec_info (Just (True, _)) = (0,0,0,0,0,1) data_info (TyData {tcdNCons = nconstrs, tcdDerivs = derivs}) = (nconstrs, case derivs of {Nothing -> 0; Just ds -> length ds}) data_info other = (0,0) class_info decl@(ClassDecl {}) = case count_sigs (tcdSigs decl) of (_,classops,_,_) -> (classops, addpr (count_mb_monobinds (tcdMeths decl))) class_info other = (0,0) inst_info (InstDecl _ inst_meths inst_sigs _ _) = case count_sigs inst_sigs of (_,_,ss,is) -> (addpr (count_monobinds inst_meths), ss, is) addpr :: (Int,Int) -> Int add1 :: Int -> Int -> Int add2 :: (Int,Int) -> (Int,Int) -> (Int, Int) add3 :: (Int,Int,Int) -> (Int,Int,Int) -> (Int, Int, Int) add4 :: (Int,Int,Int,Int) -> (Int,Int,Int,Int) -> (Int, Int, Int, Int) add5 :: (Int,Int,Int,Int,Int) -> (Int,Int,Int,Int,Int) -> (Int, Int, Int, Int, Int) add6 :: (Int,Int,Int,Int,Int,Int) -> (Int,Int,Int,Int,Int,Int) -> (Int, Int, Int, Int, Int, Int) addpr (x,y) = x+y add1 x1 y1 = x1+y1 add2 (x1,x2) (y1,y2) = (x1+y1,x2+y2) add3 (x1,x2,x3) (y1,y2,y3) = (x1+y1,x2+y2,x3+y3) add4 (x1,x2,x3,x4) (y1,y2,y3,y4) = (x1+y1,x2+y2,x3+y3,x4+y4) add5 (x1,x2,x3,x4,x5) (y1,y2,y3,y4,y5) = (x1+y1,x2+y2,x3+y3,x4+y4,x5+y5) add6 (x1,x2,x3,x4,x5,x6) (y1,y2,y3,y4,y5,y6) = (x1+y1,x2+y2,x3+y3,x4+y4,x5+y5,x6+y6) \end{code}