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-rw-r--r--compiler/InterpreterLoops.ml77
1 files changed, 18 insertions, 59 deletions
diff --git a/compiler/InterpreterLoops.ml b/compiler/InterpreterLoops.ml
index 1c1ae0bc..d5d6fa7e 100644
--- a/compiler/InterpreterLoops.ml
+++ b/compiler/InterpreterLoops.ml
@@ -2659,7 +2659,6 @@ let compute_loop_entry_fixed_point (config : C.config) (loop_id : V.LoopId.id)
environments upon loop *reentry*, and synthesize nothing by
returning [None]
*)
- let ctx_upon_entry = ref None in
let ctxs = ref [] in
let register_ctx ctx = ctxs := ctx :: !ctxs in
@@ -2708,7 +2707,6 @@ let compute_loop_entry_fixed_point (config : C.config) (loop_id : V.LoopId.id)
(* Join the contexts at the loop entry - ctx1 is the current joined
context (the context at the loop entry, after we called
{!prepare_ashared_loans}, if this is the first iteration) *)
- (* TODO: ctx_upon_entry is useless, it should be ctx0? *)
let join_ctxs (ctx1 : C.eval_ctx) : C.eval_ctx =
(* If this is the first iteration, end the borrows/loans/abs which
appear in ctx1 and not in the other contexts, then compute the
@@ -2747,33 +2745,33 @@ let compute_loop_entry_fixed_point (config : C.config) (loop_id : V.LoopId.id)
in
let fixed_ids = Option.get !fixed_ids in
- let (ctx1', _), ctx2 =
+ let (_, _), ctx2 =
loop_join_origin_with_continue_ctxs config loop_id fixed_ids ctx1 !ctxs
in
ctxs := [];
- if !ctx_upon_entry = None then ctx_upon_entry := Some ctx1';
ctx2
in
- (* Check if two contexts are equivalent - modulo alpha conversion on the
- existentially quantified borrows/abstractions/symbolic values.
- *)
- let compute_fixed_ids (ctx1 : C.eval_ctx) (ctx2 : C.eval_ctx) : ids_sets =
- (* Compute the set of fixed ids - for the symbolic ids, we compute the
- intersection of ids between the original environment and [ctx1]
- and [ctx2] *)
+ (* Compute the set of fixed ids - for the symbolic ids, we compute the
+ intersection of ids between the original environment and the list
+ of new environments *)
+ let compute_fixed_ids (ctxl : C.eval_ctx list) : ids_sets =
let fixed_ids, _ = compute_context_ids ctx0 in
let { aids; blids; borrow_ids; loan_ids; dids; rids; sids } = fixed_ids in
- let fixed_ids1, _ = compute_context_ids ctx1 in
- let fixed_ids2, _ = compute_context_ids ctx2 in
- let sids =
- V.SymbolicValueId.Set.inter sids
- (V.SymbolicValueId.Set.inter fixed_ids1.sids fixed_ids2.sids)
- in
+ let sids = ref sids in
+ List.iter
+ (fun ctx ->
+ let fixed_ids, _ = compute_context_ids ctx in
+ sids := V.SymbolicValueId.Set.inter !sids fixed_ids.sids)
+ ctxl;
+ let sids = !sids in
let fixed_ids = { aids; blids; borrow_ids; loan_ids; dids; rids; sids } in
fixed_ids
in
+ (* Check if two contexts are equivalent - modulo alpha conversion on the
+ existentially quantified borrows/abstractions/symbolic values.
+ *)
let equiv_ctxs (ctx1 : C.eval_ctx) (ctx2 : C.eval_ctx) : bool =
- let fixed_ids = compute_fixed_ids ctx1 ctx2 in
+ let fixed_ids = compute_fixed_ids [ ctx1; ctx2 ] in
let check_equivalent = true in
let lookup_shared_value _ = raise (Failure "Unreachable") in
Option.is_some
@@ -3025,7 +3023,7 @@ let compute_loop_entry_fixed_point (config : C.config) (loop_id : V.LoopId.id)
(* Return *)
fp
in
- let fixed_ids = compute_fixed_ids (Option.get !ctx_upon_entry) fp in
+ let fixed_ids = compute_fixed_ids [ fp ] in
(* Return *)
(fp, fixed_ids)
@@ -3461,44 +3459,6 @@ let match_ctx_with_target (config : C.config) (loop_id : V.LoopId.id)
context, which results from joins during which we ended the loans which
were introduced during the loop iterations)
*)
- (* End the borrows in the dummy values - TODO: is this useful? *)
- let rec cf_reorganize_dummy_tgt : cm_fun =
- fun cf tgt_ctx ->
- (* Collect the dummy values in the target context *)
- let _, _, tgt_dummies = ctx_split_fixed_new fixed_ids tgt_ctx in
-
- (* Whenever we find a borrow which can be ended (doesn't contain loans)
- we end it *)
- let bid = ref None in
- try
- let visitor =
- object
- inherit [_] V.iter_typed_value
-
- method! visit_SharedBorrow _ l =
- bid := Some l;
- raise Utils.Found
-
- method! visit_MutBorrow _ l v =
- if not (value_has_loans v.value) then (
- bid := Some l;
- raise Utils.Found)
- else ()
- end
- in
- List.iter (visitor#visit_typed_value ()) tgt_dummies;
-
- log#ldebug
- (lazy
- ("match_ctx_with_target: after reorganizing dummies:\n"
- ^ "\n- fixed_ids: " ^ show_ids_sets fixed_ids ^ "\n" ^ "\n- tgt_ctx: "
- ^ eval_ctx_to_string tgt_ctx));
-
- cf tgt_ctx
- with Utils.Found ->
- let cc = InterpreterBorrows.end_borrow config (Option.get !bid) in
- comp cc cf_reorganize_dummy_tgt cf tgt_ctx
- in
(* End the loans which lead to mismatches when joining *)
let rec cf_reorganize_join_tgt : cm_fun =
fun cf tgt_ctx ->
@@ -3803,8 +3763,7 @@ let match_ctx_with_target (config : C.config) (loop_id : V.LoopId.id)
in
(* Compose and continue *)
- comp cf_reorganize_dummy_tgt cf_reorganize_join_tgt cf_introduce_loop_fp_abs
- tgt_ctx
+ cf_reorganize_join_tgt cf_introduce_loop_fp_abs tgt_ctx
(** Evaluate a loop in concrete mode *)
let eval_loop_concrete (eval_loop_body : st_cm_fun) : st_cm_fun =