X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2Fghci%2FDebugger.hs;h=6d8e870883653ad5463a87de1d3b35525085b9cd;hp=9f0684c7f4e7f12d85e0665684b9d39b81356d85;hb=940524aec90652b5ef81789c9a453c57c0e42cc9;hpb=5cceab60a792e0d05a544135d1d65b1255645970 diff --git a/compiler/ghci/Debugger.hs b/compiler/ghci/Debugger.hs index 9f0684c..6d8e870 100644 --- a/compiler/ghci/Debugger.hs +++ b/compiler/ghci/Debugger.hs @@ -4,47 +4,39 @@ -- -- Pepe Iborra (supported by Google SoC) 2006 -- +-- ToDo: lots of violation of layering here. This module should +-- decide whether it is above the GHC API (import GHC and nothing +-- else) or below it. +-- ----------------------------------------------------------------------------- -module Debugger where +module Debugger (pprintClosureCommand) where import Linker -import Breakpoints import RtClosureInspect -import PrelNames import HscTypes import IdInfo --import Id +import Name import Var hiding ( varName ) import VarSet import VarEnv import Name -import NameEnv -import RdrName -import Module -import Finder import UniqSupply import Type -import TyCon -import DataCon +import TcType import TcGadt import GHC -import GhciMonad -import PackageConfig import Outputable -import ErrUtils +import Pretty ( Mode(..), showDocWith ) import FastString import SrcLoc -import Util -import Maybes import Control.Exception import Control.Monad -import qualified Data.Map as Map -import Data.Array.Unboxed -import Data.Typeable ( Typeable ) +import Data.List import Data.Maybe import Data.IORef @@ -56,89 +48,99 @@ import GHC.Exts ------------------------------------- -- | The :print & friends commands ------------------------------------- -pprintClosureCommand :: Bool -> Bool -> String -> GHCi () -pprintClosureCommand bindThings force str = do - cms <- getSession - let strs = words str - mbThings <- io$ ( mapM (GHC.lookupName cms) =<<) - . liftM concat - . mapM (GHC.parseName cms) - $ strs - newvarsNames <- io$ do - uniques <- liftM uniqsFromSupply (mkSplitUniqSupply 'q') - return$ map (\u-> (mkSysTvName u (mkFastString "a"))) uniques - let ids_ = [id | Just (AnId id) <- mbThings] - - -- Clean up 'Unknown' types artificially injected into tyvars - ids = map (stripUnknowns newvarsNames) ids_ - - -- Obtain the terms - mb_terms <- io$ mapM (obtainTerm cms force) ids - - -- Give names to suspensions and bind them in the local env - mb_terms' <- if bindThings - then io$ mapM (fmapMMaybe (bindSuspensions cms)) mb_terms - else return mb_terms - ppr_terms <- io$ mapM (fmapMMaybe (printTerm cms)) mb_terms' - let docs = [ ppr id <+> char '=' <+> t | (Just t,id) <- zip ppr_terms ids] - unqual <- io$ GHC.getPrintUnqual cms - io . putStrLn . showSDocForUser unqual $ Outputable.vcat docs - - -- Type reconstruction may have obtained more defined types for some ids - -- So we refresh their types. - let new_ids0 = [ setIdType id ty | (id,Just t) <- zip ids mb_terms - , let Just ty = termType t - , ty `isMoreSpecificThan` idType id - ] - new_ids <- io$ mapM (\x->liftM (setIdType x) . instantiateTyVarsToUnknown cms . idType $ x) - new_ids0 - let Session ref = cms - hsc_env <- io$ readIORef ref - let ictxt = hsc_IC hsc_env - type_env = ic_type_env ictxt - filtered_type_env = delListFromNameEnv type_env (map idName new_ids) - new_type_env = extendTypeEnvWithIds filtered_type_env new_ids - new_ic = ictxt {ic_type_env = new_type_env } - io$ writeIORef ref (hsc_env {hsc_IC = new_ic }) - - where - isMoreSpecificThan :: Type -> Type -> Bool - ty `isMoreSpecificThan ` ty1 - | Just subst <- tcUnifyTys bindOnlyTy1 [repType' ty] [repType' ty1] - , substFiltered <- filter (not.isTyVarTy) . varEnvElts . getTvSubstEnv $ subst - , not . null $ substFiltered - , all (flip notElemTvSubst subst) ty_vars - = True - | otherwise = False - where bindOnlyTy1 tyv | tyv `elem` ty_vars = AvoidMe - | otherwise = BindMe - ty_vars = varSetElems$ tyVarsOfType ty +pprintClosureCommand :: Session -> Bool -> Bool -> String -> IO () +pprintClosureCommand session bindThings force str = do + tythings <- (catMaybes . concat) `liftM` + mapM (\w -> GHC.parseName session w >>= + mapM (GHC.lookupName session)) + (words str) + substs <- catMaybes `liftM` mapM (go session) + [id | AnId id <- tythings] + mapM (applySubstToEnv session . skolemSubst) substs + return () + where - bindSuspensions :: Session -> Term -> IO Term - bindSuspensions cms@(Session ref) t = do + -- Do the obtainTerm--bindSuspensions-computeSubstitution dance + go :: Session -> Id -> IO (Maybe TvSubst) + go cms id = do + term_ <- obtainTerm cms force id + term <- tidyTermTyVars cms term_ + term' <- if not bindThings then return term + else bindSuspensions cms term + showterm <- printTerm cms term' + unqual <- GHC.getPrintUnqual cms + let showSDocForUserOneLine unqual doc = + showDocWith LeftMode (doc (mkErrStyle unqual)) + (putStrLn . showSDocForUserOneLine unqual) (ppr id <+> char '=' <+> showterm) + -- Before leaving, we compare the type obtained to see if it's more specific + -- Then, we extract a substitution, + -- mapping the old tyvars to the reconstructed types. + let Just reconstructed_type = termType term + + -- tcUnifyTys doesn't look through forall's, so we drop them from + -- the original type, instead of sigma-typing the reconstructed type + -- In addition, we strip newtypes too, since the reconstructed type might + -- not have recovered them all + mb_subst = tcUnifyTys (const BindMe) + [repType' $ dropForAlls$ idType id] + [repType' $ reconstructed_type] + + ASSERT2 (isJust mb_subst, ppr reconstructed_type $$ (ppr$ idType id)) + return mb_subst + + applySubstToEnv :: Session -> TvSubst -> IO () + applySubstToEnv cms subst | isEmptyTvSubst subst = return () + applySubstToEnv cms@(Session ref) subst = do + hsc_env <- readIORef ref + inScope <- GHC.getBindings cms + let ictxt = hsc_IC hsc_env + ids = ic_tmp_ids ictxt + ids' = map (\id -> id `setIdType` substTy subst (idType id)) ids + subst_dom= varEnvKeys$ getTvSubstEnv subst + subst_ran= varEnvElts$ getTvSubstEnv subst + new_tvs = [ tv | Just tv <- map getTyVar_maybe subst_ran] + ic_tyvars'= (`delVarSetListByKey` subst_dom) + . (`extendVarSetList` new_tvs) + $ ic_tyvars ictxt + ictxt' = ictxt { ic_tmp_ids = ids' + , ic_tyvars = ic_tyvars' } + writeIORef ref (hsc_env {hsc_IC = ictxt'}) + + where delVarSetListByKey = foldl' delVarSetByKey + + tidyTermTyVars :: Session -> Term -> IO Term + tidyTermTyVars (Session ref) t = do + hsc_env <- readIORef ref + let env_tvs = ic_tyvars (hsc_IC hsc_env) + my_tvs = termTyVars t + tvs = env_tvs `minusVarSet` my_tvs + tyvarOccName = nameOccName . tyVarName + tidyEnv = (initTidyOccEnv (map tyvarOccName (varSetElems tvs)) + , env_tvs `intersectVarSet` my_tvs) + return$ mapTermType (snd . tidyOpenType tidyEnv) t + +-- | Give names, and bind in the interactive environment, to all the suspensions +-- included (inductively) in a term +bindSuspensions :: Session -> Term -> IO Term +bindSuspensions cms@(Session ref) t = do hsc_env <- readIORef ref inScope <- GHC.getBindings cms let ictxt = hsc_IC hsc_env - rn_env = ic_rn_local_env ictxt - type_env = ic_type_env ictxt prefix = "_t" alreadyUsedNames = map (occNameString . nameOccName . getName) inScope - availNames = [n | n <- map ((prefix++) . show) [1..] - , n `notElem` alreadyUsedNames ] + availNames = map ((prefix++) . show) [1..] \\ alreadyUsedNames availNames_var <- newIORef availNames (t', stuff) <- foldTerm (nameSuspensionsAndGetInfos availNames_var) t let (names, tys, hvals) = unzip3 stuff - concrete_tys <- mapM (instantiateTyVarsToUnknown cms) tys + let tys' = map mk_skol_ty tys let ids = [ mkGlobalId VanillaGlobal name ty vanillaIdInfo - | (name,ty) <- zip names concrete_tys] - new_type_env = extendTypeEnvWithIds type_env ids - new_rn_env = extendLocalRdrEnv rn_env names - new_ic = ictxt { ic_rn_local_env = new_rn_env, - ic_type_env = new_type_env } + | (name,ty) <- zip names tys'] + new_tyvars = tyVarsOfTypes tys' + new_ic = extendInteractiveContext ictxt ids new_tyvars extendLinkEnv (zip names hvals) writeIORef ref (hsc_env {hsc_IC = new_ic }) return t' - where + where -- Processing suspensions. Give names and recopilate info nameSuspensionsAndGetInfos :: IORef [String] -> TermFold (IO (Term, [(Name,Type,HValue)])) @@ -159,409 +161,55 @@ pprintClosureCommand bindThings force str = do -- A custom Term printer to enable the use of Show instances - printTerm cms@(Session ref) = customPrintTerm customPrint - where - customPrint = \p-> customPrintShowable : customPrintTermBase p - customPrintShowable t@Term{ty=ty, dc=dc, val=val} = do - let hasType = isEmptyVarSet (tyVarsOfType ty) -- redundant - isEvaled = isFullyEvaluatedTerm t - if isEvaled -- && hasType - then do - hsc_env <- readIORef ref - dflags <- GHC.getSessionDynFlags cms - do - (new_env, bname) <- bindToFreshName hsc_env ty "showme" - writeIORef ref (new_env) - let noop_log _ _ _ _ = return () - expr = "show " ++ showSDoc (ppr bname) - GHC.setSessionDynFlags cms dflags{log_action=noop_log} - mb_txt <- withExtendedLinkEnv [(bname, val)] - (GHC.compileExpr cms expr) - case mb_txt of - Just txt -> return . Just . text . unsafeCoerce# $ txt - Nothing -> return Nothing - `finally` do - writeIORef ref hsc_env - GHC.setSessionDynFlags cms dflags - else return Nothing +printTerm cms@(Session ref) = cPprTerm cPpr + where + cPpr = \p-> cPprShowable : cPprTermBase p + cPprShowable prec t@Term{ty=ty, dc=dc, val=val} = do + let hasType = isEmptyVarSet (tyVarsOfType ty) -- redundant + isEvaled = isFullyEvaluatedTerm t + if not isEvaled -- || not hasType + then return Nothing + else do + hsc_env <- readIORef ref + dflags <- GHC.getSessionDynFlags cms + do + (new_env, bname) <- bindToFreshName hsc_env ty "showme" + writeIORef ref (new_env) + let noop_log _ _ _ _ = return () + expr = "show " ++ showSDoc (ppr bname) + GHC.setSessionDynFlags cms dflags{log_action=noop_log} + mb_txt <- withExtendedLinkEnv [(bname, val)] + (GHC.compileExpr cms expr) + let myprec = 9 -- TODO Infix constructors + case mb_txt of + Just txt -> return . Just . text . unsafeCoerce# + $ txt + Nothing -> return Nothing + `finally` do + writeIORef ref hsc_env + GHC.setSessionDynFlags cms dflags + + bindToFreshName hsc_env ty userName = do + name <- newGrimName cms userName + let ictxt = hsc_IC hsc_env + tmp_ids = ic_tmp_ids ictxt + id = mkGlobalId VanillaGlobal name ty vanillaIdInfo + new_ic = ictxt { ic_tmp_ids = id : tmp_ids } + return (hsc_env {hsc_IC = new_ic }, name) - bindToFreshName hsc_env ty userName = do - name <- newGrimName cms userName - let ictxt = hsc_IC hsc_env - rn_env = ic_rn_local_env ictxt - type_env = ic_type_env ictxt - id = mkGlobalId VanillaGlobal name ty vanillaIdInfo - new_type_env = extendTypeEnv type_env (AnId id) - new_rn_env = extendLocalRdrEnv rn_env [name] - new_ic = ictxt { ic_rn_local_env = new_rn_env, - ic_type_env = new_type_env } - return (hsc_env {hsc_IC = new_ic }, name) -- Create new uniques and give them sequentially numbered names -- newGrimName :: Session -> String -> IO Name - newGrimName cms userName = do - us <- mkSplitUniqSupply 'b' - let unique = uniqFromSupply us - occname = mkOccName varName userName - name = mkInternalName unique occname noSrcLoc - return name - ----------------------------------------------------------------------------- --- | Replace all the tyvars in a Term with the opaque type GHC.Base.Unknown ----------------------------------------------------------------------------- -instantiateTyVarsToUnknown :: Session -> Type -> IO Type -instantiateTyVarsToUnknown cms ty --- We have a GADT, so just fix its tyvars - | Just (tycon, args) <- splitTyConApp_maybe ty - , tycon /= funTyCon - , isGADT tycon - = mapM fixTyVars args >>= return . mkTyConApp tycon --- We have a regular TyCon, so map recursively to its args - | Just (tycon, args) <- splitTyConApp_maybe ty - , tycon /= funTyCon - = do unknownTyVar <- unknownTV - args' <- mapM (instantiateTyVarsToUnknown cms) args - return$ mkTyConApp tycon args' --- we have a tyvar of kind * - | Just tyvar <- getTyVar_maybe ty - , ([],_) <- splitKindFunTys (tyVarKind tyvar) - = unknownTV --- we have a higher kind tyvar, so insert an unknown of the appropriate kind - | Just tyvar <- getTyVar_maybe ty - , (args,_) <- splitKindFunTys (tyVarKind tyvar) - = liftM mkTyConTy $ unknownTC !! length args --- Base case - | otherwise = return ty - - where unknownTV = do - Just (ATyCon unknown_tc) <- lookupName cms unknownTyConName - return$ mkTyConTy unknown_tc - unknownTC = [undefined, unknownTC1, unknownTC2, unknownTC3] - unknownTC1 = do - Just (ATyCon unknown_tc) <- lookupName cms unknown1TyConName - return unknown_tc - unknownTC2 = do - Just (ATyCon unknown_tc) <- lookupName cms unknown2TyConName - return unknown_tc - unknownTC3 = do - Just (ATyCon unknown_tc) <- lookupName cms unknown3TyConName - return unknown_tc --- isGADT ty | pprTrace' "isGADT" (ppr ty <> colon <> ppr(isGadtSyntaxTyCon ty)) False = undefined - isGADT tc | Just dcs <- tyConDataCons_maybe tc = any (not . null . dataConEqSpec) dcs - | otherwise = False - fixTyVars ty - | Just (tycon, args) <- splitTyConApp_maybe ty - = mapM fixTyVars args >>= return . mkTyConApp tycon --- Fix the tyvar so that the interactive environment doesn't choke on it TODO - | Just tv <- getTyVar_maybe ty = return ty --TODO - | otherwise = return ty - --- | The inverse function. Strip the GHC.Base.Unknowns in the type of the id, they correspond to tyvars. The caller must provide an infinite list of fresh names -stripUnknowns :: [Name] -> Id -> Id -stripUnknowns names id = setIdType id . sigmaType . fst . go names . idType - $ id - where - go tyvarsNames@(v:vv) ty - | Just (ty1,ty2) <- splitFunTy_maybe ty = let - (ty1',vv') = go tyvarsNames ty1 - (ty2',vv'')= go vv' ty2 - in (mkFunTy ty1' ty2', vv'') - | Just (ty1,ty2) <- splitAppTy_maybe ty = let - (ty1',vv') = go tyvarsNames ty1 - (ty2',vv'')= go vv' ty2 - in (mkAppTy ty1' ty2', vv'') - | Just (tycon, args) <- splitTyConApp_maybe ty - , Just (tycon', vv') <- (fixTycon tycon tyvarsNames) - , (args',vv'') <- foldr (\arg (aa,vv) -> let (arg',vv') = go vv' arg - in (arg':aa,vv')) - ([],vv') args - = (mkAppTys tycon' args',vv'') - | Just (tycon, args) <- splitTyConApp_maybe ty - , (args',vv') <- foldr (\arg (aa,vv) -> let (arg',vv') = go vv' arg - in (arg':aa,vv')) - ([],tyvarsNames) args - = (mkTyConApp tycon args',vv') - | otherwise = (ty, tyvarsNames) - where fixTycon tycon (v:vv) = do - k <- lookup (tyConName tycon) kinds - return (mkTyVarTy$ mkTyVar v k, vv) - kinds = [ (unknownTyConName, liftedTypeKind) - , (unknown1TyConName, kind1) - , (unknown2TyConName, kind2) - , (unknown3TyConName, kind3)] - kind1 = mkArrowKind liftedTypeKind liftedTypeKind - kind2 = mkArrowKind kind1 liftedTypeKind - kind3 = mkArrowKind kind2 liftedTypeKind -stripUnknowns _ id = id - ------------------------------ --- | The :breakpoint command ------------------------------ -bkptOptions :: String -> GHCi Bool -bkptOptions "continue" = -- We want to quit if in an inferior session - liftM not isTopLevel -bkptOptions "stop" = do - inside_break <- liftM not isTopLevel - when inside_break $ throwDyn StopChildSession - return False - -bkptOptions cmd = do - dflags <- getDynFlags - bt <- getBkptTable - sess <- getSession - bkptOptions' sess (words cmd) bt - return False - where - bkptOptions' _ ["list"] bt = do - let msgs = [ ppr mod <+> colon <+> ppr coords - | (mod,site) <- btList bt - , let coords = getSiteCoords bt mod site] - num_msgs = [parens (int n) <+> msg | (n,msg) <- zip [1..] msgs] - msg <- showForUser$ if null num_msgs - then text "There are no enabled breakpoints" - else vcat num_msgs - io$ putStrLn msg - - bkptOptions' s ("add":cmds) bt - | [mod_name,line]<- cmds - , [(lineNum,[])] <- reads line - = handleAdd mod_name $ (\mod->addBkptByLine mod lineNum) - - | [mod_name,line,col] <- cmds - = handleAdd mod_name $ (\mod->addBkptByCoord mod (read line, read col)) - - | otherwise = throwDyn $ CmdLineError $ - "syntax: :breakpoint add Module line [col]" - where - handleAdd mod_name f = do - mod <- io$ GHC.findModule s (GHC.mkModuleName mod_name) Nothing - ghciHandleDyn (handleBkptEx s mod) $ - case f mod bt of - (newTable, site) -> do - setBkptTable newTable - io (putStrLn ("Breakpoint set at " ++ - show (getSiteCoords newTable mod site))) - - bkptOptions' s ("del":cmds) bt - | [i'] <- cmds - , [(i,[])] <- reads i' - , bkpts <- btList bt - = if i > length bkpts - then throwDyn $ CmdLineError - "Not a valid breakpoint #. Use :breakpoint list to see the current breakpoints." - else - let (mod, site) = bkpts !! (i-1) - in handleDel mod $ delBkptBySite mod site - - | [fn,line] <- cmds - , [(lineNum,[])] <- reads line - , mod <- GHC.mkModule mainPackageId (GHC.mkModuleName fn) - = handleDel mod $ delBkptByLine mod lineNum - - | [fn,line,col] <- cmds - , [(lineNum,[])] <- reads line - , [(colNum,[])] <- reads col - , mod <- GHC.mkModule mainPackageId (GHC.mkModuleName fn) - = handleDel mod $ delBkptByCoord mod (lineNum, colNum) - - | otherwise = throwDyn $ CmdLineError $ - "syntax: :breakpoint del (breakpoint # | Module line [col])" - - where delMsg = "Breakpoint deleted" - handleDel mod f = ghciHandleDyn (handleBkptEx s mod) - (modifyBkptTable f >> io (putStrLn delMsg)) - - bkptOptions' _ _ _ = throwDyn $ CmdLineError $ - "syntax: :breakpoint (list|continue|stop|add|del)" - --- Error messages --- handleBkptEx :: Session -> Module -> Debugger.BkptException -> a - handleBkptEx _ _ NoBkptFound = error "No suitable breakpoint site found" - -- ^ TODO Instead of complaining, set a bkpt in the next suitable line - handleBkptEx _ _ NotNeeded = error "Nothing to do" - handleBkptEx s m NotHandled = io$ - findModSummary m >>= \mod_summary -> - isModuleInterpreted s mod_summary >>= \it -> - if it - then error$ "Module " ++ showSDoc (ppr m) ++ " was not loaded under debugging mode.\n" - ++ "Enable debugging mode with -fdebugging (and reload your module)" - else error$ "Module " ++ showSDoc (ppr m) ++ " was loaded in compiled (.o) mode.\n" - ++ "You must load a module in interpreted mode and with -fdebugging on to debug it." - where findModSummary m = getModuleGraph s >>= \mod_graph -> - case [ modsum | modsum <- mod_graph - , ms_mod modsum == m ] of - [modsum] -> return modsum - -------------------------- --- Breakpoint Tables -------------------------- - -data BkptTable a = BkptTable { - -- | An array of breaks, indexed by site number - breakpoints :: Map.Map a (UArray Int Bool) - -- | A list of lines, each line can have zero or more sites, which are annotated with a column number - , sites :: Map.Map a [[(SiteNumber, Int)]] - } - -sitesOf :: Ord a => BkptTable a -> a -> Maybe [[(SiteNumber, Int)]] -sitesOf bt fn = Map.lookup fn (sites bt) -bkptsOf bt fn = Map.lookup fn (breakpoints bt) - - --- The functions for manipulating BkptTables do throw exceptions -data BkptException = - NotHandled - | NoBkptFound - | NotNeeded -- Used when a breakpoint was already enabled - deriving Typeable - -emptyBkptTable :: Ord a => BkptTable a -addModule :: Ord a => a -> [(SiteNumber,Coord)] -> BkptTable a -> BkptTable a --- | Lines start at index 1 -addBkptByLine :: Ord a => a -> Int -> BkptTable a -> (BkptTable a, SiteNumber) -addBkptByCoord :: Ord a => a -> Coord -> BkptTable a -> (BkptTable a, SiteNumber) -delBkptByLine :: Ord a => a -> Int -> BkptTable a -> BkptTable a -delBkptBySite :: Ord a => a -> SiteNumber -> BkptTable a -> BkptTable a -delBkptByCoord :: Ord a => a -> Coord -> BkptTable a -> BkptTable a - -isBkptEnabled :: Ord a => BkptTable a -> BkptLocation a -> Bool -btElems :: Ord a => BkptTable a -> [(a, [SiteNumber])] -btList :: Ord a => BkptTable a -> [BkptLocation a] -sitesList :: Ord a => BkptTable a -> [(a, [Coord])] -getSiteCoords :: Ord a => BkptTable a -> a -> SiteNumber -> Coord - -emptyBkptTable = BkptTable Map.empty Map.empty - -addBkptByLine a i bt - | Just lines <- sitesOf bt a - , Just bkptsArr <- bkptsOf bt a - , i < length lines - = case lines!!i of - [] -> throwDyn NoBkptFound - (x:_) -> let (siteNum,col) = x - wasAlreadyOn = bkptsArr ! siteNum - newArr = bkptsArr // [(siteNum, True)] - newTable = Map.insert a newArr (breakpoints bt) - in if wasAlreadyOn - then throwDyn NotNeeded - else (bt{breakpoints=newTable}, siteNum) - - | Just sites <- sitesOf bt a - = throwDyn NoBkptFound - | otherwise = throwDyn NotHandled - -addBkptByCoord a (r,c) bt - | Just lines <- sitesOf bt a - , Just bkptsArr <- bkptsOf bt a - , r < length lines - = case [ (sn,col) | (sn,col)<-lines!!r, col>=c] of - [] -> throwDyn NoBkptFound - (x:_) -> let (siteNum, col) = x - wasAlreadyOn = bkptsArr ! siteNum - newArr = bkptsArr // [(siteNum, True)] - newTable = Map.insert a newArr (breakpoints bt) - in if wasAlreadyOn - then throwDyn NotNeeded - else (bt{breakpoints=newTable}, siteNum) - - | Just sites <- sitesOf bt a - = throwDyn NoBkptFound - | otherwise = throwDyn NotHandled - -delBkptBySite a i bt - | Just bkptsArr <- bkptsOf bt a - , not (inRange (bounds bkptsArr) i) - = throwDyn NoBkptFound - - | Just bkptsArr <- bkptsOf bt a - , bkptsArr ! i -- Check that there was a enabled bkpt here - , newArr <- bkptsArr // [(i,False)] - , newTable <- Map.insert a newArr (breakpoints bt) - = bt {breakpoints=newTable} - - | Just sites <- sitesOf bt a - = throwDyn NotNeeded - - | otherwise = throwDyn NotHandled - -delBkptByLine a l bt - | Just sites <- sitesOf bt a - , (site:_) <- [s | (s,c') <- sites !! l] - = delBkptBySite a site bt - - | Just sites <- sitesOf bt a - = throwDyn NoBkptFound - - | otherwise = throwDyn NotHandled - -delBkptByCoord a (r,c) bt - | Just sites <- sitesOf bt a - , (site:_) <- [s | (s,c') <- sites !! r, c>=c', isBkptEnabled bt (a,s)] - = delBkptBySite a site bt - - | Just sites <- sitesOf bt a - = throwDyn NoBkptFound - - | otherwise = throwDyn NotHandled - -btElems bt = [ (a, [i | (i,True) <- assocs siteArr]) - | (a, siteArr) <- Map.assocs (breakpoints bt) ] - -btList bt = [(a,site) | (a, sites) <- btElems bt, site <- sites] - -sitesList bt = [ (a, sitesCoords sitesCols) | (a, sitesCols) <- Map.assocs (sites bt) ] - where sitesCoords sitesCols = - [ (row,col) - | (row, cols) <- zip [0..] sitesCols, (_,col) <- cols ] - -getSiteCoords bt a site - | Just rows <- sitesOf bt a - = head [ (r,c) | (r,row) <- zip [0..] rows - , (s,c) <- row - , s == site ] - --- addModule is dumb and inefficient, but it does the job -addModule a [] bt = bt {sites = Map.insert a [] (sites bt)} -addModule a siteCoords bt - | nrows <- maximum$ [i | (_,(i,j)) <- siteCoords ] - , sitesByRow <- [ [(s,c) | (s,(r,c)) <- siteCoords, r==i] - | i <- [0..nrows] ] - , nsites <- length siteCoords - , initialBkpts <- listArray (1, nsites) (repeat False) - = bt{ sites = Map.insert a sitesByRow (sites bt) - , breakpoints = Map.insert a initialBkpts (breakpoints bt) } - -isBkptEnabled bt (a,site) - | Just bkpts <- bkptsOf bt a - , inRange (bounds bkpts) site - = bkpts ! site - | otherwise = panic "unexpected condition: I don't know that breakpoint site" - ------------------ --- Other stuff ------------------ -refreshBkptTable :: [ModSummary] -> GHCi () -refreshBkptTable [] = return () -refreshBkptTable (ms:mod_sums) = do - sess <- getSession - isDebugging <- io(isDebuggingM sess) - when isDebugging $ do - old_table <- getBkptTable - new_table <- addModuleGHC sess old_table (GHC.ms_mod ms) - setBkptTable new_table - refreshBkptTable mod_sums - where addModuleGHC sess bt mod = do - Just mod_info <- io$ GHC.getModuleInfo sess mod - dflags <- getDynFlags - let sites = GHC.modInfoBkptSites mod_info - io$ debugTraceMsg dflags 2 - (ppr mod <> text ": inserted " <> int (length sites) <> - text " breakpoints") - return$ addModule mod sites bt -#if defined(GHCI) && defined(DEBUGGER) - isDebuggingM sess = isModuleInterpreted sess ms >>= \isInterpreted -> - return (Opt_Debugging `elem` dflags && target == HscInterpreted && isInterpreted) - dflags = flags (GHC.ms_hspp_opts ms) - target = hscTarget (GHC.ms_hspp_opts ms) -#else - isDebuggingM _ = return False -#endif +newGrimName cms userName = do + us <- mkSplitUniqSupply 'b' + let unique = uniqFromSupply us + occname = mkOccName varName userName + name = mkInternalName unique occname noSrcSpan + return name + +skolemSubst subst = subst `setTvSubstEnv` + mapVarEnv mk_skol_ty (getTvSubstEnv subst) +mk_skol_ty ty | tyvars <- varSetElems (tyVarsOfType ty) + , tyvars' <- map (mkTyVarTy . mk_skol_tv) tyvars + = substTyWith tyvars tyvars' ty +mk_skol_tv tv = mkTcTyVar (tyVarName tv) (tyVarKind tv) + (SkolemTv RuntimeUnkSkol)