tcSimplifyInfer, tcSimplifyInferCheck,
tcSimplifyCheck, tcSimplifyRestricted,
tcSimplifyToDicts, tcSimplifyIPs,
+ tcSimplifySuperClasses,
tcSimplifyTop, tcSimplifyInteractive,
tcSimplifyBracket,
#include "HsVersions.h"
-import {-# SOURCE #-} TcUnify( unifyTauTy )
-import TcEnv -- temp
+import {-# SOURCE #-} TcUnify( unifyType )
import HsSyn ( HsBind(..), HsExpr(..), LHsExpr, emptyLHsBinds )
-import TcHsSyn ( TcId, TcDictBinds, mkHsApp, mkHsTyApp, mkHsDictApp )
+import TcHsSyn ( mkHsApp, mkHsTyApp, mkHsDictApp )
import TcRnMonad
import Inst ( lookupInst, LookupInstResult(..),
tyVarsOfInst, fdPredsOfInsts, newDicts,
isDict, isClassDict, isLinearInst, linearInstType,
- isStdClassTyVarDict, isMethodFor, isMethod,
+ isMethodFor, isMethod,
instToId, tyVarsOfInsts, cloneDict,
ipNamesOfInsts, ipNamesOfInst, dictPred,
- instBindingRequired, fdPredsOfInst,
- newDictsFromOld, tcInstClassOp,
- getDictClassTys, isTyVarDict,
- instLoc, zonkInst, tidyInsts, tidyMoreInsts,
- Inst, pprInsts, pprDictsInFull, pprInstInFull, tcGetInstEnvs,
- isInheritableInst, pprDFuns, pprDictsTheta
+ fdPredsOfInst,
+ newDictsAtLoc, tcInstClassOp,
+ getDictClassTys, isTyVarDict, instLoc,
+ zonkInst, tidyInsts, tidyMoreInsts,
+ pprInsts, pprDictsInFull, pprInstInFull, tcGetInstEnvs,
+ isInheritableInst, pprDictsTheta
)
-import TcEnv ( tcGetGlobalTyVars, tcLookupId, findGlobals, pprBinders )
-import InstEnv ( lookupInstEnv, classInstances )
+import TcEnv ( tcGetGlobalTyVars, tcLookupId, findGlobals, pprBinders,
+ lclEnvElts, tcMetaTy )
+import InstEnv ( lookupInstEnv, classInstances, pprInstances )
import TcMType ( zonkTcTyVarsAndFV, tcInstTyVars, checkAmbiguity )
-import TcType ( TcTyVar, TcTyVarSet, ThetaType,
- mkClassPred, isOverloadedTy, mkTyConApp,
+import TcType ( TcTyVar, TcTyVarSet, ThetaType, TcPredType,
+ mkClassPred, isOverloadedTy, mkTyConApp, isSkolemTyVar,
mkTyVarTy, tcGetTyVar, isTyVarClassPred, mkTyVarTys,
- tyVarsOfPred, tcEqType, pprPred )
+ tyVarsOfPred, tcEqType, pprPred, mkPredTy, tcIsTyVarTy )
+import TcIface ( checkWiredInTyCon )
import Id ( idType, mkUserLocal )
import Var ( TyVar )
import Name ( Name, getOccName, getSrcLoc )
import NameSet ( NameSet, mkNameSet, elemNameSet )
import Class ( classBigSig, classKey )
import FunDeps ( oclose, grow, improve, pprEquationDoc )
-import PrelInfo ( isNumericClass )
+import PrelInfo ( isNumericClass, isStandardClass )
import PrelNames ( splitName, fstName, sndName, integerTyConName,
showClassKey, eqClassKey, ordClassKey )
import Type ( zipTopTvSubst, substTheta, substTy )
-import TysWiredIn ( pairTyCon, doubleTy )
+import TysWiredIn ( pairTyCon, doubleTy, doubleTyCon )
import ErrUtils ( Message )
import BasicTypes ( TopLevelFlag, isNotTopLevel )
import VarSet
import Util ( zipEqual, isSingleton )
import List ( partition )
import SrcLoc ( Located(..) )
-import CmdLineOpts
+import DynFlags ( DynFlag(..) )
+import StaticFlags
\end{code}
try_me inst
| isFreeWhenInferring qtvs inst = Free
| isClassDict inst = DontReduceUnlessConstant -- Dicts
- | otherwise = ReduceMe -- Lits and Methods
+ | otherwise = ReduceMe NoSCs -- Lits and Methods
in
traceTc (text "infloop" <+> vcat [ppr tau_tvs', ppr wanteds', ppr preds,
ppr (grow preds tau_tvs'), ppr qtvs]) `thenM_`
-- global type variables in the environment; so you don't
-- need to worry about setting them before calling tcSimplifyCheck
tcSimplifyCheck doc qtvs givens wanted_lie
- = tcSimplCheck doc get_qtvs
- givens wanted_lie `thenM` \ (qtvs', binds) ->
- returnM binds
+ = ASSERT( all isSkolemTyVar qtvs )
+ do { (qtvs', frees, binds) <- tcSimplCheck doc get_qtvs AddSCs givens wanted_lie
+ ; extendLIEs frees
+ ; return binds }
where
--- get_qtvs = zonkTcTyVarsAndFV qtvs
- get_qtvs = return (mkVarSet qtvs)
+-- get_qtvs = zonkTcTyVarsAndFV qtvs
+ get_qtvs = return (mkVarSet qtvs) -- All skolems
-- tcSimplifyInferCheck is used when we know the constraints we are to simplify
TcDictBinds) -- Bindings
tcSimplifyInferCheck doc tau_tvs givens wanted_lie
- = tcSimplCheck doc get_qtvs givens wanted_lie
+ = do { (qtvs', frees, binds) <- tcSimplCheck doc get_qtvs AddSCs givens wanted_lie
+ ; extendLIEs frees
+ ; return (qtvs', binds) }
where
-- Figure out which type variables to quantify over
-- You might think it should just be the signature tyvars,
Here is the workhorse function for all three wrappers.
\begin{code}
-tcSimplCheck doc get_qtvs givens wanted_lie
- = check_loop givens wanted_lie `thenM` \ (qtvs, frees, binds, irreds) ->
-
- -- Complain about any irreducible ones
- mappM zonkInst given_dicts_and_ips `thenM` \ givens' ->
- groupErrs (addNoInstanceErrs (Just doc) givens') irreds `thenM_`
+tcSimplCheck doc get_qtvs want_scs givens wanted_lie
+ = do { (qtvs, frees, binds, irreds) <- check_loop givens wanted_lie
- -- Done
- extendLIEs frees `thenM_`
- returnM (qtvs, binds)
+ -- Complain about any irreducible ones
+ ; if not (null irreds)
+ then do { givens' <- mappM zonkInst given_dicts_and_ips
+ ; groupErrs (addNoInstanceErrs (Just doc) givens') irreds }
+ else return ()
+ ; returnM (qtvs, frees, binds) }
where
given_dicts_and_ips = filter (not . isMethod) givens
-- For error reporting, filter out methods, which are
-- When checking against a given signature we always reduce
-- until we find a match against something given, or can't reduce
try_me inst | isFreeWhenChecking qtvs' ip_set inst = Free
- | otherwise = ReduceMe
+ | otherwise = ReduceMe want_scs
in
reduceContext doc try_me givens' wanteds' `thenM` \ (no_improvement, frees, binds, irreds) ->
%************************************************************************
%* *
+ tcSimplifySuperClasses
+%* *
+%************************************************************************
+
+Note [SUPERCLASS-LOOP 1]
+~~~~~~~~~~~~~~~~~~~~~~~~
+We have to be very, very careful when generating superclasses, lest we
+accidentally build a loop. Here's an example:
+
+ class S a
+
+ class S a => C a where { opc :: a -> a }
+ class S b => D b where { opd :: b -> b }
+
+ instance C Int where
+ opc = opd
+
+ instance D Int where
+ opd = opc
+
+From (instance C Int) we get the constraint set {ds1:S Int, dd:D Int}
+Simplifying, we may well get:
+ $dfCInt = :C ds1 (opd dd)
+ dd = $dfDInt
+ ds1 = $p1 dd
+Notice that we spot that we can extract ds1 from dd.
+
+Alas! Alack! We can do the same for (instance D Int):
+
+ $dfDInt = :D ds2 (opc dc)
+ dc = $dfCInt
+ ds2 = $p1 dc
+
+And now we've defined the superclass in terms of itself.
+
+Solution: never generate a superclass selectors at all when
+satisfying the superclass context of an instance declaration.
+
+Two more nasty cases are in
+ tcrun021
+ tcrun033
+
+\begin{code}
+tcSimplifySuperClasses qtvs givens sc_wanteds
+ = ASSERT( all isSkolemTyVar qtvs )
+ do { (_, frees, binds1) <- tcSimplCheck doc get_qtvs NoSCs givens sc_wanteds
+ ; binds2 <- tc_simplify_top doc False NoSCs frees
+ ; return (binds1 `unionBags` binds2) }
+ where
+ get_qtvs = return (mkVarSet qtvs)
+ doc = ptext SLIT("instance declaration superclass context")
+\end{code}
+
+
+%************************************************************************
+%* *
\subsection{tcSimplifyRestricted}
%* *
%************************************************************************
is_nested_group = isNotTopLevel top_lvl
try_me inst | isFreeWrtTyVars qtvs inst,
(is_nested_group || isDict inst) = Free
- | otherwise = ReduceMe
+ | otherwise = ReduceMe AddSCs
in
reduceContextWithoutImprovement
doc try_me wanteds' `thenM` \ (frees, binds, irreds) ->
forall dIntegralInt.
fromIntegral Int Int dIntegralInt (scsel dIntegralInt) = id Int
-because the scsel will mess up matching. Instead we want
+because the scsel will mess up RULE matching. Instead we want
forall dIntegralInt, dNumInt.
fromIntegral Int Int dIntegralInt dNumInt = id Int
-- Reduce methods and lits only; stop as soon as we get a dictionary
try_me inst | isDict inst = KeepDictWithoutSCs -- See notes above re "WithoutSCs"
- | otherwise = ReduceMe
+ | otherwise = ReduceMe NoSCs
\end{code}
-- Simplify any methods that mention the implicit parameter
try_me inst | isFreeWrtIPs ip_set inst = Free
- | otherwise = ReduceMe
+ | otherwise = ReduceMe NoSCs
simpl_loop givens wanteds
= mappM zonkInst givens `thenM` \ givens' ->
overloaded_set = mkVarSet overloaded_ids -- There can occasionally be a lot of them
-- so it's worth building a set, so that
-- lookup (in isMethodFor) is faster
- try_me inst | isMethod inst = ReduceMe
+ try_me inst | isMethod inst = ReduceMe NoSCs
| otherwise = Free
\end{code}
\begin{code}
data WhatToDo
- = ReduceMe -- Try to reduce this
+ = ReduceMe WantSCs -- Try to reduce this
-- If there's no instance, behave exactly like
- -- DontReduce: add the inst to
- -- the irreductible ones, but don't
- -- produce an error message of any kind.
+ -- DontReduce: add the inst to the irreductible ones,
+ -- but don't produce an error message of any kind.
-- It might be quite legitimate such as (Eq a)!
| KeepDictWithoutSCs -- Return as irreducible; don't add its superclasses
| Free -- Return as free
reduceMe :: Inst -> WhatToDo
-reduceMe inst = ReduceMe
+reduceMe inst = ReduceMe AddSCs
data WantSCs = NoSCs | AddSCs -- Tells whether we should add the superclasses
-- of a predicate when adding it to the avails
+ -- The reason for this flag is entirely the super-class loop problem
+ -- Note [SUPER-CLASS LOOP 1]
\end{code}
-- e.g. those "given" in a signature
Bool -- True <=> actually consumed (splittable IPs only)
- | NoRhs -- Used for Insts like (CCallable f)
- -- where no witness is required.
- -- ToDo: remove?
-
| Rhs -- Used when there is a RHS
(LHsExpr TcId) -- The RHS
[Inst] -- Insts free in the RHS; we need these too
instance Outputable Avail where
ppr = pprAvail
-pprAvail NoRhs = text "<no rhs>"
pprAvail IsFree = text "Free"
pprAvail Irred = text "Irred"
pprAvail (Given x b) = text "Given" <+> ppr x <+>
Nothing -> pprTrace "Urk: extractResults" (ppr w) $
go avails binds irreds frees ws
- Just NoRhs -> go avails binds irreds frees ws
Just IsFree -> go (add_free avails w) binds irreds (w:frees) ws
Just Irred -> go (add_given avails w) binds (w:irreds) frees ws
get_root irreds frees IsFree w = cloneDict w `thenM` \ w' ->
returnM (irreds, w':frees, instToId w')
- add_given avails w
- | instBindingRequired w = addToFM avails w (Given (instToId w) True)
- | otherwise = addToFM avails w NoRhs
- -- NB: make sure that CCallable/CReturnable use NoRhs rather
- -- than Given, else we end up with bogus bindings.
+ add_given avails w = addToFM avails w (Given (instToId w) True)
add_free avails w | isMethod w = avails
| otherwise = add_given avails w
= addErrCtxt doc $
tcInstTyVars (varSetElems qtvs) `thenM` \ (_, _, tenv) ->
mapM_ (unif_pr tenv) pairs
- unif_pr tenv (ty1,ty2) = unifyTauTy (substTy tenv ty1) (substTy tenv ty2)
+ unif_pr tenv (ty1,ty2) = unifyType (substTy tenv ty1) (substTy tenv ty2)
\end{code}
The main context-reduction function is @reduce@. Here's its game plan.
#ifdef DEBUG
(if n > 8 then
pprTrace "Interesting! Context reduction stack deeper than 8:"
- (nest 2 (pprStack stack))
+ (int n $$ ifPprDebug (nest 2 (pprStack stack)))
else (\x->x))
#endif
go wanteds state
-- First, see if the inst can be reduced to a constant in one step
try_simple addFree
- ; ReduceMe -> -- It should be reduced
+ ; ReduceMe want_scs -> -- It should be reduced
lookupInst wanted `thenM` \ lookup_result ->
case lookup_result of
GenInst wanteds' rhs -> addIrred NoSCs avails wanted `thenM` \ avails1 ->
reduceList stack try_me wanteds' avails1 `thenM` \ avails2 ->
- addWanted avails2 wanted rhs wanteds'
+ addWanted want_scs avails2 wanted rhs wanteds'
-- Experiment with temporarily doing addIrred *before* the reduceList,
-- which has the effect of adding the thing we are trying
-- to prove to the database before trying to prove the things it
-- the examples in [SUPERCLASS-LOOP]
-- So we do an addIrred before, and then overwrite it afterwards with addWanted
- SimpleInst rhs -> addWanted avails wanted rhs []
+ SimpleInst rhs -> addWanted want_scs avails wanted rhs []
NoInstance -> -- No such instance!
-- Add it and its superclasses
- addIrred AddSCs avails wanted
+ addIrred want_scs avails wanted
}
where
try_simple do_this_otherwise
= lookupInst wanted `thenM` \ lookup_result ->
case lookup_result of
- SimpleInst rhs -> addWanted avails wanted rhs []
+ SimpleInst rhs -> addWanted AddSCs avails wanted rhs []
other -> do_this_otherwise avails wanted
\end{code}
isAvailable :: Avails -> Inst -> Maybe Avail
isAvailable avails wanted = lookupFM avails wanted
-- NB 1: the Ord instance of Inst compares by the class/type info
- -- *not* by unique. So
+ -- *not* by unique. So
-- d1::C Int == d2::C Int
addLinearAvailable :: Avails -> Avail -> Inst -> TcM (Avails, [Inst])
--
addFree avails free = returnM (addToFM avails free IsFree)
-addWanted :: Avails -> Inst -> LHsExpr TcId -> [Inst] -> TcM Avails
-addWanted avails wanted rhs_expr wanteds
- = addAvailAndSCs avails wanted avail
+addWanted :: WantSCs -> Avails -> Inst -> LHsExpr TcId -> [Inst] -> TcM Avails
+addWanted want_scs avails wanted rhs_expr wanteds
+ = addAvailAndSCs want_scs avails wanted avail
where
- avail | instBindingRequired wanted = Rhs rhs_expr wanteds
- | otherwise = ASSERT( null wanteds ) NoRhs
+ avail = Rhs rhs_expr wanteds
addGiven :: Avails -> Inst -> TcM Avails
-addGiven avails given = addAvailAndSCs avails given (Given (instToId given) False)
+addGiven avails given = addAvailAndSCs AddSCs avails given (Given (instToId given) False)
+ -- Always add superclasses for 'givens'
+ --
-- No ASSERT( not (given `elemFM` avails) ) because in an instance
-- decl for Ord t we can add both Ord t and Eq t as 'givens',
-- so the assert isn't true
addIrred :: WantSCs -> Avails -> Inst -> TcM Avails
-addIrred NoSCs avails irred = returnM (addToFM avails irred Irred)
-addIrred AddSCs avails irred = ASSERT2( not (irred `elemFM` avails), ppr irred $$ ppr avails )
- addAvailAndSCs avails irred Irred
-
-addAvailAndSCs :: Avails -> Inst -> Avail -> TcM Avails
-addAvailAndSCs avails inst avail
- | not (isClassDict inst) = returnM avails1
- | otherwise = traceTc (text "addAvailAndSCs" <+> vcat [ppr inst, ppr deps]) `thenM_`
- addSCs is_loop avails1 inst
+addIrred want_scs avails irred = ASSERT2( not (irred `elemFM` avails), ppr irred $$ ppr avails )
+ addAvailAndSCs want_scs avails irred Irred
+
+addAvailAndSCs :: WantSCs -> Avails -> Inst -> Avail -> TcM Avails
+addAvailAndSCs want_scs avails inst avail
+ | not (isClassDict inst) = return avails_with_inst
+ | NoSCs <- want_scs = return avails_with_inst
+ | otherwise = do { traceTc (text "addAvailAndSCs" <+> vcat [ppr inst, ppr deps])
+ ; addSCs is_loop avails_with_inst inst }
where
- avails1 = addToFM avails inst avail
- is_loop inst = any (`tcEqType` idType (instToId inst)) dep_tys
+ avails_with_inst = addToFM avails inst avail
+
+ is_loop pred = any (`tcEqType` mkPredTy pred) dep_tys
-- Note: this compares by *type*, not by Unique
deps = findAllDeps (unitVarSet (instToId inst)) avail
dep_tys = map idType (varSetElems deps)
findAllDeps :: IdSet -> Avail -> IdSet
-- Find all the Insts that this one depends on
- -- See Note [SUPERCLASS-LOOP]
+ -- See Note [SUPERCLASS-LOOP 2]
-- Watch out, though. Since the avails may contain loops
-- (see Note [RECURSIVE DICTIONARIES]), so we need to track the ones we've seen so far
findAllDeps so_far (Rhs _ kids) = foldl find_all so_far kids
so_far' = extendVarSet so_far kid_id -- Add the new kid to so_far
kid_id = instToId kid
-addSCs :: (Inst -> Bool) -> Avails -> Inst -> TcM Avails
+addSCs :: (TcPredType -> Bool) -> Avails -> Inst -> TcM Avails
-- Add all the superclasses of the Inst to Avails
-- The first param says "dont do this because the original thing
-- depends on this one, so you'd build a loop"
-- Invariant: the Inst is already in Avails.
addSCs is_loop avails dict
- = newDictsFromOld dict sc_theta' `thenM` \ sc_dicts ->
- foldlM add_sc avails (zipEqual "add_scs" sc_dicts sc_sels)
+ = do { sc_dicts <- newDictsAtLoc (instLoc dict) sc_theta'
+ ; foldlM add_sc avails (zipEqual "add_scs" sc_dicts sc_sels) }
where
(clas, tys) = getDictClassTys dict
(tyvars, sc_theta, sc_sels, _) = classBigSig clas
sc_theta' = substTheta (zipTopTvSubst tyvars tys) sc_theta
- add_sc avails (sc_dict, sc_sel) -- Add it, and its superclasses
- | add_me sc_dict = addSCs is_loop avails' sc_dict
- | otherwise = returnM avails
+ add_sc avails (sc_dict, sc_sel)
+ | is_loop (dictPred sc_dict) = return avails -- See Note [SUPERCLASS-LOOP 2]
+ | is_given sc_dict = return avails
+ | otherwise = addSCs is_loop avails' sc_dict
where
sc_sel_rhs = mkHsDictApp (mkHsTyApp (L (instSpan dict) (HsVar sc_sel)) tys) [instToId dict]
avails' = addToFM avails sc_dict (Rhs sc_sel_rhs [dict])
- add_me :: Inst -> Bool
- add_me sc_dict
- | is_loop sc_dict = False -- See Note [SUPERCLASS-LOOP]
- | otherwise = case lookupFM avails sc_dict of
- Just (Given _ _) -> False -- Given is cheaper than superclass selection
- other -> True
+ is_given :: Inst -> Bool
+ is_given sc_dict = case lookupFM avails sc_dict of
+ Just (Given _ _) -> True -- Given is cheaper than superclass selection
+ other -> False
\end{code}
-Note [SUPERCLASS-LOOP]: Checking for loops
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-We have to be careful here. If we are *given* d1:Ord a,
+Note [SUPERCLASS-LOOP 2]
+~~~~~~~~~~~~~~~~~~~~~~~~
+But the above isn't enough. Suppose we are *given* d1:Ord a,
and want to deduce (d2:C [a]) where
class Ord a => C a where
\begin{code}
tcSimplifyTop, tcSimplifyInteractive :: [Inst] -> TcM TcDictBinds
-tcSimplifyTop wanteds = tc_simplify_top False {- Not interactive loop -} wanteds
-tcSimplifyInteractive wanteds = tc_simplify_top True {- Interactive loop -} wanteds
+tcSimplifyTop wanteds
+ = tc_simplify_top doc False {- Not interactive loop -} AddSCs wanteds
+ where
+ doc = text "tcSimplifyTop"
+tcSimplifyInteractive wanteds
+ = tc_simplify_top doc True {- Interactive loop -} AddSCs wanteds
+ where
+ doc = text "tcSimplifyTop"
-- The TcLclEnv should be valid here, solely to improve
-- error message generation for the monomorphism restriction
-tc_simplify_top is_interactive wanteds
- = getLclEnv `thenM` \ lcl_env ->
- traceTc (text "tcSimplifyTop" <+> ppr (lclEnvElts lcl_env)) `thenM_`
- simpleReduceLoop (text "tcSimplTop") reduceMe wanteds `thenM` \ (frees, binds, irreds) ->
- ASSERT( null frees )
+tc_simplify_top doc is_interactive want_scs wanteds
+ = do { lcl_env <- getLclEnv
+ ; traceTc (text "tcSimplifyTop" <+> ppr (lclEnvElts lcl_env))
- let
- -- All the non-std ones are definite errors
- (stds, non_stds) = partition isStdClassTyVarDict irreds
+ ; let try_me inst = ReduceMe want_scs
+ ; (frees, binds, irreds) <- simpleReduceLoop doc try_me wanteds
+
+ ; let
+ -- First get rid of implicit parameters
+ (non_ips, bad_ips) = partition isClassDict irreds
+
+ -- All the non-tv or multi-param ones are definite errors
+ (unary_tv_dicts, non_tvs) = partition is_unary_tyvar_dict non_ips
+ bad_tyvars = unionVarSets (map tyVarsOfInst non_tvs)
-- Group by type variable
- std_groups = equivClasses cmp_by_tyvar stds
+ tv_groups = equivClasses cmp_by_tyvar unary_tv_dicts
-- Pick the ones which its worth trying to disambiguate
- -- namely, the onese whose type variable isn't bound
- -- up with one of the non-standard classes
- (std_oks, std_bads) = partition worth_a_try std_groups
- worth_a_try group@(d:_) = not (non_std_tyvars `intersectsVarSet` tyVarsOfInst d)
- non_std_tyvars = unionVarSets (map tyVarsOfInst non_stds)
-
- -- Collect together all the bad guys
- bad_guys = non_stds ++ concat std_bads
- (non_ips, bad_ips) = partition isClassDict bad_guys
- (ambigs, no_insts) = partition is_ambig non_ips
- is_ambig d = not (tyVarsOfInst d `subVarSet` fixed_tvs)
- fixed_tvs = oclose (fdPredsOfInsts irreds) emptyVarSet
- -- If the dict has free type variables, it's almost certainly ambiguous,
- -- and that's the first thing to fix.
- -- Otherwise, addNoInstanceErrs does the right thing
- -- I say "almost certain" because we might have
- -- class C a b | a -> B where ...
- -- plus an Inst (C Int x). Then the 'x' isn't ambiguous; it's just that
- -- there's no instance decl for (C Int ...). Hence the oclose.
- in
+ -- namely, the ones whose type variable isn't bound
+ -- up with one of the non-tyvar classes
+ (default_gps, non_default_gps) = partition defaultable_group tv_groups
+ defaultable_group ds
+ = not (bad_tyvars `intersectsVarSet` tyVarsOfInst (head ds))
+ && defaultable_classes (map get_clas ds)
+ defaultable_classes clss
+ | is_interactive = any isInteractiveClass clss
+ | otherwise = all isStandardClass clss && any isNumericClass clss
+
+ isInteractiveClass cls = isNumericClass cls
+ || (classKey cls `elem` [showClassKey, eqClassKey, ordClassKey])
+ -- In interactive mode, we default Show a to Show ()
+ -- to avoid graututious errors on "show []"
+
+
+ -- Collect together all the bad guys
+ bad_guys = non_tvs ++ concat non_default_gps
+ (ambigs, no_insts) = partition isTyVarDict bad_guys
+ -- If the dict has no type constructors involved, it must be ambiguous,
+ -- except I suppose that another error with fundeps maybe should have
+ -- constrained those type variables
-- Report definite errors
- groupErrs (addNoInstanceErrs Nothing []) no_insts `thenM_`
- strangeTopIPErrs bad_ips `thenM_`
+ ; ASSERT( null frees )
+ groupErrs (addNoInstanceErrs Nothing []) no_insts
+ ; strangeTopIPErrs bad_ips
-- Deal with ambiguity errors, but only if
-- if there has not been an error so far:
-- dealing with the (Num a) context arising from f's definition;
-- we try to unify a with Int (to default it), but find that it's
-- already been unified with the rigid variable from g's type sig
- ifErrsM (returnM []) (
-
- -- Complain about the ones that don't fall under
- -- the Haskell rules for disambiguation
- -- This group includes both non-existent instances
- -- e.g. Num (IO a) and Eq (Int -> Int)
- -- and ambiguous dictionaries
- -- e.g. Num a
- addTopAmbigErrs ambigs `thenM_`
+ ; binds_ambig <- ifErrsM (returnM []) $
+ do { -- Complain about the ones that don't fall under
+ -- the Haskell rules for disambiguation
+ -- This group includes both non-existent instances
+ -- e.g. Num (IO a) and Eq (Int -> Int)
+ -- and ambiguous dictionaries
+ -- e.g. Num a
+ addTopAmbigErrs ambigs
- -- Disambiguate the ones that look feasible
- mappM (disambigGroup is_interactive) std_oks
- ) `thenM` \ binds_ambig ->
+ -- Disambiguate the ones that look feasible
+ ; mappM disambigGroup default_gps }
- returnM (binds `unionBags` unionManyBags binds_ambig)
+ ; return (binds `unionBags` unionManyBags binds_ambig) }
----------------------------------
d1 `cmp_by_tyvar` d2 = get_tv d1 `compare` get_tv d2
+is_unary_tyvar_dict :: Inst -> Bool -- Dicts of form (C a)
+ -- Invariant: argument is a ClassDict, not IP or method
+is_unary_tyvar_dict d = case getDictClassTys d of
+ (_, [ty]) -> tcIsTyVarTy ty
+ other -> False
+
get_tv d = case getDictClassTys d of
(clas, [ty]) -> tcGetTyVar "tcSimplify" ty
get_clas d = case getDictClassTys d of
- (clas, [ty]) -> clas
+ (clas, _) -> clas
\end{code}
If a dictionary constrains a type variable which is
@void@.
\begin{code}
-disambigGroup :: Bool -- True <=> simplifying at top-level interactive loop
- -> [Inst] -- All standard classes of form (C a)
+disambigGroup :: [Inst] -- All standard classes of form (C a)
-> TcM TcDictBinds
-disambigGroup is_interactive dicts
- | any std_default_class classes -- Guaranteed all standard classes
+disambigGroup dicts
= -- THE DICTS OBEY THE DEFAULTABLE CONSTRAINT
-- SO, TRY DEFAULT TYPES IN ORDER
case mb_ty of
Left _ -> bomb_out
Right chosen_default_ty -> choose_default chosen_default_ty
-
- | otherwise -- No defaults
- = bomb_out
-
where
tyvar = get_tv (head dicts) -- Should be non-empty
classes = map get_clas dicts
- std_default_class cls
- = isNumericClass cls
- || (is_interactive &&
- classKey cls `elem` [showClassKey, eqClassKey, ordClassKey])
- -- In interactive mode, we default Show a to Show ()
- -- to avoid graututious errors on "show []"
-
choose_default default_ty -- Commit to tyvar = default_ty
= -- Bind the type variable
- unifyTauTy default_ty (mkTyVarTy tyvar) `thenM_`
+ unifyType default_ty (mkTyVarTy tyvar) `thenM_`
-- and reduce the context, for real this time
simpleReduceLoop (text "disambig" <+> ppr dicts)
- reduceMe dicts `thenM` \ (frees, binds, ambigs) ->
+ reduceMe dicts `thenM` \ (frees, binds, ambigs) ->
WARN( not (null frees && null ambigs), ppr frees $$ ppr ambigs )
warnDefault dicts default_ty `thenM_`
returnM binds
Nothing -> -- No use-supplied default;
-- use [Integer, Double]
do { integer_ty <- tcMetaTy integerTyConName
+ ; checkWiredInTyCon doubleTyCon
; return [integer_ty, doubleTy] } }
\end{code}
When typechecking _ccall_s, TcExpr ensures that the external
function is only passed arguments (and in the other direction,
-results) of a restricted set of 'native' types. This is
-implemented via the help of the pseudo-type classes,
-@CReturnable@ (CR) and @CCallable@ (CC.)
+results) of a restricted set of 'native' types.
The interaction between the defaulting mechanism for numeric
values and CC & CR can be a bit puzzling to the user at times.
Haskell 1.4's default-default of (Int, Double), 'x' has type
Int.
-To try to minimise the potential for surprises here, the
-defaulting mechanism is turned off in the presence of
-CCallable and CReturnable.
-
End of aside]
addInstLoc :: [Inst] -> Message -> Message
addInstLoc insts msg = msg $$ nest 2 (pprInstLoc (instLoc (head insts)))
-plural [x] = empty
-plural xs = char 's'
-
addTopIPErrs :: [Name] -> [Inst] -> TcM ()
addTopIPErrs bndrs []
= return ()
= addErrTcM (tidy_env, mk_msg tidy_ips)
where
(tidy_env, tidy_ips) = tidyInsts ips
- mk_msg ips = vcat [sep [ptext SLIT("Implicit parameters escape from the monomorphic top-level binding(s) of"),
- pprBinders bndrs <> colon],
+ mk_msg ips = vcat [sep [ptext SLIT("Implicit parameters escape from"),
+ nest 2 (ptext SLIT("the monomorphic top-level binding(s) of")
+ <+> pprBinders bndrs <> colon)],
nest 2 (vcat (map ppr_ip ips)),
monomorphism_fix]
ppr_ip ip = pprPred (dictPred ip) <+> pprInstLoc (instLoc ip)
addNoInstanceErrs mb_what givens dicts
= -- Some of the dicts are here because there is no instances
-- and some because there are too many instances (overlap)
- getDOpts `thenM` \ dflags ->
tcGetInstEnvs `thenM` \ inst_envs ->
let
(tidy_env1, tidy_givens) = tidyInsts givens
check_overlap (overlap_doc, no_inst_dicts) dict
| not (isClassDict dict) = (overlap_doc, dict : no_inst_dicts)
| otherwise
- = case lookupInstEnv dflags inst_envs clas tys of
+ = case lookupInstEnv inst_envs clas tys of
-- The case of exactly one match and no unifiers means
-- a successful lookup. That can't happen here, becuase
-- dicts only end up here if they didn't match in Inst.lookupInst
= vcat [ addInstLoc [dict] ((ptext SLIT("Overlapping instances for")
<+> pprPred (dictPred dict))),
sep [ptext SLIT("Matching instances") <> colon,
- nest 2 (vcat [pprDFuns dfuns, pprDFuns unifiers])],
+ nest 2 (vcat [pprInstances ispecs, pprInstances unifiers])],
ASSERT( not (null matches) )
if not (isSingleton matches)
then -- Two or more matches
quotes (pprWithCommas ppr (varSetElems (tyVarsOfInst dict))),
ptext SLIT("Use -fallow-incoherent-instances to use the first choice above")])]
where
- dfuns = [df | (_, (_,_,df)) <- matches]
+ ispecs = [ispec | (_, ispec) <- matches]
mk_probable_fix tidy_env dicts
- = returnM (tidy_env, sep [ptext SLIT("Probable fix:"), nest 2 (vcat fixes)])
+ = returnM (tidy_env, sep [ptext SLIT("Possible fix:"), nest 2 (vcat fixes)])
where
fixes = add_ors (fix1 ++ fix2)
-- Insts for which it is worth suggesting an adding an instance declaration
-- Exclude implicit parameters, and tyvar dicts
- add_ors :: [SDoc] -> [SDoc]
+ add_ors :: [SDoc] -> [SDoc] -- The empty case should not happen
+ add_ors [] = [ptext SLIT("[No suggested fixes]")] -- Strange
add_ors (f1:fs) = f1 : map (ptext SLIT("or") <+>) fs
addTopAmbigErrs dicts