%
+% (c) The University of Glasgow 2006
% (c) The GRASP/AQUA Project, Glasgow University, 1993-1998
%
-\section[CoreLint]{A ``lint'' pass to check for Core correctness}
+
+A ``lint'' pass to check for Core correctness
\begin{code}
module CoreLint (
#include "HsVersions.h"
import CoreSyn
-import CoreFVs ( idFreeVars )
-import CoreUtils ( findDefault, exprOkForSpeculation, coreBindsSize )
+import CoreFVs
+import CoreUtils
import Bag
-import Literal ( literalType )
-import DataCon ( dataConRepType, dataConTyCon, dataConWorkId )
-import TysWiredIn ( tupleCon )
-import Var ( Var, Id, TyVar, isCoVar, idType, tyVarKind,
- mustHaveLocalBinding, setTyVarKind, setIdType )
-import VarEnv ( lookupInScope )
+import Literal
+import DataCon
+import TysWiredIn
+import Var
+import VarEnv
import VarSet
-import Name ( getSrcLoc )
+import Name
import PprCore
-import ErrUtils ( dumpIfSet_core, ghcExit, Message, showPass,
- mkLocMessage, debugTraceMsg )
-import SrcLoc ( SrcLoc, noSrcLoc, mkSrcSpan )
-import Type ( Type, tyVarsOfType, coreEqType,
- splitFunTy_maybe, mkTyVarTys,
- splitForAllTy_maybe, splitTyConApp_maybe,
- isUnLiftedType, typeKind, mkForAllTy, mkFunTy,
- isUnboxedTupleType, isSubKind,
- substTyWith, emptyTvSubst, extendTvInScope,
- TvSubst, TvSubstEnv, mkTvSubst, setTvSubstEnv, substTy,
- extendTvSubst, composeTvSubst, substTyVarBndr, isInScope,
- getTvSubstEnv, getTvInScope, mkTyVarTy )
-import Coercion ( Coercion, coercionKind, coercionKindPredTy )
-import TyCon ( isPrimTyCon, isNewTyCon )
-import BasicTypes ( RecFlag(..), Boxity(..), isNonRec )
-import StaticFlags ( opt_PprStyle_Debug )
-import DynFlags ( DynFlags, DynFlag(..), dopt )
+import ErrUtils
+import SrcLoc
+import Type
+import Coercion
+import TyCon
+import BasicTypes
+import StaticFlags
+import DynFlags
import Outputable
#ifdef DEBUG
import Util ( notNull )
#endif
-import Maybe
-
+import Data.Maybe
\end{code}
%************************************************************************
; checkKinds tyvar arg_ty
; return (substTyWith [tyvar] [arg_ty] body) }
-lintTyApps fun_ty [] = return fun_ty
-
-lintTyApps fun_ty (arg_ty : arg_tys) =
- do { fun_ty' <- lintTyApp fun_ty arg_ty
- ; lintTyApps fun_ty' arg_tys }
-
checkKinds tyvar arg_ty
-- Arg type might be boxed for a function with an uncommitted
-- tyvar; notably this is used so that we can give
lintCoreAlt scrut_ty alt_ty alt@(DataAlt con, args, rhs)
| isNewTyCon (dataConTyCon con) = addErrL (mkNewTyDataConAltMsg scrut_ty alt)
| Just (tycon, tycon_arg_tys) <- splitTyConApp_maybe scrut_ty
- = lintBinders args $ \ args ->
-
- do { addLoc (CasePat alt) $ do
- { -- Check the pattern
+ = addLoc (CaseAlt alt) $ do
+ { -- First instantiate the universally quantified
+ -- type variables of the data constructor
+ con_payload_ty <- lintCoreArgs (dataConRepType con) (map Type tycon_arg_tys)
+
+ -- And now bring the new binders into scope
+ ; lintBinders args $ \ args -> do
+ { addLoc (CasePat alt) $ do
+ { -- Check the pattern
-- Scrutinee type must be a tycon applicn; checked by caller
-- This code is remarkably compact considering what it does!
-- NB: args must be in scope here so that the lintCoreArgs line works.
-- NB: relies on existential type args coming *after* ordinary type args
- ; con_result_ty <- lintCoreArgs (dataConRepType con)
- (map Type tycon_arg_tys ++ varsToCoreExprs args)
+ ; con_result_ty <- lintCoreArgs con_payload_ty (varsToCoreExprs args)
; checkTys con_result_ty scrut_ty (mkBadPatMsg con_result_ty scrut_ty)
}
-- Check the RHS
- ; checkAltExpr rhs alt_ty }
+ ; checkAltExpr rhs alt_ty } }
| otherwise -- Scrut-ty is wrong shape
= addErrL (mkBadAltMsg scrut_ty alt)
Bag Message -> -- Error messages so far
(Maybe a, Bag Message) } -- Result and error messages (if any)
+{- Note [Type substitution]
+ ~~~~~~~~~~~~~~~~~~~~~~~~
+Why do we need a type substitution? Consider
+ /\(a:*). \(x:a). /\(a:*). id a x
+This is ill typed, because (renaming variables) it is really
+ /\(a:*). \(x:a). /\(b:*). id b x
+Hence, when checking an application, we can't naively compare x's type
+(at its binding site) with its expected type (at a use site). So we
+rename type binders as we go, maintaining a substitution.
+
+The same substitution also supports let-type, current expressed as
+ (/\(a:*). body) ty
+Here we substitute 'ty' for 'a' in 'body', on the fly.
+-}
+
instance Monad LintM where
return x = LintM (\ loc subst errs -> (Just x, errs))
fail err = LintM (\ loc subst errs -> (Nothing, addErr subst errs (text err) loc))