diff options
Diffstat (limited to '')
| -rw-r--r-- | compiler/Assumed.ml | 144 |
1 files changed, 64 insertions, 80 deletions
diff --git a/compiler/Assumed.ml b/compiler/Assumed.ml index 79f6b0d4..48b7ee2b 100644 --- a/compiler/Assumed.ml +++ b/compiler/Assumed.ml @@ -29,59 +29,57 @@ ]} *) -open Names +open Types open TypesUtils -module T = Types -module A = LlbcAst +open LlbcAst module Sig = struct (** A few utilities *) - let rvar_id_0 = T.RegionVarId.of_int 0 - let rvar_0 : T.RegionVarId.id T.region = T.Var rvar_id_0 - let rg_id_0 = T.RegionGroupId.of_int 0 - let tvar_id_0 = T.TypeVarId.of_int 0 - let tvar_0 : T.sty = T.TypeVar tvar_id_0 - let cgvar_id_0 = T.ConstGenericVarId.of_int 0 - let cgvar_0 : T.const_generic = T.ConstGenericVar cgvar_id_0 + let rvar_id_0 = RegionId.of_int 0 + let rvar_0 : region = RVar rvar_id_0 + let rg_id_0 = RegionGroupId.of_int 0 + let tvar_id_0 = TypeVarId.of_int 0 + let tvar_0 : ty = TVar tvar_id_0 + let cgvar_id_0 = ConstGenericVarId.of_int 0 + let cgvar_0 : const_generic = CgVar cgvar_id_0 (** Region 'a of id 0 *) - let region_param_0 : T.region_var = { T.index = rvar_id_0; name = Some "'a" } + let region_param_0 : region_var = { index = rvar_id_0; name = Some "'a" } (** Region group: [{ parent={}; regions:{'a of id 0} }] *) - let region_group_0 : T.region_var_group = - { T.id = rg_id_0; regions = [ rvar_id_0 ]; parents = [] } + let region_group_0 : region_group = + { id = rg_id_0; regions = [ rvar_id_0 ]; parents = [] } (** Type parameter [T] of id 0 *) - let type_param_0 : T.type_var = { T.index = tvar_id_0; name = "T" } + let type_param_0 : type_var = { index = tvar_id_0; name = "T" } - let usize_ty : T.sty = T.Literal (Integer Usize) + let usize_ty : ty = TLiteral (TInteger Usize) (** Const generic parameter [const N : usize] of id 0 *) - let cg_param_0 : T.const_generic_var = - { T.index = cgvar_id_0; name = "N"; ty = Integer Usize } + let cg_param_0 : const_generic_var = + { index = cgvar_id_0; name = "N"; ty = TInteger Usize } - let empty_const_generic_params : T.const_generic_var list = [] + let empty_const_generic_params : const_generic_var list = [] - let mk_generic_args regions types const_generics : T.sgeneric_args = + let mk_generic_args regions types const_generics : generic_args = { regions; types; const_generics; trait_refs = [] } - let mk_generic_params regions types const_generics : T.generic_params = + let mk_generic_params regions types const_generics : generic_params = { regions; types; const_generics; trait_clauses = [] } - let mk_ref_ty (r : T.RegionVarId.id T.region) (ty : T.sty) (is_mut : bool) : - T.sty = - let ref_kind = if is_mut then T.Mut else T.Shared in + let mk_ref_ty (r : region) (ty : ty) (is_mut : bool) : ty = + let ref_kind = if is_mut then RMut else RShared in mk_ref_ty r ty ref_kind - let mk_array_ty (ty : T.sty) (cg : T.const_generic) : T.sty = - Adt (Assumed Array, mk_generic_args [] [ ty ] [ cg ]) + let mk_array_ty (ty : ty) (cg : const_generic) : ty = + TAdt (TAssumed TArray, mk_generic_args [] [ ty ] [ cg ]) - let mk_slice_ty (ty : T.sty) : T.sty = - Adt (Assumed Slice, mk_generic_args [] [ ty ] []) + let mk_slice_ty (ty : ty) : ty = + TAdt (TAssumed TSlice, mk_generic_args [] [ ty ] []) - let mk_sig generics regions_hierarchy inputs output : A.fun_sig = - let preds : T.predicates = + let mk_sig generics inputs output : fun_sig = + let preds : predicates = { regions_outlive = []; types_outlive = []; trait_type_constraints = [] } in { @@ -89,26 +87,23 @@ module Sig = struct generics; preds; parent_params_info = None; - regions_hierarchy; inputs; output; } (** [fn<T>(T) -> Box<T>] *) - let box_new_sig : A.fun_sig = + let box_new_sig : fun_sig = let generics = mk_generic_params [] [ type_param_0 ] [] (* <T> *) in - let regions_hierarchy = [] in let inputs = [ tvar_0 (* T *) ] in let output = mk_box_ty tvar_0 (* Box<T> *) in - mk_sig generics regions_hierarchy inputs output + mk_sig generics inputs output (** [fn<T>(Box<T>) -> ()] *) - let box_free_sig : A.fun_sig = + let box_free_sig : fun_sig = let generics = mk_generic_params [] [ type_param_0 ] [] (* <T> *) in - let regions_hierarchy = [] in let inputs = [ mk_box_ty tvar_0 (* Box<T> *) ] in let output = mk_unit_ty (* () *) in - mk_sig generics regions_hierarchy inputs output + mk_sig generics inputs output (** Array/slice functions *) @@ -124,13 +119,12 @@ module Sig = struct The [mut_borrow] boolean controls whether we use a shared or a mutable borrow. *) - let mk_array_slice_borrow_sig (cgs : T.const_generic_var list) - (input_ty : T.TypeVarId.id -> T.sty) (index_ty : T.sty option) - (output_ty : T.TypeVarId.id -> T.sty) (is_mut : bool) : A.fun_sig = + let mk_array_slice_borrow_sig (cgs : const_generic_var list) + (input_ty : TypeVarId.id -> ty) (index_ty : ty option) + (output_ty : TypeVarId.id -> ty) (is_mut : bool) : fun_sig = let generics = mk_generic_params [ region_param_0 ] [ type_param_0 ] cgs (* <'a, T> *) in - let regions_hierarchy = [ region_group_0 ] (* <'a> *) in let inputs = [ mk_ref_ty rvar_0 @@ -146,29 +140,28 @@ module Sig = struct (output_ty type_param_0.index) is_mut (* &'a (mut) output_ty<T> *) in - mk_sig generics regions_hierarchy inputs output + mk_sig generics inputs output - let mk_array_slice_index_sig (is_array : bool) (is_mut : bool) : A.fun_sig = + let mk_array_slice_index_sig (is_array : bool) (is_mut : bool) : fun_sig = (* Array<T, N> *) let input_ty id = - if is_array then mk_array_ty (T.TypeVar id) cgvar_0 - else mk_slice_ty (T.TypeVar id) + if is_array then mk_array_ty (TVar id) cgvar_0 else mk_slice_ty (TVar id) in (* usize *) let index_ty = usize_ty in (* T *) - let output_ty id = T.TypeVar id in + let output_ty id = TVar id in let cgs = if is_array then [ cg_param_0 ] else [] in mk_array_slice_borrow_sig cgs input_ty (Some index_ty) output_ty is_mut let array_index_sig (is_mut : bool) = mk_array_slice_index_sig true is_mut let slice_index_sig (is_mut : bool) = mk_array_slice_index_sig false is_mut - let array_to_slice_sig (is_mut : bool) : A.fun_sig = + let array_to_slice_sig (is_mut : bool) : fun_sig = (* Array<T, N> *) - let input_ty id = mk_array_ty (T.TypeVar id) cgvar_0 in + let input_ty id = mk_array_ty (TVar id) cgvar_0 in (* Slice<T> *) - let output_ty id = mk_slice_ty (T.TypeVar id) in + let output_ty id = mk_slice_ty (TVar id) in let cgs = [ cg_param_0 ] in mk_array_slice_borrow_sig cgs input_ty None output_ty is_mut @@ -177,37 +170,35 @@ module Sig = struct (* <T, N> *) mk_generic_params [] [ type_param_0 ] [ cg_param_0 ] in - let regions_hierarchy = [] (* <> *) in let inputs = [ tvar_0 (* T *) ] in let output = (* [T; N] *) mk_array_ty tvar_0 cgvar_0 in - mk_sig generics regions_hierarchy inputs output + mk_sig generics inputs output (** Helper: [fn<T>(&'a [T]) -> usize] *) - let slice_len_sig : A.fun_sig = + let slice_len_sig : fun_sig = let generics = mk_generic_params [ region_param_0 ] [ type_param_0 ] [] (* <'a, T> *) in - let regions_hierarchy = [ region_group_0 ] (* <'a> *) in let inputs = [ mk_ref_ty rvar_0 (mk_slice_ty tvar_0) false (* &'a [T] *) ] in let output = mk_usize_ty (* usize *) in - mk_sig generics regions_hierarchy inputs output + mk_sig generics inputs output end type raw_assumed_fun_info = - A.assumed_fun_id * A.fun_sig * bool * name * bool list option + assumed_fun_id * fun_sig * bool * string * bool list option type assumed_fun_info = { - fun_id : A.assumed_fun_id; - fun_sig : A.fun_sig; + fun_id : assumed_fun_id; + fun_sig : fun_sig; can_fail : bool; - name : name; + name : string; keep_types : bool list option; (** We may want to filter some type arguments. @@ -233,70 +224,63 @@ let mk_assumed_fun_info (raw : raw_assumed_fun_info) : assumed_fun_info = *) let raw_assumed_fun_infos : raw_assumed_fun_info list = [ + (* TODO: the names are not correct ("Box" should be an impl elem for instance) + but it's not important) *) ( BoxNew, Sig.box_new_sig, false, - to_name [ "alloc"; "boxed"; "Box"; "new" ], + "alloc::boxed::Box::new", Some [ true; false ] ); (* BoxFree shouldn't be used *) ( BoxFree, Sig.box_free_sig, false, - to_name [ "alloc"; "boxed"; "Box"; "free" ], + "alloc::boxed::Box::free", Some [ true; false ] ); (* Array Index *) ( ArrayIndexShared, Sig.array_index_sig false, true, - to_name [ "@ArrayIndexShared" ], - None ); - ( ArrayIndexMut, - Sig.array_index_sig true, - true, - to_name [ "@ArrayIndexMut" ], + "@ArrayIndexShared", None ); + (ArrayIndexMut, Sig.array_index_sig true, true, "@ArrayIndexMut", None); (* Array to slice*) ( ArrayToSliceShared, Sig.array_to_slice_sig false, true, - to_name [ "@ArrayToSliceShared" ], + "@ArrayToSliceShared", None ); ( ArrayToSliceMut, Sig.array_to_slice_sig true, true, - to_name [ "@ArrayToSliceMut" ], + "@ArrayToSliceMut", None ); (* Array Repeat *) - (ArrayRepeat, Sig.array_repeat_sig, false, to_name [ "@ArrayRepeat" ], None); + (ArrayRepeat, Sig.array_repeat_sig, false, "@ArrayRepeat", None); (* Slice Index *) ( SliceIndexShared, Sig.slice_index_sig false, true, - to_name [ "@SliceIndexShared" ], - None ); - ( SliceIndexMut, - Sig.slice_index_sig true, - true, - to_name [ "@SliceIndexMut" ], + "@SliceIndexShared", None ); - (SliceLen, Sig.slice_len_sig, false, to_name [ "@SliceLen" ], None); + (SliceIndexMut, Sig.slice_index_sig true, true, "@SliceIndexMut", None); ] let assumed_fun_infos : assumed_fun_info list = List.map mk_assumed_fun_info raw_assumed_fun_infos -let get_assumed_fun_info (id : A.assumed_fun_id) : assumed_fun_info = +let get_assumed_fun_info (id : assumed_fun_id) : assumed_fun_info = match List.find_opt (fun x -> id = x.fun_id) assumed_fun_infos with | Some info -> info | None -> raise - (Failure ("get_assumed_fun_info: not found: " ^ A.show_assumed_fun_id id)) + (Failure ("get_assumed_fun_info: not found: " ^ show_assumed_fun_id id)) -let get_assumed_fun_sig (id : A.assumed_fun_id) : A.fun_sig = +let get_assumed_fun_sig (id : assumed_fun_id) : fun_sig = (get_assumed_fun_info id).fun_sig -let get_assumed_fun_name (id : A.assumed_fun_id) : fun_name = +let get_assumed_fun_name (id : assumed_fun_id) : string = (get_assumed_fun_info id).name -let assumed_fun_can_fail (id : A.assumed_fun_id) : bool = +let assumed_fun_can_fail (id : assumed_fun_id) : bool = (get_assumed_fun_info id).can_fail |