diff options
Diffstat (limited to '')
-rw-r--r-- | compiler/InterpreterLoops.ml | 269 |
1 files changed, 127 insertions, 142 deletions
diff --git a/compiler/InterpreterLoops.ml b/compiler/InterpreterLoops.ml index 85174aaf..cc8cdcff 100644 --- a/compiler/InterpreterLoops.ml +++ b/compiler/InterpreterLoops.ml @@ -20,15 +20,6 @@ open InterpreterExpressions (** The local logger *) let log = L.loops_log -(* TODO: some fields are actually useless *) -type cnt_thresholds = { - aid : V.AbstractionId.id; - sid : V.SymbolicValueId.id; - bid : V.BorrowId.id; - did : C.DummyVarId.id; - rid : T.RegionId.id; -} - type updt_env_kind = | AbsInLeft of V.AbstractionId.id | LoanInLeft of V.BorrowId.id @@ -1054,116 +1045,139 @@ let collapse_ctx_with_merge (loop_id : V.LoopId.id) try collapse_ctx loop_id (Some merge_funcs) old_ids ctx with ValueMatchFailure _ -> raise (Failure "Unexpected") -(*(** Apply substitutions in the first abstraction, then join the abstractions together. - - TODO: remove? - *) -let subst_join_abstractions (loop_id : V.LoopId.id) (thresh : cnt_thresholds) - (rid_map : T.RegionId.InjSubst.t) (bid_map : V.BorrowId.InjSubst.t) - (sid_map : V.SymbolicValueId.InjSubst.t) (ctx : C.eval_ctx) (abs0 : V.abs) - (abs1 : V.abs) : V.abs = - (* Apply the substitutions in the first abstraction *) - let rsubst id = - assert (T.RegionId.Ord.compare id thresh.rid >= 0); - T.RegionId.InjSubst.find_with_default id id rid_map - in - let rvsubst id = id in - let tsubst id = id in - let ssubst id = - assert (V.SymbolicValueId.Ord.compare id thresh.sid >= 0); - V.SymbolicValueId.InjSubst.find_with_default id id sid_map - in - let bsubst id = - assert (V.BorrowId.Ord.compare id thresh.bid >= 0); - V.BorrowId.InjSubst.find_with_default id id bid_map - in - let asubst id = id in - let abs0 = - Substitute.abs_subst_ids rsubst rvsubst tsubst ssubst bsubst asubst abs0 - in - - (* Merge the two abstractions *) - let abs_kind = V.Loop loop_id in - let can_end = false in -merge_abstractions abs_kind can_end None ctx abs0 abs1*) - -(* -(** Merge a borrow with the abstraction containing the associated loan, where - the abstraction must be a *loop abstraction* (we don't synthesize code during - the operation). +(** Join two contexts *) +let join_ctxs (config : C.config) (loop_id : V.LoopId.id) + (old_ids : InterpreterBorrowsCore.ctx_ids) (ctx0 : C.eval_ctx) + (ctx1 : C.eval_ctx) : ctx_or_update = + let env0 = List.rev ctx0.env in + let env1 = List.rev ctx1.env in + + (* We need to pick a context for some functions like [match_typed_values]: + the context is only used to lookup module data, so we can pick whichever + we want. + TODO: this is not very clean. Maybe we should just carry this data around. + *) + let ctx = ctx0 in - For instance: - {[ - abs'0 { mut_loan l0 } - x -> mut_borrow l0 sx + let nabs = ref [] in - ~~> + (* Explore the environments. - abs'0 {} - x -> ⊥ - ]} - *) -let merge_borrow_with_parent_loop_abs (config : C.config) (bid : V.BorrowId.id) - (ctx : C.eval_ctx) : C.eval_ctx = - (* TODO: use the function from InterpreterBorrows *) - failwith "Unimplemented" -(* (* Lookup the borrow *) - let ek = - { enter_shared_loans = false; enter_mut_borrows = false; enter_abs = false } - in - (* TODO: use [end_borrow_get_borrow]? *) - match lookup_borrow ek bid ctx with - | None -> ctx - | Some b -> failwith "Unimplemented"*) - -(** See {!merge_borrow_with_parent_loop_abs} *) -let rec merge_borrows_with_parent_loop_abs (config : C.config) - (bids : V.BorrowId.Set.t) (ctx : C.eval_ctx) : C.eval_ctx = - V.BorrowId.Set.fold - (fun id ctx -> merge_borrow_with_parent_loop_abs config id ctx) - bids ctx - *) + Note that they should have the same prefixes (they should start with + old dummy values, old abstractions and bindings which have the same ids). + Those old values and abstractions should actually be equal between the + two environments. -(* -(* TODO: we probably don't need an [match_ctx], and actually we might not use - the bounds propertly. - TODO: remove -*) -let match_ctx_with_target_old (config : C.config) (tgt_ctx : C.eval_ctx) : - cm_fun = - fun cf src_ctx -> - (* We first reorganize [ctx] so that we can match it with [tgt_ctx] *) - (* First, collect all the borrows and abstractions which are in [ctx] - and not in [tgt_ctx]: we need to end them *) - let src_ids = InterpreterBorrowsCore.compute_context_ids src_ctx in - let tgt_ids = InterpreterBorrowsCore.compute_context_ids tgt_ctx in - let bids = V.BorrowId.Set.diff src_ids.bids tgt_ids.bids in - let aids = V.AbstractionId.Set.diff src_ids.aids tgt_ids.aids in - (* End those borrows and abstractions *) - let cc = InterpreterBorrows.end_borrows config bids in - let cc = comp cc (InterpreterBorrows.end_abstractions config aids) in - (* In the target context, merge all the borrows introduced by the loop with - their parent abstractions + Rem.: this is important to make the match easy (we take care of preserving + the structure of the environments, and ending the proper borrows/abstractions, + etc.). We could also implement a more general join. *) - let tgt_ctx = - merge_borrows_with_parent_loop_abs config - (V.BorrowId.Set.diff tgt_ids.bids src_ids.bids) - tgt_ctx + let join_suffixes (env0 : C.env) (env1 : C.env) : C.env = + (* Sanity check: there are no values/abstractions which should be in the prefix *) + let check_valid (ee : C.env_elem) : unit = + match ee with + | C.Var (C.VarBinder _, _) -> + (* Variables are necessarily in the prefix *) + raise (Failure "Unreachable") + | Var (C.DummyBinder did, _) -> + assert (not (C.DummyVarId.Set.mem did old_ids.dids)) + | Abs abs -> + assert (not (V.AbstractionId.Set.mem abs.abs_id old_ids.aids)) + | Frame -> () + in + List.iter check_valid env0; + List.iter check_valid env1; + (* Concatenate the suffixes and append the abstractions introduced while + joining the prefixes *) + let absl = List.map (fun abs -> C.Abs abs) !nabs in + List.concat [ env0; env1; absl ] in - (* Replace the source context with the target context - TODO: explain - why this works *) - let cf_apply_match : cm_fun = fun cf _ -> cf tgt_ctx in - let cc = comp cc cf_apply_match in - (* Sanity check on the resulting context *) - let cc = comp_check_ctx cc Inv.check_invariants in - (* Apply and continue *) - cc cf src_ctx -*) -(** Join two contexts *) -let join_ctxs (_config : C.config) (_old_ids : InterpreterBorrowsCore.ctx_ids) - (_ctx0 : C.eval_ctx) (_ctx1 : C.eval_ctx) : ctx_or_update = - raise (Failure "Unimplemented") + let module S : MatchJoinState = struct + (* The context is only used to lookup module data: we can pick whichever we want *) + let ctx = ctx + let loop_id = loop_id + let nabs = nabs + end in + let module JM = MakeJoinMatcher (S) in + let module M = Match (JM) in + (* Rem.: this function raises exceptions *) + let rec join_prefixes (env0 : C.env) (env1 : C.env) : C.env = + match (env0, env1) with + | ( (C.Var (C.DummyBinder b0, v0) as var) :: env0', + C.Var (C.DummyBinder b1, v1) :: env1' ) -> + (* Two cases: the dummy value is an old value, in which case the bindings + must be the same and we must join their values. Otherwise, it means we + are not in the prefix anymore *) + if C.DummyVarId.Set.mem b0 old_ids.dids then ( + (* Still in the prefix: the values must match *) + assert (b0 = b1); + assert (v0 = v1); + (* Continue *) + var :: join_prefixes env0' env1') + else (* Not in the prefix anymore *) + join_suffixes env0 env1 + | C.Var (C.VarBinder b0, v0) :: env0', C.Var (C.VarBinder b1, v1) :: env1' + -> + (* Variable bindings *must* be in the prefix and consequently their + ids must be the same *) + assert (b0 = b1); + (* Match the values *) + let b = b0 in + let v = M.match_typed_values ctx v0 v1 in + let var = C.Var (C.VarBinder b, v) in + (* Continue *) + var :: join_prefixes env0' env1' + | (C.Abs abs0 as abs) :: env0', C.Abs abs1 :: env1' -> + (* Same as for the dummy values: there are two cases *) + if V.AbstractionId.Set.mem abs0.abs_id old_ids.aids then ( + (* Still in the prefix: the abstractions must be the same *) + assert (abs0 = abs1); + (* Continue *) + abs :: join_suffixes env0' env1') + else (* Not in the prefix anymore *) + join_suffixes env0 env1 + | _ -> + (* The elements don't match: we are not in the prefix anymore *) + join_suffixes env0 env1 + in + + try + let env = List.rev (join_prefixes env0 env1) in + + (* Construct the joined context - of course, the type, fun, etc. contexts + * should be the same in the two contexts *) + let { + C.type_context; + fun_context; + global_context; + type_vars; + env = _; + ended_regions = ended_regions0; + } = + ctx0 + in + let { + C.type_context = _; + fun_context = _; + global_context = _; + type_vars = _; + env = _; + ended_regions = ended_regions1; + } = + ctx1 + in + let ended_regions = T.RegionId.Set.union ended_regions0 ended_regions1 in + Ok + { + C.type_context; + fun_context; + global_context; + type_vars; + env; + ended_regions; + } + with ValueMatchFailure e -> Error e (** Join the context at the entry of the loop with the contexts upon reentry (upon reaching the [Continue] statement - the goal is to compute a fixed @@ -1195,7 +1209,7 @@ let loop_join_origin_with_continue_ctxs (config : C.config) *) let joined_ctx = ref old_ctx in let rec join_one_aux (ctx : C.eval_ctx) : unit = - match join_ctxs config old_ids !joined_ctx ctx with + match join_ctxs config loop_id old_ids !joined_ctx ctx with | Ok nctx -> joined_ctx := nctx | Error err -> let ctx = @@ -1229,28 +1243,6 @@ let loop_join_origin_with_continue_ctxs (config : C.config) (* # Return *) !joined_ctx -(* -(** Join a context at the entry of a loop with a context upon reaching - a continue in this loop. - *) -let loop_join_entry_ctx_with_continue_ctx (_ctx0 : C.eval_ctx) - (_ctx1 : C.eval_ctx) : ctx_or_update = - failwith "Unimplemented" - -(** See {!loop_join_entry_ctx_with_continue_ctx} *) -let rec loop_join_entry_ctx_with_continue_ctxs (ctx0 : C.eval_ctx) - (ctxs : C.eval_ctx list) : ctx_or_update = - match ctxs with - | [] -> Ok ctx0 - | ctx1 :: ctxs -> ( - let res = loop_join_entry_ctx_with_continue_ctx ctx0 ctx1 in - match res with - | Error _ -> - (* TODO: apply the error *) - raise (Failure "Unimplemented") - | Ok ctx0 -> loop_join_entry_ctx_with_continue_ctxs ctx0 ctxs) - *) - let compute_loop_entry_fixed_point (config : C.config) (loop_id : V.LoopId.id) (eval_loop_body : st_cm_fun) (ctx0 : C.eval_ctx) : C.eval_ctx = (* The continuation for when we exit the loop - we register the @@ -1276,13 +1268,6 @@ let compute_loop_entry_fixed_point (config : C.config) (loop_id : V.LoopId.id) raise (Failure "Nested loops are not supported for now") in (* Join the contexts at the loop entry *) - (* TODO: return result: - * - end borrows in ctx0 - * - ok: return joined env - * TODO: keep initial env somewhere? - * TODO: the returned env is an eval_ctx or smth else? - * Maybe simply keep track of existentially quantified variables? - *) let join_ctxs (ctx0 : C.eval_ctx) : C.eval_ctx = let ctx1 = loop_join_origin_with_continue_ctxs config loop_id ctx0 !ctxs in ctxs := []; |