module HscStats ( ppSourceStats ) where
import GhcPrelude
import Bag
import GHC.Hs
import Outputable
import SrcLoc
import Util
import Data.Char
ppSourceStats :: Bool -> Located (HsModule GhcPs) -> SDoc
ppSourceStats short (dL->L _ (HsModule _ exports imports ldecls _ _))
= (if short then hcat else vcat)
(map pp_val
[("ExportAll ", export_all),
("ExportDecls ", export_ds),
("ExportModules ", export_ms),
("Imports ", imp_no),
(" ImpSafe ", imp_safe),
(" ImpQual ", imp_qual),
(" ImpAs ", imp_as),
(" ImpAll ", imp_all),
(" ImpPartial ", imp_partial),
(" ImpHiding ", imp_hiding),
("FixityDecls ", fixity_sigs),
("DefaultDecls ", default_ds),
("TypeDecls ", type_ds),
("DataDecls ", data_ds),
("NewTypeDecls ", newt_ds),
("TypeFamilyDecls ", type_fam_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),
("InstType ", inst_type_ds),
("InstData ", inst_data_ds),
("TypeSigs ", bind_tys),
("ClassOpSigs ", generic_sigs),
("ValBinds ", val_bind_ds),
("FunBinds ", fn_bind_ds),
("PatSynBinds ", patsyn_ds),
("InlineMeths ", method_inlines),
("InlineBinds ", bind_inlines),
("SpecialisedMeths ", method_specs),
("SpecialisedBinds ", bind_specs)
])
where
decls = map unLoc ldecls
pp_val (_, 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_sigs, bind_tys, bind_specs, bind_inlines, generic_sigs)
= count_sigs [d | SigD _ d <- decls]
tycl_decls = [d | TyClD _ d <- decls]
(class_ds, type_ds, data_ds, newt_ds, type_fam_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 (dL->L _ es) -> es }
n_exports = length real_exports
export_ms = count (\ e -> case unLoc e of { IEModuleContents{} -> True
; _ -> False})
real_exports
export_ds = n_exports export_ms
export_all = case exports of { Nothing -> 1; _ -> 0 }
(val_bind_ds, fn_bind_ds, patsyn_ds)
= sum3 (map count_bind val_decls)
(imp_no, imp_safe, imp_qual, imp_as, imp_all, imp_partial, imp_hiding)
= sum7 (map import_info imports)
(data_constrs, data_derivs)
= sum2 (map data_info tycl_decls)
(class_method_ds, default_method_ds)
= sum2 (map class_info tycl_decls)
(inst_method_ds, method_specs, method_inlines, inst_type_ds, inst_data_ds)
= sum5 (map inst_info inst_decls)
count_bind (PatBind { pat_lhs = (dL->L _ (VarPat{})) }) = (1,0,0)
count_bind (PatBind {}) = (0,1,0)
count_bind (FunBind {}) = (0,1,0)
count_bind (PatSynBind {}) = (0,0,1)
count_bind b = pprPanic "count_bind: Unhandled binder" (ppr b)
count_sigs sigs = sum5 (map sig_info sigs)
sig_info (FixSig {}) = (1,0,0,0,0)
sig_info (TypeSig {}) = (0,1,0,0,0)
sig_info (SpecSig {}) = (0,0,1,0,0)
sig_info (InlineSig {}) = (0,0,0,1,0)
sig_info (ClassOpSig {}) = (0,0,0,0,1)
sig_info _ = (0,0,0,0,0)
import_info (dL->L _ (ImportDecl { ideclSafe = safe, ideclQualified = qual
, ideclAs = as, ideclHiding = spec }))
= add7 (1, safe_info safe, qual_info qual, as_info as, 0,0,0) (spec_info spec)
import_info (dL->L _ (XImportDecl nec)) = noExtCon nec
import_info _ = panic " import_info: Impossible Match"
safe_info False = 0
safe_info True = 1
qual_info NotQualified = 0
qual_info _ = 1
as_info Nothing = 0
as_info (Just _) = 1
spec_info Nothing = (0,0,0,0,1,0,0)
spec_info (Just (False, _)) = (0,0,0,0,0,1,0)
spec_info (Just (True, _)) = (0,0,0,0,0,0,1)
data_info (DataDecl { tcdDataDefn = HsDataDefn
{ dd_cons = cs
, dd_derivs = (dL->L _ derivs)}})
= ( length cs
, foldl' (\s dc -> length (deriv_clause_tys $ unLoc dc) + s)
0 derivs )
data_info _ = (0,0)
class_info decl@(ClassDecl {})
= (classops, addpr (sum3 (map count_bind methods)))
where
methods = map unLoc $ bagToList (tcdMeths decl)
(_, classops, _, _, _) = count_sigs (map unLoc (tcdSigs decl))
class_info _ = (0,0)
inst_info (TyFamInstD {}) = (0,0,0,1,0)
inst_info (DataFamInstD {}) = (0,0,0,0,1)
inst_info (ClsInstD { cid_inst = ClsInstDecl {cid_binds = inst_meths
, cid_sigs = inst_sigs
, cid_tyfam_insts = ats
, cid_datafam_insts = adts } })
= case count_sigs (map unLoc inst_sigs) of
(_,_,ss,is,_) ->
(addpr (sum3 (map count_bind methods)),
ss, is, length ats, length adts)
where
methods = map unLoc $ bagToList inst_meths
inst_info (ClsInstD _ (XClsInstDecl nec)) = noExtCon nec
inst_info (XInstDecl nec) = noExtCon nec
addpr :: (Int,Int,Int) -> Int
sum2 :: [(Int, Int)] -> (Int, Int)
sum3 :: [(Int, Int, Int)] -> (Int, Int, Int)
sum5 :: [(Int, Int, Int, Int, Int)] -> (Int, Int, Int, Int, Int)
sum7 :: [(Int, Int, Int, Int, Int, Int, Int)] -> (Int, Int, Int, Int, Int, Int, Int)
add7 :: (Int, Int, Int, Int, Int, Int, Int) -> (Int, Int, Int, Int, Int, Int, Int)
-> (Int, Int, Int, Int, Int, Int, Int)
addpr (x,y,z) = x+y+z
sum2 = foldr add2 (0,0)
where
add2 (x1,x2) (y1,y2) = (x1+y1,x2+y2)
sum3 = foldr add3 (0,0,0)
where
add3 (x1,x2,x3) (y1,y2,y3) = (x1+y1,x2+y2,x3+y3)
sum5 = foldr add5 (0,0,0,0,0)
where
add5 (x1,x2,x3,x4,x5) (y1,y2,y3,y4,y5) = (x1+y1,x2+y2,x3+y3,x4+y4,x5+y5)
sum7 = foldr add7 (0,0,0,0,0,0,0)
add7 (x1,x2,x3,x4,x5,x6,x7) (y1,y2,y3,y4,y5,y6,y7) = (x1+y1,x2+y2,x3+y3,x4+y4,x5+y5,x6+y6,x7+y7)