The @FamInst@ type: family instance heads
\begin{code}
module FamInst (
checkFamInstConsistency, tcExtendLocalFamInstEnv,
tcLookupFamInst,
tcGetFamInstEnvs,
newFamInst
) where
import HscTypes
import FamInstEnv
import InstEnv( roughMatchTcs )
import Coercion( pprCoAxBranchHdr )
import LoadIface
import TypeRep
import TcRnMonad
import TyCon
import CoAxiom
import DynFlags
import Module
import Outputable
import UniqFM
import FastString
import Util
import Maybes
import TcMType
import TcType
import Name
import VarSet
import Control.Monad
import Data.Map (Map)
import qualified Data.Map as Map
#include "HsVersions.h"
\end{code}
%************************************************************************
%* *
Making a FamInst
%* *
%************************************************************************
\begin{code}
newFamInst :: FamFlavor -> CoAxiom Unbranched -> TcRnIf gbl lcl FamInst
newFamInst flavor axiom@(CoAxiom { co_ax_branches = FirstBranch branch
, co_ax_tc = fam_tc })
= do { (subst, tvs') <- tcInstSkolTyVarsLoc loc tvs
; return (FamInst { fi_fam = fam_tc_name
, fi_flavor = flavor
, fi_tcs = roughMatchTcs lhs
, fi_tvs = tvs'
, fi_tys = substTys subst lhs
, fi_rhs = substTy subst rhs
, fi_axiom = axiom }) }
where
fam_tc_name = tyConName fam_tc
CoAxBranch { cab_loc = loc
, cab_tvs = tvs
, cab_lhs = lhs
, cab_rhs = rhs } = branch
\end{code}
%************************************************************************
%* *
Optimised overlap checking for family instances
%* *
%************************************************************************
For any two family instance modules that we import directly or indirectly, we
check whether the instances in the two modules are consistent, *unless* we can
be certain that the instances of the two modules have already been checked for
consistency during the compilation of modules that we import.
Why do we need to check? Consider
module X1 where module X2 where
data T1 data T2
type instance F T1 b = Int type instance F a T2 = Char
f1 :: F T1 a -> Int f2 :: Char -> F a T2
f1 x = x f2 x = x
Now if we import both X1 and X2 we could make (f2 . f1) :: Int -> Char.
Notice that neither instance is an orphan.
How do we know which pairs of modules have already been checked? Any pair of
modules where both modules occur in the `HscTypes.dep_finsts' set (of the
`HscTypes.Dependencies') of one of our directly imported modules must have
already been checked. Everything else, we check now. (So that we can be
certain that the modules in our `HscTypes.dep_finsts' are consistent.)
\begin{code}
data ModulePair = ModulePair Module Module
canon :: ModulePair -> (Module, Module)
canon (ModulePair m1 m2) | m1 < m2 = (m1, m2)
| otherwise = (m2, m1)
instance Eq ModulePair where
mp1 == mp2 = canon mp1 == canon mp2
instance Ord ModulePair where
mp1 `compare` mp2 = canon mp1 `compare` canon mp2
instance Outputable ModulePair where
ppr (ModulePair m1 m2) = angleBrackets (ppr m1 <> comma <+> ppr m2)
type ModulePairSet = Map ModulePair ()
listToSet :: [ModulePair] -> ModulePairSet
listToSet l = Map.fromList (zip l (repeat ()))
checkFamInstConsistency :: [Module] -> [Module] -> TcM ()
checkFamInstConsistency famInstMods directlyImpMods
= do { dflags <- getDynFlags
; (eps, hpt) <- getEpsAndHpt
; let {
modIface mod =
case lookupIfaceByModule dflags hpt (eps_PIT eps) mod of
Nothing -> panic "FamInst.checkFamInstConsistency"
Just iface -> iface
; hmiModule = mi_module . hm_iface
; hmiFamInstEnv = extendFamInstEnvList emptyFamInstEnv
. md_fam_insts . hm_details
; hpt_fam_insts = mkModuleEnv [ (hmiModule hmi, hmiFamInstEnv hmi)
| hmi <- eltsUFM hpt]
; groups = map (dep_finsts . mi_deps . modIface)
directlyImpMods
; okPairs = listToSet $ concatMap allPairs groups
; criticalPairs = listToSet $ allPairs famInstMods
; toCheckPairs = Map.keys $ criticalPairs `Map.difference` okPairs
}
; mapM_ (check hpt_fam_insts) toCheckPairs
}
where
allPairs [] = []
allPairs (m:ms) = map (ModulePair m) ms ++ allPairs ms
check hpt_fam_insts (ModulePair m1 m2)
= do { env1 <- getFamInsts hpt_fam_insts m1
; env2 <- getFamInsts hpt_fam_insts m2
; mapM_ (checkForConflicts (emptyFamInstEnv, env2))
(famInstEnvElts env1) }
getFamInsts :: ModuleEnv FamInstEnv -> Module -> TcM FamInstEnv
getFamInsts hpt_fam_insts mod
| Just env <- lookupModuleEnv hpt_fam_insts mod = return env
| otherwise = do { _ <- initIfaceTcRn (loadSysInterface doc mod)
; eps <- getEps
; return (expectJust "checkFamInstConsistency" $
lookupModuleEnv (eps_mod_fam_inst_env eps) mod) }
where
doc = ppr mod <+> ptext (sLit "is a family-instance module")
\end{code}
%************************************************************************
%* *
Lookup
%* *
%************************************************************************
Look up the instance tycon of a family instance.
The match may be ambiguous (as we know that overlapping instances have
identical right-hand sides under overlapping substitutions - see
'FamInstEnv.lookupFamInstEnvConflicts'). However, the type arguments used
for matching must be equal to or be more specific than those of the family
instance declaration. We pick one of the matches in case of ambiguity; as
the right-hand sides are identical under the match substitution, the choice
does not matter.
Return the instance tycon and its type instance. For example, if we have
tcLookupFamInst 'T' '[Int]' yields (':R42T', 'Int')
then we have a coercion (ie, type instance of family instance coercion)
:Co:R42T Int :: T [Int] ~ :R42T Int
which implies that :R42T was declared as 'data instance T [a]'.
\begin{code}
tcLookupFamInst :: TyCon -> [Type] -> TcM (Maybe FamInstMatch)
tcLookupFamInst tycon tys
| not (isOpenFamilyTyCon tycon)
= return Nothing
| otherwise
= do { instEnv <- tcGetFamInstEnvs
; let mb_match = lookupFamInstEnv instEnv tycon tys
; traceTc "lookupFamInst" ((ppr tycon <+> ppr tys) $$
pprTvBndrs (varSetElems (tyVarsOfTypes tys)) $$
ppr mb_match $$ ppr instEnv)
; case mb_match of
[] -> return Nothing
(match:_)
-> return $ Just match
}
\end{code}
%************************************************************************
%* *
Extending the family instance environment
%* *
%************************************************************************
\begin{code}
tcExtendLocalFamInstEnv :: [FamInst] -> TcM a -> TcM a
tcExtendLocalFamInstEnv fam_insts thing_inside
= do { env <- getGblEnv
; (inst_env', fam_insts') <- foldlM addLocalFamInst
(tcg_fam_inst_env env, tcg_fam_insts env)
fam_insts
; let env' = env { tcg_fam_insts = fam_insts'
, tcg_fam_inst_env = inst_env' }
; setGblEnv env' thing_inside
}
addLocalFamInst :: (FamInstEnv,[FamInst]) -> FamInst -> TcM (FamInstEnv, [FamInst])
addLocalFamInst (home_fie, my_fis) fam_inst
= do { traceTc "addLocalFamInst" (ppr fam_inst)
; isGHCi <- getIsGHCi
; mod <- getModule
; traceTc "alfi" (ppr mod $$ ppr isGHCi)
; let (home_fie', my_fis')
| isGHCi = ( deleteFromFamInstEnv home_fie fam_inst
, filterOut (identicalFamInst fam_inst) my_fis)
| otherwise = (home_fie, my_fis)
; eps <- getEps
; let inst_envs = (eps_fam_inst_env eps, home_fie')
home_fie'' = extendFamInstEnv home_fie fam_inst
; no_conflict <- checkForConflicts inst_envs fam_inst
; if no_conflict then
return (home_fie'', fam_inst : my_fis')
else
return (home_fie, my_fis) }
\end{code}
%************************************************************************
%* *
Checking an instance against conflicts with an instance env
%* *
%************************************************************************
Check whether a single family instance conflicts with those in two instance
environments (one for the EPS and one for the HPT).
\begin{code}
checkForConflicts :: FamInstEnvs -> FamInst -> TcM Bool
checkForConflicts inst_envs fam_inst
= do { let conflicts = lookupFamInstEnvConflicts inst_envs fam_inst
no_conflicts = null conflicts
; traceTc "checkForConflicts" (ppr (map fim_instance conflicts) $$
ppr fam_inst $$ ppr inst_envs)
; unless no_conflicts $ conflictInstErr fam_inst conflicts
; return no_conflicts }
conflictInstErr :: FamInst -> [FamInstMatch] -> TcRn ()
conflictInstErr fam_inst conflictingMatch
| (FamInstMatch { fim_instance = confInst }) : _ <- conflictingMatch
= addFamInstsErr (ptext (sLit "Conflicting family instance declarations:"))
[fam_inst, confInst]
| otherwise
= panic "conflictInstErr"
addFamInstsErr :: SDoc -> [FamInst] -> TcRn ()
addFamInstsErr herald insts
= ASSERT( not (null insts) )
setSrcSpan srcSpan $ addErr $
hang herald
2 (vcat [ pprCoAxBranchHdr (famInstAxiom fi) 0
| fi <- sorted ])
where
getSpan = getSrcLoc . famInstAxiom
sorted = sortWith getSpan insts
fi1 = head sorted
srcSpan = coAxBranchSpan (coAxiomSingleBranch (famInstAxiom fi1))
tcGetFamInstEnvs :: TcM FamInstEnvs
tcGetFamInstEnvs
= do { eps <- getEps; env <- getGblEnv
; return (eps_fam_inst_env eps, tcg_fam_inst_env env) }
\end{code}