* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
-*)
+ *)
(* Domtool configuration language type checking *)
structure Tycheck :> TYCHECK = struct
-open Ast Print
+open Ast Print Env
-structure SS = StringSet
structure SM = StringMap
-type env = SS.set * typ SM.map
-val empty : env = (SS.add (SS.singleton "int", "string"),
- SM.empty)
-
-fun lookupType (ts, _) name = SS.member (ts, name)
-fun lookupVal (_, vs) name = SM.find (vs, name)
-
-fun bindType (ts, vs) name = (SS.add (ts, name), vs)
-fun bindVal (ts, vs) (name, t) = (ts, SM.insert (vs, name, t))
-
local
val unifCount = ref 0
in
andalso eqRecord eqTy (r1, r2)
| (TNested (p1, q1), TNested (p2, q2)) =>
- eqPred (p1, p2) andalso eqPred (q1, q2)
+ eqPred (p1, p2) andalso eqTy (q1, q2)
| (TUnif (_, ref (SOME t1)), _) => eqTy (t1, t2All)
| (_, TUnif (_, ref (SOME t2))) => eqTy (t1All, t2)
| UnboundVariable of string
| WrongPred of string * pred * pred
-fun preface (s, d) = printd (PD.hovBox (PD.PPS.Rel 0,
- [PD.string s, PD.space 1, d]))
-
fun describe_unification_error t ue =
case ue of
UnifyPred (p1, p2) =>
fun predImplies (p1All as (p1, _), p2All as (p2, _)) =
case (p1, p2) of
- (_, CPrefix (CRoot, _)) => true
+ (_, CAnd (p1, p2)) => predImplies (p1All, p1) andalso predImplies (p1All, p2)
+ | (CAnd (p1, p2), _) => predImplies (p1, p2All) orelse predImplies (p2, p2All)
+
+ | (_, CPrefix (CRoot, _)) => true
| (CNot (CPrefix (CRoot, _), _), _) => true
| (CRoot, CRoot) => true
| (CNot p1, CNot p2) => predImplies (p2, p1)
- | (_, CAnd (p1, p2)) => predImplies (p1All, p1) andalso predImplies (p1All, p2)
- | (CAnd (p1, p2), _) => predImplies (p1, p2All) orelse predImplies (p2, p2All)
-
| _ => false
fun predSimpl (pAll as (p, loc)) =
(CAnd (c1, c2), _) => predSimpl (CAnd (c1, (CAnd (c2, p2'), loc)), loc)
| _ => if predImplies (p2', p1') then
p2'
+ else if predImplies (p1', p2') then
+ p1'
else
(CAnd (p1', p2'), loc)
end
| TAction (_, d, r) =>
List.exists (occurs u) (SM.listItems d)
orelse List.exists (occurs u) (SM.listItems r)
- | TNested _ => false
+ | TNested (_, t) => occurs u t
| TError => false
| TUnif (_, ref (SOME t)) => occurs u t
| TUnif (_, u') => u = u'
| (TNested (d1, r1), TNested (d2, r2)) =>
(subPred (d2, d1);
- subPred (r1, r2))
+ subTyp (r1, r2))
| (TUnif (_, ref (SOME t1)), _) => subTyp (t1, t2All)
| (_, TUnif (_, ref (SOME t2))) => subTyp (t1All, t2)
TUnif (_, ref (SOME tAll)) => whnorm tAll
| _ => tAll
+fun baseCondition t =
+ case whnorm t of
+ (TBase name, _) => typeRule name
+ | (TList t, _) =>
+ (case baseCondition t of
+ NONE => NONE
+ | SOME f => SOME (fn (EList ls, _) => List.all f ls
+ | _ => false))
+ | _ => NONE
+
+fun hasTyp (e, t1, t2) =
+ if (case baseCondition t2 of
+ NONE => false
+ | SOME rule => rule e) then
+ ()
+ else
+ subTyp (t1, t2)
+
+fun checkPred G (p, loc) =
+ let
+ val err = ErrorMsg.error (SOME loc)
+ in
+ case p of
+ CRoot => ()
+ | CConst s =>
+ if lookupContext G s then
+ ()
+ else
+ err ("Unbound context " ^ s)
+ | CPrefix p => checkPred G p
+ | CNot p => checkPred G p
+ | CAnd (p1, p2) => (checkPred G p1; checkPred G p2)
+ end
+
fun checkTyp G (tAll as (t, loc)) =
let
val err = ErrorMsg.error (SOME loc)
(TError, loc))
| TList t => (TList (checkTyp G t), loc)
| TArrow (d, r) => (TArrow (checkTyp G d, checkTyp G r), loc)
- | TAction (p, d, r) => (TAction (p, SM.map (checkTyp G) d,
- SM.map (checkTyp G) r), loc)
- | TNested _ => tAll
+ | TAction (p, d, r) => (checkPred G p;
+ (TAction (p, SM.map (checkTyp G) d,
+ SM.map (checkTyp G) r), loc))
+ | TNested (p, t) => (checkPred G p;
+ (TNested (p, checkTyp G t), loc))
| TError => raise Fail "TError in parser-generated type"
| TUnif _ => raise Fail "TUnif in parser-generated type"
end
+fun envVarSetFrom v (e, _) =
+ case e of
+ ESet (v', e) =>
+ if v = v' then
+ SOME e
+ else
+ NONE
+ | EGet (_, _, e) => envVarSetFrom v e
+ | ESeq es => foldr (fn (e, found) =>
+ case found of
+ SOME _ => found
+ | NONE => envVarSetFrom v e)
+ NONE es
+ | ELocal (_, e) => envVarSetFrom v e
+
+ | _ => NONE
+
fun checkExp G (eAll as (e, loc)) =
let
val dte = describe_type_error loc
let
val t' = checkExp G e'
in
- (subTyp (t', t);
+ (hasTyp (eAll, t', t);
if isError t' then
(TList (TError, loc), loc)
else
NONE => (newUnif (), loc)
| SOME t => checkTyp G t
- val G' = bindVal G (x, t)
+ val G' = bindVal G (x, t, NONE)
val t' = checkExp G' e
in
(TArrow (t, t'), loc)
val tf = checkExp G func
val ta = checkExp G arg
in
- (subTyp (tf, (TArrow (dom, ran), loc));
- subTyp (ta, dom)
+ (hasTyp (func, tf, (TArrow (dom, ran), loc));
+ hasTyp (arg, ta, dom)
handle Unify ue =>
dte (WrongType ("Function argument",
arg,
| EGet (x, evar, rest) =>
let
val xt = (newUnif (), loc)
- val G' = bindVal G (x, xt)
+ val G' = bindVal G (x, xt, NONE)
val rt = whnorm (checkExp G' rest)
in
(case SM.find (d', name) of
NONE => SM.insert (d', name, t)
| SOME t' =>
- (subTyp (t, t')
+ ((case envVarSetFrom name e1 of
+ NONE => subTyp (t, t')
+ | SOME e => hasTyp (e, t, t'))
handle Unify ue =>
dte (WrongType ("Shared environment variable",
(EVar name, loc),
- t,
t',
+ t,
SOME ue));
d'))
| SOME t' =>
- (subTyp (t, t')
+ ((case envVarSetFrom name e1 of
+ NONE => subTyp (t, t')
+ | SOME e => hasTyp (e, t, t'))
handle Unify ue =>
dte (WrongType ("Shared environment variable",
(EVar name, loc),
- t,
t',
+ t,
SOME ue));
d'))
d1 d2
(TError, loc))
end
- | ELocal e =>
+ | ELocal (e1, e2) =>
let
- val rt = whnorm (checkExp G e)
+ val t1 = whnorm (checkExp G e1)
+ val t2 = whnorm (checkExp G e2)
in
- case rt of
- (TAction (p, d, _), _) =>
- (TAction (p, d, SM.empty), loc)
- | (TError, _) => rt
- | _ => (dte (WrongForm ("Body of local action",
+ case t1 of
+ (TAction (p1, d1, r1), _) =>
+ (case t2 of
+ (TAction (p2, d2, r2), _) =>
+ let
+ val p' = predSimpl (CAnd (p1, p2), loc)
+
+ val d' = SM.foldli (fn (name, t, d') =>
+ case SM.find (r1, name) of
+ NONE =>
+ (case SM.find (d', name) of
+ NONE => SM.insert (d', name, t)
+ | SOME t' =>
+ ((case envVarSetFrom name e1 of
+ NONE => subTyp (t', t)
+ | SOME e => hasTyp (e, t', t))
+ handle Unify ue =>
+ dte (WrongType ("Shared environment variable",
+ (EVar name, loc),
+ t',
+ t,
+ SOME ue));
+ d'))
+ | SOME t' =>
+ ((case envVarSetFrom name e1 of
+ NONE => subTyp (t', t)
+ | SOME e => hasTyp (e, t', t))
+ handle Unify ue =>
+ dte (WrongType ("Shared environment variable",
+ (EVar name, loc),
+ t',
+ t,
+ SOME ue));
+ d'))
+ d1 d2
+ in
+ (TAction (p', d', r2), loc)
+ end
+ | (TError, _) => t2
+ | _ => (dte (WrongForm ("Action to be sequenced",
+ "action",
+ e2,
+ t2,
+ NONE));
+ (TError, loc)))
+ | (TError, _) => t1
+ | _ => (dte (WrongForm ("Action to be sequenced",
"action",
- e,
- rt,
+ e1,
+ t1,
NONE));
(TError, loc))
end
+
| EWith (e1, e2) =>
let
val t1 = whnorm (checkExp G e1)
val t2 = whnorm (checkExp G e2)
in
case t1 of
- (TNested (pd, pr), _) =>
+ (TNested (pd, (TAction (pr, d1, r1), _)), _) =>
(case t2 of
(TAction (p, d, r), _) =>
if predImplies (pd, p) then
- (TAction (pr, d, r), loc)
+ let
+ val combineRecs =
+ SM.unionWithi (fn (name, t1, t2) =>
+ (subTyp (t1, t2)
+ handle Unify ue =>
+ dte (WrongType ("Environment variable",
+ (EVar name, loc),
+ t1,
+ t2,
+ SOME ue));
+ t2))
+ in
+ (TAction (pr, combineRecs (d, d1),
+ combineRecs (r, r1)), loc)
+ end
else
(dte (WrongPred ("nested action",
pd,
fun checkDecl G (d, _, loc) =
case d of
DExternType name => bindType G name
- | DExternVal (name, t) => bindVal G (name, checkTyp G t)
+ | DExternVal (name, t) => bindVal G (name, checkTyp G t, NONE)
+ | DVal (name, to, e) =>
+ let
+ val to =
+ case to of
+ NONE => (newUnif (), loc)
+ | SOME to => checkTyp G to
+
+ val t = checkExp G e
+ in
+ hasTyp (e, t, to)
+ handle Unify ue =>
+ describe_type_error loc
+ (WrongType ("Bound value",
+ e,
+ t,
+ to,
+ SOME ue));
+ bindVal G (name, to, SOME e)
+ end
+ | DContext name => bindContext G name
-fun checkFile G tInit (ds, eo) =
+fun checkFile G tInit (_, ds, eo) =
let
val G' = foldl (fn (d, G) => checkDecl G d) G ds
in
let
val t = checkExp G' e
in
- subTyp (t, tInit)
+ hasTyp (e, t, tInit)
handle Unify ue =>
(ErrorMsg.error (SOME loc) "Bad type for final expression of source file.";
preface ("Actual:", p_typ t);