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|
(* The following module defines functions to check that some invariants
* are always maintained by evaluation contexts *)
open Types
open Values
open Contexts
open Cps
open TypesUtils
open InterpreterUtils
open InterpreterBorrowsCore
open Errors
(** The local logger *)
let log = Logging.invariants_log
type borrow_info = {
loan_kind : ref_kind;
loan_in_abs : bool;
(* true if the loan was found in an abstraction *)
loan_ids : BorrowId.Set.t;
borrow_ids : BorrowId.Set.t;
}
[@@deriving show]
type outer_borrow_info = {
outer_borrow : bool;
(* true if the value is borrowed *)
outer_shared : bool; (* true if the value is borrowed as shared *)
}
let set_outer_mut (info : outer_borrow_info) : outer_borrow_info =
{ info with outer_borrow = true }
let set_outer_shared (_info : outer_borrow_info) : outer_borrow_info =
{ outer_borrow = true; outer_shared = true }
let ids_reprs_to_string (indent : string) (reprs : BorrowId.id BorrowId.Map.t) :
string =
BorrowId.Map.to_string (Some indent) BorrowId.to_string reprs
let borrows_infos_to_string (indent : string)
(infos : borrow_info BorrowId.Map.t) : string =
BorrowId.Map.to_string (Some indent) show_borrow_info infos
type borrow_kind = BMut | BShared | BReserved
(** Check that:
- loans and borrows are correctly related
- a two-phase borrow can't point to a value inside an abstraction
*)
let check_loans_borrows_relation_invariant (meta : Meta.meta) (ctx : eval_ctx) :
unit =
(* Link all the borrow ids to a representant - necessary because of shared
* borrows/loans *)
let ids_reprs : BorrowId.id BorrowId.Map.t ref = ref BorrowId.Map.empty in
(* Link all the id representants to a borrow information *)
let borrows_infos : borrow_info BorrowId.Map.t ref = ref BorrowId.Map.empty in
let context_to_string () : string =
eval_ctx_to_string ~meta:(Some meta) ctx
^ "- representants:\n"
^ ids_reprs_to_string " " !ids_reprs
^ "\n- info:\n"
^ borrows_infos_to_string " " !borrows_infos
in
(* Ignored loans - when we find an ignored loan while building the borrows_infos
* map, we register it in this list; once the borrows_infos map is completely
* built, we check that all the borrow ids of the ignored loans are in this
* map *)
let ignored_loans : (ref_kind * BorrowId.id) list ref = ref [] in
(* first, register all the loans *)
(* Some utilities to register the loans *)
let register_ignored_loan (rkind : ref_kind) (bid : BorrowId.id) : unit =
ignored_loans := (rkind, bid) :: !ignored_loans
in
let register_shared_loan (loan_in_abs : bool) (bids : BorrowId.Set.t) : unit =
let reprs = !ids_reprs in
let infos = !borrows_infos in
(* Use the first borrow id as representant *)
let repr_bid = BorrowId.Set.min_elt bids in
sanity_check __FILE__ __LINE__ (not (BorrowId.Map.mem repr_bid infos)) meta;
(* Insert the mappings to the representant *)
let reprs =
BorrowId.Set.fold
(fun bid reprs ->
sanity_check __FILE__ __LINE__ (not (BorrowId.Map.mem bid reprs)) meta;
BorrowId.Map.add bid repr_bid reprs)
bids reprs
in
(* Insert the loan info *)
let info =
{
loan_kind = RShared;
loan_in_abs;
loan_ids = bids;
borrow_ids = BorrowId.Set.empty;
}
in
let infos = BorrowId.Map.add repr_bid info infos in
(* Update *)
ids_reprs := reprs;
borrows_infos := infos
in
let register_mut_loan (loan_in_abs : bool) (bid : BorrowId.id) : unit =
let reprs = !ids_reprs in
let infos = !borrows_infos in
(* Sanity checks *)
sanity_check __FILE__ __LINE__ (not (BorrowId.Map.mem bid reprs)) meta;
sanity_check __FILE__ __LINE__ (not (BorrowId.Map.mem bid infos)) meta;
(* Add the mapping for the representant *)
let reprs = BorrowId.Map.add bid bid reprs in
(* Add the mapping for the loan info *)
let info =
{
loan_kind = RMut;
loan_in_abs;
loan_ids = BorrowId.Set.singleton bid;
borrow_ids = BorrowId.Set.empty;
}
in
let infos = BorrowId.Map.add bid info infos in
(* Update *)
ids_reprs := reprs;
borrows_infos := infos
in
let loans_visitor =
object
inherit [_] iter_eval_ctx as super
method! visit_EBinding _ binder v =
let inside_abs = false in
super#visit_EBinding inside_abs binder v
method! visit_EAbs _ abs =
let inside_abs = true in
super#visit_EAbs inside_abs abs
method! visit_loan_content inside_abs lc =
(* Register the loan *)
let _ =
match lc with
| VSharedLoan (bids, _) -> register_shared_loan inside_abs bids
| VMutLoan bid -> register_mut_loan inside_abs bid
in
(* Continue exploring *)
super#visit_loan_content inside_abs lc
method! visit_aloan_content inside_abs lc =
let _ =
match lc with
| AMutLoan (bid, _) -> register_mut_loan inside_abs bid
| ASharedLoan (bids, _, _) -> register_shared_loan inside_abs bids
| AIgnoredMutLoan (Some bid, _) -> register_ignored_loan RMut bid
| AIgnoredMutLoan (None, _)
| AIgnoredSharedLoan _
| AEndedMutLoan { given_back = _; child = _; given_back_meta = _ }
| AEndedSharedLoan (_, _)
| AEndedIgnoredMutLoan
{ given_back = _; child = _; given_back_meta = _ } ->
(* Do nothing *)
()
in
(* Continue exploring *)
super#visit_aloan_content inside_abs lc
end
in
(* Visit *)
let inside_abs = false in
loans_visitor#visit_eval_ctx inside_abs ctx;
(* Then, register all the borrows *)
(* Some utilities to register the borrows *)
let find_info (bid : BorrowId.id) : borrow_info =
(* Find the representant *)
match BorrowId.Map.find_opt bid !ids_reprs with
| Some repr_bid ->
(* Lookup the info *)
BorrowId.Map.find repr_bid !borrows_infos
| None ->
let err =
"find_info: could not find the representant of borrow "
^ BorrowId.to_string bid ^ ":\nContext:\n" ^ context_to_string ()
in
craise __FILE__ __LINE__ meta err
in
let update_info (bid : BorrowId.id) (info : borrow_info) : unit =
(* Find the representant *)
let repr_bid = BorrowId.Map.find bid !ids_reprs in
(* Update the info *)
let infos =
BorrowId.Map.update repr_bid
(fun x ->
match x with
| Some _ -> Some info
| None -> craise __FILE__ __LINE__ meta "Unreachable")
!borrows_infos
in
borrows_infos := infos
in
let register_ignored_borrow = register_ignored_loan in
let register_borrow (kind : borrow_kind) (bid : BorrowId.id) : unit =
(* Lookup the info *)
let info = find_info bid in
(* Check that the borrow kind is consistent *)
(match (info.loan_kind, kind) with
| RShared, (BShared | BReserved) | RMut, BMut -> ()
| _ -> craise __FILE__ __LINE__ meta "Invariant not satisfied");
(* A reserved borrow can't point to a value inside an abstraction *)
sanity_check __FILE__ __LINE__
(kind <> BReserved || not info.loan_in_abs)
meta;
(* Insert the borrow id *)
let borrow_ids = info.borrow_ids in
sanity_check __FILE__ __LINE__ (not (BorrowId.Set.mem bid borrow_ids)) meta;
let info = { info with borrow_ids = BorrowId.Set.add bid borrow_ids } in
(* Update the info in the map *)
update_info bid info
in
let borrows_visitor =
object
inherit [_] iter_eval_ctx as super
method! visit_abstract_shared_borrow _ asb =
match asb with
| AsbBorrow bid -> register_borrow BShared bid
| AsbProjReborrows _ -> ()
method! visit_borrow_content env bc =
(* Register the loan *)
let _ =
match bc with
| VSharedBorrow bid -> register_borrow BShared bid
| VMutBorrow (bid, _) -> register_borrow BMut bid
| VReservedMutBorrow bid -> register_borrow BReserved bid
in
(* Continue exploring *)
super#visit_borrow_content env bc
method! visit_aborrow_content env bc =
let _ =
match bc with
| AMutBorrow (bid, _) -> register_borrow BMut bid
| ASharedBorrow bid -> register_borrow BShared bid
| AIgnoredMutBorrow (Some bid, _) -> register_ignored_borrow RMut bid
| AIgnoredMutBorrow (None, _)
| AEndedMutBorrow _ | AEndedIgnoredMutBorrow _ | AEndedSharedBorrow
| AProjSharedBorrow _ ->
(* Do nothing *)
()
in
(* Continue exploring *)
super#visit_aborrow_content env bc
end
in
(* Visit *)
borrows_visitor#visit_eval_ctx () ctx;
(* Debugging *)
log#ldebug
(lazy ("\nAbout to check context invariant:\n" ^ context_to_string ()));
(* Finally, check that everything is consistant *)
(* First, check all the ignored loans are present at the proper place *)
List.iter
(fun (rkind, bid) ->
let info = find_info bid in
sanity_check __FILE__ __LINE__ (info.loan_kind = rkind) meta)
!ignored_loans;
(* Then, check the borrow infos *)
BorrowId.Map.iter
(fun _ info ->
(* Note that we can't directly compare the sets - I guess they are
* different depending on the order in which we add the elements... *)
sanity_check __FILE__ __LINE__
(BorrowId.Set.elements info.loan_ids
= BorrowId.Set.elements info.borrow_ids)
meta;
match info.loan_kind with
| RMut ->
sanity_check __FILE__ __LINE__
(BorrowId.Set.cardinal info.loan_ids = 1)
meta
| RShared -> ())
!borrows_infos
(** Check that:
- borrows/loans can't contain ⊥ or reserved mut borrows
- shared loans can't contain mutable loans
*)
let check_borrowed_values_invariant (meta : Meta.meta) (ctx : eval_ctx) : unit =
let visitor =
object
inherit [_] iter_eval_ctx as super
method! visit_VBottom info =
(* No ⊥ inside borrowed values *)
sanity_check __FILE__ __LINE__
(Config.allow_bottom_below_borrow || not info.outer_borrow)
meta
method! visit_ABottom _info =
(* ⊥ inside an abstraction is not the same as in a regular value *)
()
method! visit_loan_content info lc =
(* Update the info *)
let info =
match lc with
| VSharedLoan (_, _) -> set_outer_shared info
| VMutLoan _ ->
(* No mutable loan inside a shared loan *)
sanity_check __FILE__ __LINE__ (not info.outer_shared) meta;
set_outer_mut info
in
(* Continue exploring *)
super#visit_loan_content info lc
method! visit_borrow_content info bc =
(* Update the info *)
let info =
match bc with
| VSharedBorrow _ -> set_outer_shared info
| VReservedMutBorrow _ ->
sanity_check __FILE__ __LINE__ (not info.outer_borrow) meta;
set_outer_shared info
| VMutBorrow (_, _) -> set_outer_mut info
in
(* Continue exploring *)
super#visit_borrow_content info bc
method! visit_aloan_content info lc =
(* Update the info *)
let info =
match lc with
| AMutLoan (_, _) -> set_outer_mut info
| ASharedLoan (_, _, _) -> set_outer_shared info
| AEndedMutLoan { given_back = _; child = _; given_back_meta = _ } ->
set_outer_mut info
| AEndedSharedLoan (_, _) -> set_outer_shared info
| AIgnoredMutLoan (_, _) -> set_outer_mut info
| AEndedIgnoredMutLoan
{ given_back = _; child = _; given_back_meta = _ } ->
set_outer_mut info
| AIgnoredSharedLoan _ -> set_outer_shared info
in
(* Continue exploring *)
super#visit_aloan_content info lc
method! visit_aborrow_content info bc =
(* Update the info *)
let info =
match bc with
| AMutBorrow (_, _) -> set_outer_mut info
| ASharedBorrow _ | AEndedSharedBorrow -> set_outer_shared info
| AIgnoredMutBorrow _ | AEndedMutBorrow _ | AEndedIgnoredMutBorrow _
->
set_outer_mut info
| AProjSharedBorrow _ -> set_outer_shared info
in
(* Continue exploring *)
super#visit_aborrow_content info bc
end
in
(* Explore *)
let info = { outer_borrow = false; outer_shared = false } in
visitor#visit_eval_ctx info ctx
let check_literal_type (meta : Meta.meta) (cv : literal) (ty : literal_type) :
unit =
match (cv, ty) with
| VScalar sv, TInteger int_ty ->
sanity_check __FILE__ __LINE__ (sv.int_ty = int_ty) meta
| VBool _, TBool | VChar _, TChar -> ()
| _ -> craise __FILE__ __LINE__ meta "Erroneous typing"
let check_typing_invariant (meta : Meta.meta) (ctx : eval_ctx) : unit =
(* TODO: the type of aloans doens't make sense: they have a type
* of the shape [& (mut) T] where they should have type [T]...
* This messes a bit the type invariant checks when checking the
* children. In order to isolate the problem (for future modifications)
* we introduce this function, so that we can easily spot all the involved
* places.
* *)
let aloan_get_expected_child_type (ty : ty) : ty =
let _, ty, _ = ty_get_ref ty in
ty
in
let visitor =
object
inherit [_] iter_eval_ctx as super
method! visit_abs _ abs = super#visit_abs (Some abs) abs
method! visit_EBinding info binder v =
(* We also check that the regions are erased *)
sanity_check __FILE__ __LINE__ (ty_is_ety v.ty) meta;
super#visit_EBinding info binder v
method! visit_symbolic_value inside_abs v =
(* Check that the types have regions *)
sanity_check __FILE__ __LINE__ (ty_is_rty v.sv_ty) meta;
super#visit_symbolic_value inside_abs v
method! visit_typed_value info tv =
(* Check that the types have erased regions *)
sanity_check __FILE__ __LINE__ (ty_is_ety tv.ty) meta;
(* Check the current pair (value, type) *)
(match (tv.value, tv.ty) with
| VLiteral cv, TLiteral ty -> check_literal_type meta cv ty
(* ADT case *)
| VAdt av, TAdt (TAdtId def_id, generics) ->
(* Retrieve the definition to check the variant id, the number of
* parameters, etc. *)
let def = ctx_lookup_type_decl ctx def_id in
(* Check the number of parameters *)
sanity_check __FILE__ __LINE__
(List.length generics.regions = List.length def.generics.regions)
meta;
sanity_check __FILE__ __LINE__
(List.length generics.types = List.length def.generics.types)
meta;
(* Check that the variant id is consistent *)
(match (av.variant_id, def.kind) with
| Some variant_id, Enum variants ->
sanity_check __FILE__ __LINE__
(VariantId.to_int variant_id < List.length variants)
meta
| None, Struct _ -> ()
| _ -> craise __FILE__ __LINE__ meta "Erroneous typing");
(* Check that the field types are correct *)
let field_types =
AssociatedTypes.type_decl_get_inst_norm_field_etypes meta ctx def
av.variant_id generics
in
let fields_with_types = List.combine av.field_values field_types in
List.iter
(fun ((v, ty) : typed_value * ty) ->
sanity_check __FILE__ __LINE__ (v.ty = ty) meta)
fields_with_types
(* Tuple case *)
| VAdt av, TAdt (TTuple, generics) ->
sanity_check __FILE__ __LINE__ (generics.regions = []) meta;
sanity_check __FILE__ __LINE__ (generics.const_generics = []) meta;
sanity_check __FILE__ __LINE__ (av.variant_id = None) meta;
(* Check that the fields have the proper values - and check that there
* are as many fields as field types at the same time *)
let fields_with_types =
List.combine av.field_values generics.types
in
List.iter
(fun ((v, ty) : typed_value * ty) ->
sanity_check __FILE__ __LINE__ (v.ty = ty) meta)
fields_with_types
(* Assumed type case *)
| VAdt av, TAdt (TAssumed aty_id, generics) -> (
sanity_check __FILE__ __LINE__ (av.variant_id = None) meta;
match
( aty_id,
av.field_values,
generics.regions,
generics.types,
generics.const_generics )
with
(* Box *)
| TBox, [ inner_value ], [], [ inner_ty ], [] ->
sanity_check __FILE__ __LINE__ (inner_value.ty = inner_ty) meta
| TArray, inner_values, _, [ inner_ty ], [ cg ] ->
(* *)
sanity_check __FILE__ __LINE__
(List.for_all
(fun (v : typed_value) -> v.ty = inner_ty)
inner_values)
meta;
(* The length is necessarily concrete *)
let len =
(ValuesUtils.literal_as_scalar
(TypesUtils.const_generic_as_literal cg))
.value
in
sanity_check __FILE__ __LINE__
(Z.of_int (List.length inner_values) = len)
meta
| (TSlice | TStr), _, _, _, _ ->
craise __FILE__ __LINE__ meta "Unexpected"
| _ -> craise __FILE__ __LINE__ meta "Erroneous type")
| VBottom, _ -> (* Nothing to check *) ()
| VBorrow bc, TRef (_, ref_ty, rkind) -> (
match (bc, rkind) with
| VSharedBorrow bid, RShared | VReservedMutBorrow bid, RMut -> (
(* Lookup the borrowed value to check it has the proper type *)
let _, glc = lookup_loan meta ek_all bid ctx in
match glc with
| Concrete (VSharedLoan (_, sv))
| Abstract (ASharedLoan (_, sv, _)) ->
sanity_check __FILE__ __LINE__ (sv.ty = ref_ty) meta
| _ -> craise __FILE__ __LINE__ meta "Inconsistent context")
| VMutBorrow (_, bv), RMut ->
sanity_check __FILE__ __LINE__
((* Check that the borrowed value has the proper type *)
bv.ty = ref_ty)
meta
| _ -> craise __FILE__ __LINE__ meta "Erroneous typing")
| VLoan lc, ty -> (
match lc with
| VSharedLoan (_, sv) ->
sanity_check __FILE__ __LINE__ (sv.ty = ty) meta
| VMutLoan bid -> (
(* Lookup the borrowed value to check it has the proper type *)
let glc = lookup_borrow meta ek_all bid ctx in
match glc with
| Concrete (VMutBorrow (_, bv)) ->
sanity_check __FILE__ __LINE__ (bv.ty = ty) meta
| Abstract (AMutBorrow (_, sv)) ->
sanity_check __FILE__ __LINE__
(Substitute.erase_regions sv.ty = ty)
meta
| _ -> craise __FILE__ __LINE__ meta "Inconsistent context"))
| VSymbolic sv, ty ->
let ty' = Substitute.erase_regions sv.sv_ty in
sanity_check __FILE__ __LINE__ (ty' = ty) meta
| _ -> craise __FILE__ __LINE__ meta "Erroneous typing");
(* Continue exploring to inspect the subterms *)
super#visit_typed_value info tv
(* TODO: there is a lot of duplication with {!visit_typed_value}
* which is quite annoying. There might be a way of factorizing
* that by factorizing the definitions of value and avalue, but
* the generation of visitors then doesn't work properly (TODO:
* report that). Still, it is actually not that problematic
* because this code shouldn't change a lot in the future,
* so the cost of maintenance should be pretty low.
* *)
method! visit_typed_avalue info atv =
(* Check that the types have regions *)
sanity_check __FILE__ __LINE__ (ty_is_rty atv.ty) meta;
(* Check the current pair (value, type) *)
(match (atv.value, atv.ty) with
(* ADT case *)
| AAdt av, TAdt (TAdtId def_id, generics) ->
(* Retrieve the definition to check the variant id, the number of
* parameters, etc. *)
let def = ctx_lookup_type_decl ctx def_id in
(* Check the number of parameters *)
sanity_check __FILE__ __LINE__
(List.length generics.regions = List.length def.generics.regions)
meta;
sanity_check __FILE__ __LINE__
(List.length generics.types = List.length def.generics.types)
meta;
sanity_check __FILE__ __LINE__
(List.length generics.const_generics
= List.length def.generics.const_generics)
meta;
(* Check that the variant id is consistent *)
(match (av.variant_id, def.kind) with
| Some variant_id, Enum variants ->
sanity_check __FILE__ __LINE__
(VariantId.to_int variant_id < List.length variants)
meta
| None, Struct _ -> ()
| _ -> craise __FILE__ __LINE__ meta "Erroneous typing");
(* Check that the field types are correct *)
let field_types =
AssociatedTypes.type_decl_get_inst_norm_field_rtypes meta ctx def
av.variant_id generics
in
let fields_with_types = List.combine av.field_values field_types in
List.iter
(fun ((v, ty) : typed_avalue * ty) ->
sanity_check __FILE__ __LINE__ (v.ty = ty) meta)
fields_with_types
(* Tuple case *)
| AAdt av, TAdt (TTuple, generics) ->
sanity_check __FILE__ __LINE__ (generics.regions = []) meta;
sanity_check __FILE__ __LINE__ (generics.const_generics = []) meta;
sanity_check __FILE__ __LINE__ (av.variant_id = None) meta;
(* Check that the fields have the proper values - and check that there
* are as many fields as field types at the same time *)
let fields_with_types =
List.combine av.field_values generics.types
in
List.iter
(fun ((v, ty) : typed_avalue * ty) ->
sanity_check __FILE__ __LINE__ (v.ty = ty) meta)
fields_with_types
(* Assumed type case *)
| AAdt av, TAdt (TAssumed aty_id, generics) -> (
sanity_check __FILE__ __LINE__ (av.variant_id = None) meta;
match
( aty_id,
av.field_values,
generics.regions,
generics.types,
generics.const_generics )
with
(* Box *)
| TBox, [ boxed_value ], [], [ boxed_ty ], [] ->
sanity_check __FILE__ __LINE__ (boxed_value.ty = boxed_ty) meta
| _ -> craise __FILE__ __LINE__ meta "Erroneous type")
| ABottom, _ -> (* Nothing to check *) ()
| ABorrow bc, TRef (_, ref_ty, rkind) -> (
match (bc, rkind) with
| AMutBorrow (_, av), RMut ->
(* Check that the child value has the proper type *)
sanity_check __FILE__ __LINE__ (av.ty = ref_ty) meta
| ASharedBorrow bid, RShared -> (
(* Lookup the borrowed value to check it has the proper type *)
let _, glc = lookup_loan meta ek_all bid ctx in
match glc with
| Concrete (VSharedLoan (_, sv))
| Abstract (ASharedLoan (_, sv, _)) ->
sanity_check __FILE__ __LINE__
(sv.ty = Substitute.erase_regions ref_ty)
meta
| _ -> craise __FILE__ __LINE__ meta "Inconsistent context")
| AIgnoredMutBorrow (_opt_bid, av), RMut ->
sanity_check __FILE__ __LINE__ (av.ty = ref_ty) meta
| ( AEndedIgnoredMutBorrow { given_back; child; given_back_meta = _ },
RMut ) ->
sanity_check __FILE__ __LINE__ (given_back.ty = ref_ty) meta;
sanity_check __FILE__ __LINE__ (child.ty = ref_ty) meta
| AProjSharedBorrow _, RShared -> ()
| _ -> craise __FILE__ __LINE__ meta "Inconsistent context")
| ALoan lc, aty -> (
match lc with
| AMutLoan (bid, child_av) | AIgnoredMutLoan (Some bid, child_av)
-> (
let borrowed_aty = aloan_get_expected_child_type aty in
sanity_check __FILE__ __LINE__ (child_av.ty = borrowed_aty) meta;
(* Lookup the borrowed value to check it has the proper type *)
let glc = lookup_borrow meta ek_all bid ctx in
match glc with
| Concrete (VMutBorrow (_, bv)) ->
sanity_check __FILE__ __LINE__
(bv.ty = Substitute.erase_regions borrowed_aty)
meta
| Abstract (AMutBorrow (_, sv)) ->
sanity_check __FILE__ __LINE__
(Substitute.erase_regions sv.ty
= Substitute.erase_regions borrowed_aty)
meta
| _ -> craise __FILE__ __LINE__ meta "Inconsistent context")
| AIgnoredMutLoan (None, child_av) ->
let borrowed_aty = aloan_get_expected_child_type aty in
sanity_check __FILE__ __LINE__ (child_av.ty = borrowed_aty) meta
| ASharedLoan (_, sv, child_av) | AEndedSharedLoan (sv, child_av) ->
let borrowed_aty = aloan_get_expected_child_type aty in
sanity_check __FILE__ __LINE__
(sv.ty = Substitute.erase_regions borrowed_aty)
meta;
(* TODO: the type of aloans doesn't make sense, see above *)
sanity_check __FILE__ __LINE__ (child_av.ty = borrowed_aty) meta
| AEndedMutLoan { given_back; child; given_back_meta = _ }
| AEndedIgnoredMutLoan { given_back; child; given_back_meta = _ } ->
let borrowed_aty = aloan_get_expected_child_type aty in
sanity_check __FILE__ __LINE__
(given_back.ty = borrowed_aty)
meta;
sanity_check __FILE__ __LINE__ (child.ty = borrowed_aty) meta
| AIgnoredSharedLoan child_av ->
sanity_check __FILE__ __LINE__
(child_av.ty = aloan_get_expected_child_type aty)
meta)
| ASymbolic aproj, ty -> (
let ty1 = Substitute.erase_regions ty in
match aproj with
| AProjLoans (sv, _) ->
let ty2 = Substitute.erase_regions sv.sv_ty in
sanity_check __FILE__ __LINE__ (ty1 = ty2) meta;
(* Also check that the symbolic values contain regions of interest -
* otherwise they should have been reduced to [_] *)
let abs = Option.get info in
sanity_check __FILE__ __LINE__
(ty_has_regions_in_set abs.regions sv.sv_ty)
meta
| AProjBorrows (sv, proj_ty) ->
let ty2 = Substitute.erase_regions sv.sv_ty in
sanity_check __FILE__ __LINE__ (ty1 = ty2) meta;
(* Also check that the symbolic values contain regions of interest -
* otherwise they should have been reduced to [_] *)
let abs = Option.get info in
sanity_check __FILE__ __LINE__
(ty_has_regions_in_set abs.regions proj_ty)
meta
| AEndedProjLoans (_msv, given_back_ls) ->
List.iter
(fun (_, proj) ->
match proj with
| AProjBorrows (_sv, ty') ->
sanity_check __FILE__ __LINE__ (ty' = ty) meta
| AEndedProjBorrows _ | AIgnoredProjBorrows -> ()
| _ -> craise __FILE__ __LINE__ meta "Unexpected")
given_back_ls
| AEndedProjBorrows _ | AIgnoredProjBorrows -> ())
| AIgnored, _ -> ()
| _ ->
log#ltrace
(lazy
("Erroneous typing:" ^ "\n- raw value: " ^ show_typed_avalue atv
^ "\n- value: "
^ typed_avalue_to_string ~meta:(Some meta) ctx atv
^ "\n- type: " ^ ty_to_string ctx atv.ty));
internal_error __FILE__ __LINE__ meta);
(* Continue exploring to inspect the subterms *)
super#visit_typed_avalue info atv
end
in
visitor#visit_eval_ctx (None : abs option) ctx
type proj_borrows_info = {
abs_id : AbstractionId.id;
regions : RegionId.Set.t;
proj_ty : rty; (** The regions shouldn't be erased *)
as_shared_value : bool; (** True if the value is below a shared borrow *)
}
[@@deriving show]
type proj_loans_info = { abs_id : AbstractionId.id; regions : RegionId.Set.t }
[@@deriving show]
type sv_info = {
ty : rty; (** The regions shouldn't be erased *)
env_count : int;
aproj_borrows : proj_borrows_info list;
aproj_loans : proj_loans_info list;
}
[@@deriving show]
(** Check the invariants over the symbolic values.
- a symbolic value can't be both in proj_borrows and in the concrete env
(this is why we preemptively expand copyable symbolic values)
- if a symbolic value contains regions: there is at most one occurrence
of this value in the concrete env
- if there is an aproj_borrows in the environment, there must also be a
corresponding aproj_loans
- aproj_loans are mutually disjoint
- TODO: aproj_borrows are mutually disjoint
- the union of the aproj_loans contains the aproj_borrows applied on the
same symbolic values
*)
let check_symbolic_values (meta : Meta.meta) (ctx : eval_ctx) : unit =
(* Small utility *)
let module M = SymbolicValueId.Map in
let infos : sv_info M.t ref = ref M.empty in
let lookup_info (sv : symbolic_value) : sv_info =
match M.find_opt sv.sv_id !infos with
| Some info -> info
| None ->
{ ty = sv.sv_ty; env_count = 0; aproj_borrows = []; aproj_loans = [] }
in
let update_info (sv : symbolic_value) (info : sv_info) =
infos := M.add sv.sv_id info !infos
in
let add_env_sv (sv : symbolic_value) : unit =
let info = lookup_info sv in
let info = { info with env_count = info.env_count + 1 } in
update_info sv info
in
let add_aproj_borrows (sv : symbolic_value) abs_id regions proj_ty
as_shared_value : unit =
let info = lookup_info sv in
let binfo = { abs_id; regions; proj_ty; as_shared_value } in
let info = { info with aproj_borrows = binfo :: info.aproj_borrows } in
update_info sv info
in
let add_aproj_loans (sv : symbolic_value) abs_id regions : unit =
let info = lookup_info sv in
let linfo = { abs_id; regions } in
let info = { info with aproj_loans = linfo :: info.aproj_loans } in
update_info sv info
in
(* Visitor *)
let obj =
object
inherit [_] iter_eval_ctx as super
method! visit_abs _ abs = super#visit_abs (Some abs) abs
method! visit_VSymbolic _ sv = add_env_sv sv
method! visit_abstract_shared_borrow abs asb =
let abs = Option.get abs in
match asb with
| AsbBorrow _ -> ()
| AsbProjReborrows (sv, proj_ty) ->
add_aproj_borrows sv abs.abs_id abs.regions proj_ty true
method! visit_aproj abs aproj =
(let abs = Option.get abs in
match aproj with
| AProjLoans (sv, _) -> add_aproj_loans sv abs.abs_id abs.regions
| AProjBorrows (sv, proj_ty) ->
add_aproj_borrows sv abs.abs_id abs.regions proj_ty false
| AEndedProjLoans _ | AEndedProjBorrows _ | AIgnoredProjBorrows -> ());
super#visit_aproj abs aproj
end
in
(* Collect the information *)
obj#visit_eval_ctx None ctx;
log#ldebug
(lazy
("check_symbolic_values: collected information:\n"
^ SymbolicValueId.Map.to_string (Some " ") show_sv_info !infos));
(* Check *)
let check_info _id info =
(* TODO: check that:
* - the borrows are mutually disjoint
*)
(* A symbolic value can't be both in the regular environment and inside
* projectors of borrows in abstractions *)
sanity_check __FILE__ __LINE__
(info.env_count = 0 || info.aproj_borrows = [])
meta;
(* A symbolic value containing borrows can't be duplicated (i.e., copied):
* it must be expanded first *)
if ty_has_borrows ctx.type_ctx.type_infos info.ty then
sanity_check __FILE__ __LINE__ (info.env_count <= 1) meta;
(* A duplicated symbolic value is necessarily primitively copyable *)
sanity_check __FILE__ __LINE__
(info.env_count <= 1 || ty_is_primitively_copyable info.ty)
meta;
sanity_check __FILE__ __LINE__
(info.aproj_borrows = [] || info.aproj_loans <> [])
meta;
(* At the same time:
* - check that the loans don't intersect
* - compute the set of regions for which we project loans
*)
(* Check that the loan projectors contain the region projectors *)
let loan_regions =
List.fold_left
(fun regions linfo ->
let regions =
RegionId.Set.fold
(fun rid regions ->
sanity_check __FILE__ __LINE__
(not (RegionId.Set.mem rid regions))
meta;
RegionId.Set.add rid regions)
regions linfo.regions
in
regions)
RegionId.Set.empty info.aproj_loans
in
(* Check that the union of the loan projectors contains the borrow projections. *)
List.iter
(fun binfo ->
sanity_check __FILE__ __LINE__
(projection_contains meta info.ty loan_regions binfo.proj_ty
binfo.regions)
meta)
info.aproj_borrows;
()
in
M.iter check_info !infos
let check_invariants (meta : Meta.meta) (ctx : eval_ctx) : unit =
if !Config.sanity_checks then (
log#ldebug
(lazy
("Checking invariants:\n" ^ eval_ctx_to_string ~meta:(Some meta) ctx));
check_loans_borrows_relation_invariant meta ctx;
check_borrowed_values_invariant meta ctx;
check_typing_invariant meta ctx;
check_symbolic_values meta ctx)
else log#ldebug (lazy "Not checking invariants (check is not activated)")
(** Same as {!check_invariants}, but written in CPS *)
let cf_check_invariants (meta : Meta.meta) : cm_fun =
fun cf ctx ->
check_invariants meta ctx;
cf ctx
|