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authorSon Ho2021-12-17 15:30:52 +0100
committerSon Ho2021-12-17 15:30:52 +0100
commitadbbaf5d6e241808c79dbef4f736dbadc562a173 (patch)
tree308449abbda0ac34fda1ef45f3317fb1f88c5810
parent597305ceaaebd7c37f767aa695fd9455dafd26cc (diff)
Make progress on apply_proj_borrows
Diffstat (limited to '')
-rw-r--r--src/Interpreter.ml76
1 files changed, 59 insertions, 17 deletions
diff --git a/src/Interpreter.ml b/src/Interpreter.ml
index 9555b0ca..708b1632 100644
--- a/src/Interpreter.ml
+++ b/src/Interpreter.ml
@@ -577,6 +577,11 @@ type outer_borrows_or_abs =
exception FoundOuter of outer_borrows_or_abs
(** Utility exception *)
+(** Check if a region is in a set of regions *)
+let region_in_set (r : T.RegionId.id T.region) (rset : T.RegionId.set_t) : bool
+ =
+ match r with T.Static -> false | T.Var id -> T.RegionId.Set.mem id rset
+
(** Check if two different projections intersect. This is necessary when
giving a symbolic value to an abstraction: we need to check that
the regions which are already ended inside the abstraction don't
@@ -586,10 +591,6 @@ exception FoundOuter of outer_borrows_or_abs
*)
let rec projections_intersect (ty1 : T.rty) (rset1 : T.RegionId.set_t)
(ty2 : T.rty) (rset2 : T.RegionId.set_t) : bool =
- let region_in_set (r : T.RegionId.id T.region) (rset : T.RegionId.set_t) :
- bool =
- match r with T.Static -> false | T.Var id -> T.RegionId.Set.mem id rset
- in
match (ty1, ty2) with
| T.Bool, T.Bool | T.Char, T.Char | T.Str, T.Str -> false
| T.Integer int_ty1, T.Integer int_ty2 ->
@@ -631,25 +632,66 @@ let rec projections_intersect (ty1 : T.rty) (rset1 : T.RegionId.set_t)
map borrows to regions - or to interpret the borrows as belonging
to some regions...)
*)
-let apply_proj_borrows (regions : T.RegionId.set_t) (v : V.typed_value)
+let rec apply_proj_borrows (regions : T.RegionId.set_t) (v : V.typed_value)
(ty : T.rty) : V.typed_avalue =
(* Sanity check - TODO: move this elsewhere (here we perform the check at every
* recursive call which is a bit overkill...) *)
let ety = Substitute.erase_regions ty in
assert (ety = v.V.ty);
(* Match *)
- match (v.V.value, ty) with
- | V.Concrete cv, (T.Bool | T.Char | T.Integer _ | T.Str) ->
- raise Unimplemented
- | V.Adt v, T.Adt (id, regions, tys) -> raise Unimplemented
- | V.Bottom, _ -> failwith "Unreachable"
- | V.Borrow bc, _ -> raise Unimplemented
- | V.Loan lc, _ -> failwith "Unreachable"
- | V.Symbolic s, _ ->
- (* Check that the symbolic value doesn't contain already ended regions *)
- raise Unimplemented;
- { V.value = V.ASymbolic (V.AProjBorrows (s.V.svalue, ty)); V.ty }
- | _ -> failwith "Unreachable" raise Unimplemented
+ let value : V.avalue =
+ match (v.V.value, ty) with
+ | V.Concrete cv, (T.Bool | T.Char | T.Integer _ | T.Str) -> V.AConcrete cv
+ | V.Adt v, T.Adt (id, regions, tys) -> raise Unimplemented
+ | V.Bottom, _ -> failwith "Unreachable"
+ | V.Borrow bc, T.Ref (r, ref_ty, kind) ->
+ if
+ (* Check if the region is in the set of projected regions (note that
+ * we never project over static regions) *)
+ region_in_set r regions
+ then
+ (* In the set *)
+ let bc =
+ match (bc, kind) with
+ | V.MutBorrow (bid, bv), T.Mut ->
+ (* Apply the projection on the borrowed value *)
+ let bv = apply_proj_borrows regions bv ref_ty in
+ V.AMutBorrow (bid, bv)
+ | V.SharedBorrow bid, T.Shared -> V.ASharedBorrow bid
+ | V.InactivatedMutBorrow _, _ ->
+ failwith
+ "Can't apply a proj_borrow over an inactivated mutable borrow"
+ | _ -> failwith "Unreachable"
+ in
+ V.ABorrow bc
+ else
+ (* Not in the set: ignore *)
+ let bc =
+ match (bc, kind) with
+ | V.MutBorrow (bid, bv), T.Mut ->
+ (* Apply the projection on the borrowed value *)
+ let bv = apply_proj_borrows regions bv ref_ty in
+ V.AIgnoredMutBorrow bv
+ | V.SharedBorrow bid, T.Shared ->
+ (* TODO *)
+ raise Unimplemented
+ (* V.AIgnoredSharedBorrow bid*)
+ | V.InactivatedMutBorrow _, _ ->
+ failwith
+ "Can't apply a proj_borrow over an inactivated mutable borrow"
+ | _ -> failwith "Unreachable"
+ in
+ V.ABorrow bc
+ | V.Loan lc, _ -> failwith "Unreachable"
+ | V.Symbolic s, _ ->
+ (* Check that the symbolic value doesn't contain already ended regions *)
+ assert (
+ not
+ (projections_intersect s.V.svalue.V.sv_ty s.V.rset_ended ty regions));
+ V.ASymbolic (V.AProjBorrows (s.V.svalue, ty))
+ | _ -> failwith "Unreachable"
+ in
+ { V.value; V.ty }
(** Auxiliary function to end borrows: lookup a borrow in the environment,
update it (by returning an updated environment where the borrow has been