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|
(** Functions to load LLBC ASTs from json.
Initially, we used `ppx_derive_yojson` to automate this.
However, `ppx_derive_yojson` expects formatting to be slightly
different from what `serde_rs` generates (because it uses [Yojson.Safe.t]
and not [Yojson.Basic.t]).
TODO: we should check all that the integer values are in the proper range
*)
open Yojson.Basic
open Names
open OfJsonBasic
module T = Types
module V = Values
module S = Scalars
module E = Expressions
module A = LlbcAst
module TU = TypesUtils
module AU = LlbcAstUtils
(* The default logger *)
let log = Logging.llbc_of_json_logger
let path_elem_of_json (js : json) : (path_elem, string) result =
combine_error_msgs js "path_elem_of_json"
(match js with
| `Assoc [ ("Ident", name) ] ->
let* name = string_of_json name in
Ok (Ident name)
| `Assoc [ ("Disambiguator", d) ] ->
let* d = Disambiguator.id_of_json d in
Ok (Disambiguator d)
| _ -> Error "")
let name_of_json (js : json) : (name, string) result =
combine_error_msgs js "name_of_json" (list_of_json path_elem_of_json js)
let fun_name_of_json (js : json) : (fun_name, string) result =
combine_error_msgs js "fun_name_of_json" (name_of_json js)
let type_var_of_json (js : json) : (T.type_var, string) result =
combine_error_msgs js "type_var_of_json"
(match js with
| `Assoc [ ("index", index); ("name", name) ] ->
let* index = T.TypeVarId.id_of_json index in
let* name = string_of_json name in
Ok { T.index; name }
| _ -> Error "")
let region_var_of_json (js : json) : (T.region_var, string) result =
combine_error_msgs js "region_var_of_json"
(match js with
| `Assoc [ ("index", index); ("name", name) ] ->
let* index = T.RegionVarId.id_of_json index in
let* name = string_option_of_json name in
Ok { T.index; name }
| _ -> Error "")
let region_of_json (js : json) : (T.RegionVarId.id T.region, string) result =
combine_error_msgs js "region_of_json"
(match js with
| `String "Static" -> Ok T.Static
| `Assoc [ ("Var", rid) ] ->
let* rid = T.RegionVarId.id_of_json rid in
Ok (T.Var rid)
| _ -> Error "")
let erased_region_of_json (js : json) : (T.erased_region, string) result =
combine_error_msgs js "erased_region_of_json"
(match js with `String "Erased" -> Ok T.Erased | _ -> Error "")
let integer_type_of_json (js : json) : (T.integer_type, string) result =
match js with
| `String "Isize" -> Ok T.Isize
| `String "I8" -> Ok T.I8
| `String "I16" -> Ok T.I16
| `String "I32" -> Ok T.I32
| `String "I64" -> Ok T.I64
| `String "I128" -> Ok T.I128
| `String "Usize" -> Ok T.Usize
| `String "U8" -> Ok T.U8
| `String "U16" -> Ok T.U16
| `String "U32" -> Ok T.U32
| `String "U64" -> Ok T.U64
| `String "U128" -> Ok T.U128
| _ -> Error ("integer_type_of_json failed on: " ^ show js)
let ref_kind_of_json (js : json) : (T.ref_kind, string) result =
match js with
| `String "Mut" -> Ok T.Mut
| `String "Shared" -> Ok T.Shared
| _ -> Error ("ref_kind_of_json failed on: " ^ show js)
let assumed_ty_of_json (js : json) : (T.assumed_ty, string) result =
combine_error_msgs js "assumed_ty_of_json"
(match js with
| `String "Box" -> Ok T.Box
| `String "Vec" -> Ok T.Vec
| `String "Option" -> Ok T.Option
| _ -> Error "")
let type_id_of_json (js : json) : (T.type_id, string) result =
combine_error_msgs js "type_id_of_json"
(match js with
| `Assoc [ ("Adt", id) ] ->
let* id = T.TypeDeclId.id_of_json id in
Ok (T.AdtId id)
| `String "Tuple" -> Ok T.Tuple
| `Assoc [ ("Assumed", aty) ] ->
let* aty = assumed_ty_of_json aty in
Ok (T.Assumed aty)
| _ -> Error "")
let rec ty_of_json (r_of_json : json -> ('r, string) result) (js : json) :
('r T.ty, string) result =
combine_error_msgs js "ty_of_json"
(match js with
| `Assoc [ ("Adt", `List [ id; regions; types ]) ] ->
let* id = type_id_of_json id in
let* regions = list_of_json r_of_json regions in
let* types = list_of_json (ty_of_json r_of_json) types in
(* Sanity check *)
(match id with T.Tuple -> assert (List.length regions = 0) | _ -> ());
Ok (T.Adt (id, regions, types))
| `Assoc [ ("TypeVar", `List [ id ]) ] ->
let* id = T.TypeVarId.id_of_json id in
Ok (T.TypeVar id)
| `String "Bool" -> Ok Bool
| `String "Char" -> Ok Char
| `String "`Never" -> Ok Never
| `Assoc [ ("Integer", `List [ int_ty ]) ] ->
let* int_ty = integer_type_of_json int_ty in
Ok (T.Integer int_ty)
| `String "Str" -> Ok Str
| `Assoc [ ("Array", `List [ ty ]) ] ->
let* ty = ty_of_json r_of_json ty in
Ok (T.Array ty)
| `Assoc [ ("Slice", `List [ ty ]) ] ->
let* ty = ty_of_json r_of_json ty in
Ok (T.Slice ty)
| `Assoc [ ("Ref", `List [ region; ty; ref_kind ]) ] ->
let* region = r_of_json region in
let* ty = ty_of_json r_of_json ty in
let* ref_kind = ref_kind_of_json ref_kind in
Ok (T.Ref (region, ty, ref_kind))
| _ -> Error "")
let sty_of_json (js : json) : (T.sty, string) result =
combine_error_msgs js "sty_of_json" (ty_of_json region_of_json js)
let ety_of_json (js : json) : (T.ety, string) result =
combine_error_msgs js "ety_of_json" (ty_of_json erased_region_of_json js)
let field_of_json (js : json) : (T.field, string) result =
combine_error_msgs js "field_of_json"
(match js with
| `Assoc [ ("name", name); ("ty", ty) ] ->
let* name = option_of_json string_of_json name in
let* ty = sty_of_json ty in
Ok { T.field_name = name; field_ty = ty }
| _ -> Error "")
let variant_of_json (js : json) : (T.variant, string) result =
combine_error_msgs js "variant_of_json"
(match js with
| `Assoc [ ("name", name); ("fields", fields) ] ->
let* name = string_of_json name in
let* fields = list_of_json field_of_json fields in
Ok { T.variant_name = name; fields }
| _ -> Error "")
let type_decl_kind_of_json (js : json) : (T.type_decl_kind, string) result =
combine_error_msgs js "type_decl_kind_of_json"
(match js with
| `Assoc [ ("Struct", fields) ] ->
let* fields = list_of_json field_of_json fields in
Ok (T.Struct fields)
| `Assoc [ ("Enum", variants) ] ->
let* variants = list_of_json variant_of_json variants in
Ok (T.Enum variants)
| `String "Opaque" -> Ok T.Opaque
| _ -> Error "")
let region_var_group_of_json (js : json) : (T.region_var_group, string) result =
combine_error_msgs js "region_var_group_of_json"
(match js with
| `Assoc [ ("id", id); ("regions", regions); ("parents", parents) ] ->
let* id = T.RegionGroupId.id_of_json id in
let* regions = list_of_json T.RegionVarId.id_of_json regions in
let* parents = list_of_json T.RegionGroupId.id_of_json parents in
Ok { T.id; regions; parents }
| _ -> Error "")
let region_var_groups_of_json (js : json) : (T.region_var_groups, string) result
=
combine_error_msgs js "region_var_group_of_json"
(list_of_json region_var_group_of_json js)
let type_decl_of_json (js : json) : (T.type_decl, string) result =
combine_error_msgs js "type_decl_of_json"
(match js with
| `Assoc
[
("def_id", def_id);
("name", name);
("region_params", region_params);
("type_params", type_params);
("regions_hierarchy", regions_hierarchy);
("kind", kind);
] ->
let* def_id = T.TypeDeclId.id_of_json def_id in
let* name = name_of_json name in
let* region_params = list_of_json region_var_of_json region_params in
let* type_params = list_of_json type_var_of_json type_params in
let* kind = type_decl_kind_of_json kind in
let* regions_hierarchy = region_var_groups_of_json regions_hierarchy in
Ok
{
T.def_id;
name;
region_params;
type_params;
kind;
regions_hierarchy;
}
| _ -> Error "")
let var_of_json (js : json) : (A.var, string) result =
combine_error_msgs js "var_of_json"
(match js with
| `Assoc [ ("index", index); ("name", name); ("ty", ty) ] ->
let* index = V.VarId.id_of_json index in
let* name = string_option_of_json name in
let* var_ty = ety_of_json ty in
Ok { A.index; name; var_ty }
| _ -> Error "")
let big_int_of_json (js : json) : (V.big_int, string) result =
combine_error_msgs js "big_int_of_json"
(match js with
| `Int i -> Ok (Z.of_int i)
| `String is -> Ok (Z.of_string is)
| _ -> Error "")
(** Deserialize a [scalar_value] from JSON and **check the ranges**.
Note that in practice we also check that the values are in range
in the interpreter functions. Still, it doesn't cost much to be
a bit conservative.
*)
let scalar_value_of_json (js : json) : (V.scalar_value, string) result =
let res =
combine_error_msgs js "scalar_value_of_json"
(match js with
| `Assoc [ ("Isize", `List [ bi ]) ] ->
let* bi = big_int_of_json bi in
Ok { V.value = bi; int_ty = Isize }
| `Assoc [ ("I8", `List [ bi ]) ] ->
let* bi = big_int_of_json bi in
Ok { V.value = bi; int_ty = I8 }
| `Assoc [ ("I16", `List [ bi ]) ] ->
let* bi = big_int_of_json bi in
Ok { V.value = bi; int_ty = I16 }
| `Assoc [ ("I32", `List [ bi ]) ] ->
let* bi = big_int_of_json bi in
Ok { V.value = bi; int_ty = I32 }
| `Assoc [ ("I64", `List [ bi ]) ] ->
let* bi = big_int_of_json bi in
Ok { V.value = bi; int_ty = I64 }
| `Assoc [ ("I128", `List [ bi ]) ] ->
let* bi = big_int_of_json bi in
Ok { V.value = bi; int_ty = I128 }
| `Assoc [ ("Usize", `List [ bi ]) ] ->
let* bi = big_int_of_json bi in
Ok { V.value = bi; int_ty = Usize }
| `Assoc [ ("U8", `List [ bi ]) ] ->
let* bi = big_int_of_json bi in
Ok { V.value = bi; int_ty = U8 }
| `Assoc [ ("U16", `List [ bi ]) ] ->
let* bi = big_int_of_json bi in
Ok { V.value = bi; int_ty = U16 }
| `Assoc [ ("U32", `List [ bi ]) ] ->
let* bi = big_int_of_json bi in
Ok { V.value = bi; int_ty = U32 }
| `Assoc [ ("U64", `List [ bi ]) ] ->
let* bi = big_int_of_json bi in
Ok { V.value = bi; int_ty = U64 }
| `Assoc [ ("U128", `List [ bi ]) ] ->
let* bi = big_int_of_json bi in
Ok { V.value = bi; int_ty = U128 }
| _ -> Error "")
in
match res with
| Error _ -> res
| Ok sv ->
if not (S.check_scalar_value_in_range sv) then (
log#serror ("Scalar value not in range: " ^ V.show_scalar_value sv);
raise (Failure ("Scalar value not in range: " ^ V.show_scalar_value sv)));
res
let field_proj_kind_of_json (js : json) : (E.field_proj_kind, string) result =
combine_error_msgs js "field_proj_kind_of_json"
(match js with
| `Assoc [ ("ProjAdt", `List [ def_id; opt_variant_id ]) ] ->
let* def_id = T.TypeDeclId.id_of_json def_id in
let* opt_variant_id =
option_of_json T.VariantId.id_of_json opt_variant_id
in
Ok (E.ProjAdt (def_id, opt_variant_id))
| `Assoc [ ("ProjTuple", i) ] ->
let* i = int_of_json i in
Ok (E.ProjTuple i)
| `Assoc [ ("ProjOption", variant_id) ] ->
let* variant_id = T.VariantId.id_of_json variant_id in
Ok (E.ProjOption variant_id)
| _ -> Error "")
let projection_elem_of_json (js : json) : (E.projection_elem, string) result =
combine_error_msgs js "projection_elem_of_json"
(match js with
| `String "Deref" -> Ok E.Deref
| `String "DerefBox" -> Ok E.DerefBox
| `Assoc [ ("Field", `List [ proj_kind; field_id ]) ] ->
let* proj_kind = field_proj_kind_of_json proj_kind in
let* field_id = T.FieldId.id_of_json field_id in
Ok (E.Field (proj_kind, field_id))
| _ -> Error ("projection_elem_of_json failed on:" ^ show js))
let projection_of_json (js : json) : (E.projection, string) result =
combine_error_msgs js "projection_of_json"
(list_of_json projection_elem_of_json js)
let place_of_json (js : json) : (E.place, string) result =
combine_error_msgs js "place_of_json"
(match js with
| `Assoc [ ("var_id", var_id); ("projection", projection) ] ->
let* var_id = V.VarId.id_of_json var_id in
let* projection = projection_of_json projection in
Ok { E.var_id; projection }
| _ -> Error "")
let borrow_kind_of_json (js : json) : (E.borrow_kind, string) result =
match js with
| `String "Shared" -> Ok E.Shared
| `String "Mut" -> Ok E.Mut
| `String "TwoPhaseMut" -> Ok E.TwoPhaseMut
| _ -> Error ("borrow_kind_of_json failed on:" ^ show js)
let unop_of_json (js : json) : (E.unop, string) result =
match js with
| `String "Not" -> Ok E.Not
| `String "Neg" -> Ok E.Neg
| `Assoc [ ("Cast", `List [ src_ty; tgt_ty ]) ] ->
let* src_ty = integer_type_of_json src_ty in
let* tgt_ty = integer_type_of_json tgt_ty in
Ok (E.Cast (src_ty, tgt_ty))
| _ -> Error ("unop_of_json failed on:" ^ show js)
let binop_of_json (js : json) : (E.binop, string) result =
match js with
| `String "BitXor" -> Ok E.BitXor
| `String "BitAnd" -> Ok E.BitAnd
| `String "BitOr" -> Ok E.BitOr
| `String "Eq" -> Ok E.Eq
| `String "Lt" -> Ok E.Lt
| `String "Le" -> Ok E.Le
| `String "Ne" -> Ok E.Ne
| `String "Ge" -> Ok E.Ge
| `String "Gt" -> Ok E.Gt
| `String "Div" -> Ok E.Div
| `String "Rem" -> Ok E.Rem
| `String "Add" -> Ok E.Add
| `String "Sub" -> Ok E.Sub
| `String "Mul" -> Ok E.Mul
| `String "Shl" -> Ok E.Shl
| `String "Shr" -> Ok E.Shr
| _ -> Error ("binop_of_json failed on:" ^ show js)
let constant_value_of_json (js : json) : (V.constant_value, string) result =
combine_error_msgs js "constant_value_of_json"
(match js with
| `Assoc [ ("Scalar", scalar_value) ] ->
let* scalar_value = scalar_value_of_json scalar_value in
Ok (V.Scalar scalar_value)
| `Assoc [ ("Bool", v) ] ->
let* v = bool_of_json v in
Ok (V.Bool v)
| `Assoc [ ("Char", v) ] ->
let* v = char_of_json v in
Ok (V.Char v)
| `Assoc [ ("String", v) ] ->
let* v = string_of_json v in
Ok (V.String v)
| _ -> Error "")
let operand_of_json (js : json) : (E.operand, string) result =
combine_error_msgs js "operand_of_json"
(match js with
| `Assoc [ ("Copy", place) ] ->
let* place = place_of_json place in
Ok (E.Copy place)
| `Assoc [ ("Move", place) ] ->
let* place = place_of_json place in
Ok (E.Move place)
| `Assoc [ ("Const", `List [ ty; cv ]) ] ->
let* ty = ety_of_json ty in
let* cv = constant_value_of_json cv in
Ok (E.Constant (ty, cv))
| _ -> Error "")
let aggregate_kind_of_json (js : json) : (E.aggregate_kind, string) result =
combine_error_msgs js "operand_kind_of_json"
(match js with
| `String "AggregatedTuple" -> Ok E.AggregatedTuple
| `Assoc [ ("AggregatedOption", `List [ variant_id; ty ]) ] ->
let* variant_id = T.VariantId.id_of_json variant_id in
let* ty = ety_of_json ty in
Ok (E.AggregatedOption (variant_id, ty))
| `Assoc [ ("AggregatedAdt", `List [ id; opt_variant_id; regions; tys ]) ]
->
let* id = T.TypeDeclId.id_of_json id in
let* opt_variant_id =
option_of_json T.VariantId.id_of_json opt_variant_id
in
let* regions = list_of_json erased_region_of_json regions in
let* tys = list_of_json ety_of_json tys in
Ok (E.AggregatedAdt (id, opt_variant_id, regions, tys))
| _ -> Error "")
let rvalue_of_json (js : json) : (E.rvalue, string) result =
combine_error_msgs js "rvalue_of_json"
(match js with
| `Assoc [ ("Use", op) ] ->
let* op = operand_of_json op in
Ok (E.Use op)
| `Assoc [ ("Ref", `List [ place; borrow_kind ]) ] ->
let* place = place_of_json place in
let* borrow_kind = borrow_kind_of_json borrow_kind in
Ok (E.Ref (place, borrow_kind))
| `Assoc [ ("UnaryOp", `List [ unop; op ]) ] ->
let* unop = unop_of_json unop in
let* op = operand_of_json op in
Ok (E.UnaryOp (unop, op))
| `Assoc [ ("BinaryOp", `List [ binop; op1; op2 ]) ] ->
let* binop = binop_of_json binop in
let* op1 = operand_of_json op1 in
let* op2 = operand_of_json op2 in
Ok (E.BinaryOp (binop, op1, op2))
| `Assoc [ ("Discriminant", place) ] ->
let* place = place_of_json place in
Ok (E.Discriminant place)
| `Assoc [ ("Aggregate", `List [ aggregate_kind; ops ]) ] ->
let* aggregate_kind = aggregate_kind_of_json aggregate_kind in
let* ops = list_of_json operand_of_json ops in
Ok (E.Aggregate (aggregate_kind, ops))
| _ -> Error "")
let assumed_fun_id_of_json (js : json) : (A.assumed_fun_id, string) result =
match js with
| `String "Replace" -> Ok A.Replace
| `String "BoxNew" -> Ok A.BoxNew
| `String "BoxDeref" -> Ok A.BoxDeref
| `String "BoxDerefMut" -> Ok A.BoxDerefMut
| `String "BoxFree" -> Ok A.BoxFree
| `String "VecNew" -> Ok A.VecNew
| `String "VecPush" -> Ok A.VecPush
| `String "VecInsert" -> Ok A.VecInsert
| `String "VecLen" -> Ok A.VecLen
| `String "VecIndex" -> Ok A.VecIndex
| `String "VecIndexMut" -> Ok A.VecIndexMut
| _ -> Error ("assumed_fun_id_of_json failed on:" ^ show js)
let fun_id_of_json (js : json) : (A.fun_id, string) result =
combine_error_msgs js "fun_id_of_json"
(match js with
| `Assoc [ ("Regular", id) ] ->
let* id = A.FunDeclId.id_of_json id in
Ok (A.Regular id)
| `Assoc [ ("Assumed", fid) ] ->
let* fid = assumed_fun_id_of_json fid in
Ok (A.Assumed fid)
| _ -> Error "")
let assertion_of_json (js : json) : (A.assertion, string) result =
combine_error_msgs js "assertion_of_json"
(match js with
| `Assoc [ ("cond", cond); ("expected", expected) ] ->
let* cond = operand_of_json cond in
let* expected = bool_of_json expected in
Ok { A.cond; expected }
| _ -> Error "")
let fun_sig_of_json (js : json) : (A.fun_sig, string) result =
combine_error_msgs js "fun_sig_of_json"
(match js with
| `Assoc
[
("region_params", region_params);
("num_early_bound_regions", num_early_bound_regions);
("regions_hierarchy", regions_hierarchy);
("type_params", type_params);
("inputs", inputs);
("output", output);
] ->
let* region_params = list_of_json region_var_of_json region_params in
let* num_early_bound_regions = int_of_json num_early_bound_regions in
let* regions_hierarchy = region_var_groups_of_json regions_hierarchy in
let* type_params = list_of_json type_var_of_json type_params in
let* inputs = list_of_json sty_of_json inputs in
let* output = sty_of_json output in
Ok
{
A.region_params;
num_early_bound_regions;
regions_hierarchy;
type_params;
inputs;
output;
}
| _ -> Error "")
let call_of_json (js : json) : (A.call, string) result =
combine_error_msgs js "call_of_json"
(match js with
| `Assoc
[
("func", func);
("region_args", region_args);
("type_args", type_args);
("args", args);
("dest", dest);
] ->
let* func = fun_id_of_json func in
let* region_args = list_of_json erased_region_of_json region_args in
let* type_args = list_of_json ety_of_json type_args in
let* args = list_of_json operand_of_json args in
let* dest = place_of_json dest in
Ok { A.func; region_args; type_args; args; dest }
| _ -> Error "")
let rec statement_of_json (js : json) : (A.statement, string) result =
combine_error_msgs js "statement_of_json"
(match js with
| `Assoc [ ("Assign", `List [ place; rvalue ]) ] ->
let* place = place_of_json place in
let* rvalue = rvalue_of_json rvalue in
Ok (A.Assign (place, rvalue))
| `Assoc [ ("AssignGlobal", `List [ dst; global ]) ] ->
let* dst = V.VarId.id_of_json dst in
let* global = A.GlobalDeclId.id_of_json global in
Ok (A.AssignGlobal { dst; global })
| `Assoc [ ("FakeRead", place) ] ->
let* place = place_of_json place in
Ok (A.FakeRead place)
| `Assoc [ ("SetDiscriminant", `List [ place; variant_id ]) ] ->
let* place = place_of_json place in
let* variant_id = T.VariantId.id_of_json variant_id in
Ok (A.SetDiscriminant (place, variant_id))
| `Assoc [ ("Drop", place) ] ->
let* place = place_of_json place in
Ok (A.Drop place)
| `Assoc [ ("Assert", assertion) ] ->
let* assertion = assertion_of_json assertion in
Ok (A.Assert assertion)
| `Assoc [ ("Call", call) ] ->
let* call = call_of_json call in
Ok (A.Call call)
| `String "Panic" -> Ok A.Panic
| `String "Return" -> Ok A.Return
| `Assoc [ ("Break", i) ] ->
let* i = int_of_json i in
Ok (A.Break i)
| `Assoc [ ("Continue", i) ] ->
let* i = int_of_json i in
Ok (A.Continue i)
| `String "Nop" -> Ok A.Nop
| `Assoc [ ("Sequence", `List [ st1; st2 ]) ] ->
let* st1 = statement_of_json st1 in
let* st2 = statement_of_json st2 in
Ok (A.Sequence (st1, st2))
| `Assoc [ ("Switch", `List [ op; tgt ]) ] ->
let* op = operand_of_json op in
let* tgt = switch_targets_of_json tgt in
Ok (A.Switch (op, tgt))
| `Assoc [ ("Loop", st) ] ->
let* st = statement_of_json st in
Ok (A.Loop st)
| _ -> Error "")
and switch_targets_of_json (js : json) : (A.switch_targets, string) result =
combine_error_msgs js "switch_targets_of_json"
(match js with
| `Assoc [ ("If", `List [ st1; st2 ]) ] ->
let* st1 = statement_of_json st1 in
let* st2 = statement_of_json st2 in
Ok (A.If (st1, st2))
| `Assoc [ ("SwitchInt", `List [ int_ty; tgts; otherwise ]) ] ->
let* int_ty = integer_type_of_json int_ty in
let* tgts =
list_of_json
(pair_of_json (list_of_json scalar_value_of_json) statement_of_json)
tgts
in
let* otherwise = statement_of_json otherwise in
Ok (A.SwitchInt (int_ty, tgts, otherwise))
| _ -> Error "")
let fun_body_of_json (js : json) : (A.fun_body, string) result =
combine_error_msgs js "fun_body_of_json"
(match js with
| `Assoc [ ("arg_count", arg_count); ("locals", locals); ("body", body) ] ->
let* arg_count = int_of_json arg_count in
let* locals = list_of_json var_of_json locals in
let* body = statement_of_json body in
Ok { A.arg_count; locals; body }
| _ -> Error "")
let fun_decl_of_json (js : json) : (A.fun_decl, string) result =
combine_error_msgs js "fun_decl_of_json"
(match js with
| `Assoc
[
("def_id", def_id);
("name", name);
("signature", signature);
("body", body);
] ->
let* def_id = A.FunDeclId.id_of_json def_id in
let* name = fun_name_of_json name in
let* signature = fun_sig_of_json signature in
let* body = option_of_json fun_body_of_json body in
Ok { A.def_id; name; signature; body; is_global_decl_body = false }
| _ -> Error "")
(* Strict type for the number of function declarations (see [global_to_fun_id] below) *)
type global_id_converter = { fun_count : int } [@@deriving show]
(** Converts a global id to its corresponding function id.
To do so, it adds the global id to the number of function declarations :
We have the bijection `global_fun_id <=> global_id + fun_id_count`.
*)
let global_to_fun_id (conv : global_id_converter) (gid : A.GlobalDeclId.id) :
A.FunDeclId.id =
A.FunDeclId.of_int (A.GlobalDeclId.to_int gid + conv.fun_count)
(* Converts a global declaration to a function declaration.
*)
let global_decl_of_json (js : json) (gid_conv : global_id_converter) :
(A.global_decl * A.fun_decl, string) result =
combine_error_msgs js "global_decl_of_json"
(match js with
| `Assoc [ ("def_id", def_id); ("name", name); ("ty", ty); ("body", body) ]
->
let* global_id = A.GlobalDeclId.id_of_json def_id in
let fun_id = global_to_fun_id gid_conv global_id in
let* name = fun_name_of_json name in
let* ty = ety_of_json ty in
let* body = option_of_json fun_body_of_json body in
let signature : A.fun_sig =
{
region_params = [];
num_early_bound_regions = 0;
regions_hierarchy = [];
type_params = [];
inputs = [];
output = TU.ety_no_regions_to_sty ty;
}
in
Ok
( { A.def_id = global_id; body_id = fun_id; name; ty },
{
A.def_id = fun_id;
name;
signature;
body;
is_global_decl_body = true;
} )
| _ -> Error "")
let g_declaration_group_of_json (id_of_json : json -> ('id, string) result)
(js : json) : ('id Crates.g_declaration_group, string) result =
combine_error_msgs js "g_declaration_group_of_json"
(match js with
| `Assoc [ ("NonRec", `List [ id ]) ] ->
let* id = id_of_json id in
Ok (Crates.NonRec id)
| `Assoc [ ("Rec", `List [ ids ]) ] ->
let* ids = list_of_json id_of_json ids in
Ok (Crates.Rec ids)
| _ -> Error "")
let type_declaration_group_of_json (js : json) :
(Crates.type_declaration_group, string) result =
combine_error_msgs js "type_declaration_group_of_json"
(g_declaration_group_of_json T.TypeDeclId.id_of_json js)
let fun_declaration_group_of_json (js : json) :
(Crates.fun_declaration_group, string) result =
combine_error_msgs js "fun_declaration_group_of_json"
(g_declaration_group_of_json A.FunDeclId.id_of_json js)
let global_declaration_group_of_json (js : json) :
(A.GlobalDeclId.id, string) result =
combine_error_msgs js "global_declaration_group_of_json"
(match js with
| `Assoc [ ("NonRec", `List [ id ]) ] ->
let* id = A.GlobalDeclId.id_of_json id in
Ok id
| `Assoc [ ("Rec", `List [ _ ]) ] -> Error "got mutually dependent globals"
| _ -> Error "")
let declaration_group_of_json (js : json) :
(Crates.declaration_group, string) result =
combine_error_msgs js "declaration_of_json"
(match js with
| `Assoc [ ("Type", `List [ decl ]) ] ->
let* decl = type_declaration_group_of_json decl in
Ok (Crates.Type decl)
| `Assoc [ ("Fun", `List [ decl ]) ] ->
let* decl = fun_declaration_group_of_json decl in
Ok (Crates.Fun decl)
| `Assoc [ ("Global", `List [ decl ]) ] ->
let* id = global_declaration_group_of_json decl in
Ok (Crates.Global id)
| _ -> Error "")
let length_of_json_list (js : json) : (int, string) result =
combine_error_msgs js "get_json_list_len"
(match js with
| `List jsl -> Ok (List.length jsl)
| _ -> Error ("not a list: " ^ show js))
let llbc_crate_of_json (js : json) : (Crates.llbc_crate, string) result =
combine_error_msgs js "llbc_crate_of_json"
(match js with
| `Assoc
[
("name", name);
("declarations", declarations);
("types", types);
("functions", functions);
("globals", globals);
] ->
(* We first deserialize the declaration groups (which simply contain ids)
* and all the declarations *butù* the globals *)
let* name = string_of_json name in
let* declarations =
list_of_json declaration_group_of_json declarations
in
let* types = list_of_json type_decl_of_json types in
let* functions = list_of_json fun_decl_of_json functions in
(* When deserializing the globals, we split the global declarations
* between the globals themselves and their bodies, which are simply
* functions with no arguments. We add the global bodies to the list
* of function declarations: the (fresh) ids we use for those bodies
* are simply given by: `num_functions + global_id` *)
let gid_conv = { fun_count = List.length functions } in
let* globals =
list_of_json (fun js -> global_decl_of_json js gid_conv) globals
in
let globals, global_bodies = List.split globals in
Ok
{
Crates.name;
declarations;
types;
functions = functions @ global_bodies;
globals;
}
| _ -> Error "")
|