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(*
* Copyright (c) 2009-2013, Monoidics ltd.
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*)
[@@@ocamlformat "parse-docstrings = false"]
(** The Smallfoot Intermediate Language: Types *)
open! IStd
module Hashtbl = Caml.Hashtbl
module L = Logging
module F = Format
module IntegerWidths = struct
type t = {char_width: int; short_width: int; int_width: int; long_width: int; longlong_width: int}
[@@deriving compare]
let java = {char_width= 16; short_width= 16; int_width= 32; long_width= 64; longlong_width= 64}
module SQLite = SqliteUtils.MarshalledNullableDataNOTForComparison (struct
type nonrec t = t
end)
let load_statement =
ResultsDatabase.register_statement
"SELECT integer_type_widths FROM source_files WHERE source_file = :k"
let load source =
ResultsDatabase.with_registered_statement load_statement ~f:(fun db load_stmt ->
SourceFile.SQLite.serialize source
|> Sqlite3.bind load_stmt 1
|> SqliteUtils.check_result_code db ~log:"load bind source file" ;
SqliteUtils.result_single_column_option ~finalize:false ~log:"Typ.IntegerWidths.load" db
load_stmt
|> Option.bind ~f:SQLite.deserialize )
end
(** Kinds of integers *)
type ikind =
| IChar (** [char] *)
| ISChar (** [signed char] *)
| IUChar (** [unsigned char] *)
| IBool (** [bool] *)
| IInt (** [int] *)
| IUInt (** [unsigned int] *)
| IShort (** [short] *)
| IUShort (** [unsigned short] *)
| ILong (** [long] *)
| IULong (** [unsigned long] *)
| ILongLong (** [long long] (or [_int64] on Microsoft Visual C) *)
| IULongLong (** [unsigned long long] (or [unsigned int64_] on Microsoft Visual C) *)
| I128 (** [__int128_t] *)
| IU128 (** [__uint128_t] *)
[@@deriving compare]
let equal_ikind = [%compare.equal: ikind]
let ikind_to_string = function
| IChar ->
"char"
| ISChar ->
"signed char"
| IUChar ->
"unsigned char"
| IBool ->
"_Bool"
| IInt ->
"int"
| IUInt ->
"unsigned int"
| IShort ->
"short"
| IUShort ->
"unsigned short"
| ILong ->
"long"
| IULong ->
"unsigned long"
| ILongLong ->
"long long"
| IULongLong ->
"unsigned long long"
| I128 ->
"__int128_t"
| IU128 ->
"__uint128_t"
let width_of_ikind {IntegerWidths.char_width; short_width; int_width; long_width; longlong_width} =
function
| IBool ->
8
| ISChar | IChar | IUChar ->
char_width
| IShort | IUShort ->
short_width
| IInt | IUInt ->
int_width
| ILong | IULong ->
long_width
| ILongLong | IULongLong ->
longlong_width
| I128 | IU128 ->
128
let ikind_is_unsigned = function
| IBool | IUChar | IUShort | IUInt | IULong | IULongLong | IU128 ->
true
| ISChar | IChar | IShort | IInt | ILong | ILongLong | I128 ->
false
let range_of_ikind =
let range bits ~unsigned =
if unsigned then Z.(~$0, shift_left ~$1 bits - ~$1)
else
let bound = Z.(shift_left ~$1) (bits - 1) in
Z.(~-bound, bound - ~$1)
in
fun integer_widths x ->
let bits_for_range = match x with IBool -> 1 | _ -> width_of_ikind integer_widths x in
range bits_for_range ~unsigned:(ikind_is_unsigned x)
let ikind_is_char = function IChar | ISChar | IUChar -> true | _ -> false
(** Kinds of floating-point numbers *)
type fkind = FFloat (** [float] *) | FDouble (** [double] *) | FLongDouble (** [long double] *)
[@@deriving compare]
let equal_fkind = [%compare.equal: fkind]
let fkind_to_string = function
| FFloat ->
"float"
| FDouble ->
"double"
| FLongDouble ->
"long double"
(** kind of pointer *)
type ptr_kind =
| Pk_pointer (** C/C++, Java, Objc standard/__strong pointer *)
| Pk_reference (** C++ reference *)
| Pk_objc_weak (** Obj-C __weak pointer *)
| Pk_objc_unsafe_unretained (** Obj-C __unsafe_unretained pointer *)
| Pk_objc_autoreleasing (** Obj-C __autoreleasing pointer *)
[@@deriving compare]
let equal_ptr_kind = [%compare.equal: ptr_kind]
let ptr_kind_string = function
| Pk_reference ->
"&"
| Pk_pointer ->
"*"
| Pk_objc_weak ->
"__weak *"
| Pk_objc_unsafe_unretained ->
"__unsafe_unretained *"
| Pk_objc_autoreleasing ->
"__autoreleasing *"
module T = struct
type type_quals = {is_const: bool; is_restrict: bool; is_volatile: bool} [@@deriving compare]
(** types for sil (structured) expressions *)
type t = {desc: desc; quals: type_quals} [@@deriving compare]
and desc =
| Tint of ikind (** integer type *)
| Tfloat of fkind (** float type *)
| Tvoid (** void type *)
| Tfun (** function type *)
| Tptr of t * ptr_kind (** pointer type *)
| Tstruct of name (** structured value type name *)
| TVar of string (** type variable (ie. C++ template variables) *)
| Tarray of {elt: t; length: IntLit.t option; stride: IntLit.t option}
(** array type with statically fixed length and stride *)
[@@deriving compare]
and name =
| CStruct of QualifiedCppName.t
| CUnion of QualifiedCppName.t
| CppClass of QualifiedCppName.t * template_spec_info
| JavaClass of JavaClassName.t
| ObjcClass of QualifiedCppName.t
| ObjcProtocol of QualifiedCppName.t
[@@deriving compare]
and template_arg = TType of t | TInt of Int64.t | TNull | TNullPtr | TOpaque
[@@deriving compare]
and template_spec_info =
| NoTemplate
| Template of {mangled: string option; args: template_arg list}
[@@deriving compare]
let equal_desc = [%compare.equal: desc]
let equal_name = [%compare.equal: name]
let equal_quals = [%compare.equal: type_quals]
let equal = [%compare.equal: t]
let rec equal_ignore_quals t1 t2 = equal_desc_ignore_quals t1.desc t2.desc
and equal_desc_ignore_quals d1 d2 =
match (d1, d2) with
| Tint ikind1, Tint ikind2 ->
equal_ikind ikind1 ikind2
| Tfloat fkind1, Tfloat fkind2 ->
equal_fkind fkind1 fkind2
| Tvoid, Tvoid | Tfun, Tfun ->
true
| Tptr (t1, ptr_kind1), Tptr (t2, ptr_kind2) ->
equal_ptr_kind ptr_kind1 ptr_kind2 && equal_ignore_quals t1 t2
| Tstruct name1, Tstruct name2 ->
equal_name name1 name2
| TVar s1, TVar s2 ->
String.equal s1 s2
| Tarray {elt= t1}, Tarray {elt= t2} ->
equal_ignore_quals t1 t2
| _, _ ->
false
end
include T
let mk_type_quals ?default ?is_const ?is_restrict ?is_volatile () =
let default_ = {is_const= false; is_restrict= false; is_volatile= false} in
let mk_aux ?(default = default_) ?(is_const = default.is_const)
?(is_restrict = default.is_restrict) ?(is_volatile = default.is_volatile) () =
{is_const; is_restrict; is_volatile}
in
mk_aux ?default ?is_const ?is_restrict ?is_volatile ()
let is_const {is_const} = is_const
let is_restrict {is_restrict} = is_restrict
let is_volatile {is_volatile} = is_volatile
let is_weak_pointer t = match t.desc with Tptr (_, Pk_objc_weak) -> true | _ -> false
let is_strong_pointer t = match t.desc with Tptr (_, Pk_pointer) -> true | _ -> false
let mk ?default ?quals desc : t =
let default_ = {desc; quals= mk_type_quals ()} in
let mk_aux ?(default = default_) ?(quals = default.quals) desc = {desc; quals} in
mk_aux ?default ?quals desc
let mk_array ?default ?quals ?length ?stride elt : t =
mk ?default ?quals (Tarray {elt; length; stride})
let mk_struct name = mk (Tstruct name)
let void = mk Tvoid
let void_star = mk (Tptr (mk Tvoid, Pk_pointer))
let java_byte = mk (Tint IShort)
let java_short = java_byte
let boolean = mk (Tint IBool)
let char = mk (Tint IChar)
let float = mk (Tfloat FFloat)
let double = mk (Tfloat FDouble)
let int = mk (Tint IInt)
let uint = mk (Tint IUInt)
let long = mk (Tint ILong)
let get_ikind_opt {desc} = match desc with Tint ikind -> Some ikind | _ -> None
(* TODO: size_t should be implementation-dependent. *)
let size_t = IULong
let escape pe = if Pp.equal_print_kind pe.Pp.kind Pp.HTML then Escape.escape_xml else ident
(** Pretty print a type with all the details, using the C syntax. *)
let rec pp_full pe f typ =
let pp_quals f {quals} =
if is_const quals then F.pp_print_string f " const " ;
if is_restrict quals then F.pp_print_string f " __restrict " ;
if is_volatile quals then F.pp_print_string f " volatile "
in
let pp_desc f {desc} =
match desc with
| Tstruct tname ->
(pp_name_c_syntax pe) f tname
| TVar name ->
F.pp_print_string f name
| Tint ik ->
F.pp_print_string f (ikind_to_string ik)
| Tfloat fk ->
F.pp_print_string f (fkind_to_string fk)
| Tvoid ->
F.pp_print_string f "void"
| Tfun ->
F.pp_print_string f "_fn_"
| Tptr (({desc= Tarray _ | Tfun} as typ), pk) ->
F.fprintf f "%a(%s)" (pp_full pe) typ (ptr_kind_string pk |> escape pe)
| Tptr (typ, pk) ->
F.fprintf f "%a%s" (pp_full pe) typ (ptr_kind_string pk |> escape pe)
| Tarray {elt; length; stride} ->
let pp_int_opt fmt = function
| Some x ->
IntLit.pp fmt x
| None ->
F.pp_print_char fmt '_'
in
F.fprintf f "%a[%a*%a]" (pp_full pe) elt pp_int_opt length pp_int_opt stride
in
F.fprintf f "%a%a" pp_desc typ pp_quals typ
and pp_name_c_syntax pe f = function
| CStruct name | CUnion name | ObjcClass name | ObjcProtocol name ->
QualifiedCppName.pp f name
| CppClass (name, template_spec) ->
F.fprintf f "%a%a" QualifiedCppName.pp name (pp_template_spec_info pe) template_spec
| JavaClass name ->
JavaClassName.pp f name
and pp_template_spec_info pe f = function
| NoTemplate ->
()
| Template {args} ->
let pp_arg_opt f = function
| TType typ ->
pp_full pe f typ
| TInt i ->
Int64.pp f i
| TNull ->
F.pp_print_string f "null"
| TNullPtr ->
F.pp_print_string f "NullPtr"
| TOpaque ->
F.pp_print_string f "Opaque"
in
F.fprintf f "%s%a%s" (escape pe "<") (Pp.comma_seq pp_arg_opt) args (escape pe ">")
(** Pretty print a type. Do nothing by default. *)
let pp pe f te = if Config.print_types then pp_full pe f te else ()
let to_string typ =
let pp fmt = pp_full Pp.text fmt typ in
F.asprintf "%t" pp
module Name = struct
type t = name [@@deriving compare, equal]
let equal = [%compare.equal: t]
let hash = Hashtbl.hash
let qual_name = function
| CStruct name | CUnion name | ObjcClass name | ObjcProtocol name ->
name
| CppClass (name, templ_args) ->
let template_suffix = F.asprintf "%a" (pp_template_spec_info Pp.text) templ_args in
QualifiedCppName.append_template_args_to_last name ~args:template_suffix
| JavaClass _ ->
QualifiedCppName.empty
let unqualified_name = function
| CStruct name | CUnion name | ObjcClass name | ObjcProtocol name ->
name
| CppClass (name, _) ->
name
| JavaClass _ ->
QualifiedCppName.empty
let get_template_spec_info = function CppClass (_, templ_args) -> Some templ_args | _ -> None
let name n =
match n with
| CStruct _ | CUnion _ | CppClass _ | ObjcClass _ | ObjcProtocol _ ->
qual_name n |> QualifiedCppName.to_qual_string
| JavaClass name ->
JavaClassName.to_string name
let pp fmt tname =
let prefix = function
| CStruct _ ->
"struct"
| CUnion _ ->
"union"
| CppClass _ | JavaClass _ | ObjcClass _ ->
"class"
| ObjcProtocol _ ->
"protocol"
in
F.fprintf fmt "%s %a" (prefix tname) (pp_name_c_syntax Pp.text) tname
let to_string = F.asprintf "%a" pp
let is_class = function CppClass _ | JavaClass _ | ObjcClass _ -> true | _ -> false
let is_union = function CUnion _ -> true | _ -> false
let is_objc_protocol name = match name with ObjcProtocol _ -> true | _ -> false
let is_same_type t1 t2 =
match (t1, t2) with
| CStruct _, CStruct _
| CUnion _, CUnion _
| CppClass _, CppClass _
| JavaClass _, JavaClass _
| ObjcClass _, ObjcClass _
| ObjcProtocol _, ObjcProtocol _ ->
true
| _ ->
false
module C = struct
let from_qual_name qual_name = CStruct qual_name
let from_string name_str = QualifiedCppName.of_qual_string name_str |> from_qual_name
let union_from_qual_name qual_name = CUnion qual_name
end
module Java = struct
module Split = struct
(** e.g. {type_name="int"; package=None} for primitive types
* or {type_name="PrintWriter"; package=Some "java.io"} for objects.
*)
type t = {package: string option; type_name: string} [@@deriving compare, equal]
let make ?package type_name = {type_name; package}
(** Given a package.class_name string, it looks for the latest dot and split the string
in two (package, class_name) *)
let of_string package_classname =
match String.rsplit2 package_classname ~on:'.' with
| Some (package, type_name) ->
{type_name; package= Some package}
| None ->
{type_name= package_classname; package= None}
let package {package} = package
let type_name {type_name} = type_name
let java_lang_object = make ~package:"java.lang" "Object"
let java_lang_string = make ~package:"java.lang" "String"
let void = make "void"
let pp_type_verbosity ~verbose fmt = function
| {package= Some package; type_name} when verbose ->
F.fprintf fmt "%s.%s" package type_name
| {type_name} ->
F.pp_print_string fmt type_name
end
let from_string name_str = JavaClass (JavaClassName.from_string name_str)
let is_class = function JavaClass _ -> true | _ -> false
let java_io_serializable = from_string "java.io.Serializable"
let java_lang_class = from_string "java.lang.Class"
let java_lang_cloneable = from_string "java.lang.Cloneable"
let java_lang_object = from_string "java.lang.Object"
let java_lang_string = from_string "java.lang.String"
let split_typename typename = Split.of_string (name typename)
let is_anonymous_inner_class_name class_name =
let class_name_no_package = Split.type_name (split_typename class_name) in
match String.rsplit2 class_name_no_package ~on:'$' with
| Some (_, s) ->
let is_int =
try
ignore (int_of_string (String.strip s)) ;
true
with Failure _ -> false
in
is_int
| None ->
false
let is_external_classname name_string =
let {Split.package} = Split.of_string name_string in
Option.exists ~f:Config.java_package_is_external package
let is_external t = is_external_classname (name t)
end
module Cpp = struct
let from_qual_name template_spec_info qual_name = CppClass (qual_name, template_spec_info)
let is_class = function CppClass _ -> true | _ -> false
end
module Objc = struct
let from_qual_name qual_name = ObjcClass qual_name
let from_string name_str = QualifiedCppName.of_qual_string name_str |> from_qual_name
let protocol_from_qual_name qual_name = ObjcProtocol qual_name
let is_class = function ObjcClass _ -> true | _ -> false
end
module Set = Caml.Set.Make (struct
type nonrec t = t
let compare = compare
end)
module Map = Caml.Map.Make (struct
type nonrec t = t
let compare = compare
end)
end
(** dump a type with all the details. *)
let d_full (t : t) = L.d_pp_with_pe pp_full t
(** dump a list of types. *)
let d_list (tl : t list) =
let pp pe = Pp.seq (pp pe) in
L.d_pp_with_pe pp tl
let name typ = match typ.desc with Tstruct name -> Some name | _ -> None
let unsome s = function
| Some default_typ ->
default_typ
| None ->
L.internal_error "No default typ in %s@." s ;
assert false
(** turn a *T into a T. fails if [typ] is not a pointer type *)
let strip_ptr typ = match typ.desc with Tptr (t, _) -> t | _ -> assert false
let is_ptr_to_ignore_quals t ~ptr =
match ptr.desc with Tptr (t', _) -> equal_ignore_quals t t' | _ -> false
(** If an array type, return the type of the element.
If not, return the default type if given, otherwise raise an exception *)
let array_elem default_opt typ =
match typ.desc with Tarray {elt} -> elt | _ -> unsome "array_elem" default_opt
let is_class_of_kind check_fun typ =
match typ.desc with Tstruct tname -> check_fun tname | _ -> false
let is_objc_class = is_class_of_kind Name.Objc.is_class
let is_cpp_class = is_class_of_kind Name.Cpp.is_class
let is_pointer typ = match typ.desc with Tptr _ -> true | _ -> false
let is_reference typ = match typ.desc with Tptr (_, Pk_reference) -> true | _ -> false
let is_struct typ = match typ.desc with Tstruct _ -> true | _ -> false
let is_pointer_to_cpp_class typ = match typ.desc with Tptr (t, _) -> is_cpp_class t | _ -> false
let is_pointer_to_void typ = match typ.desc with Tptr ({desc= Tvoid}, _) -> true | _ -> false
let is_void typ = match typ.desc with Tvoid -> true | _ -> false
let is_pointer_to_int typ = match typ.desc with Tptr ({desc= Tint _}, _) -> true | _ -> false
let is_int typ = match typ.desc with Tint _ -> true | _ -> false
let is_unsigned_int typ = match typ.desc with Tint ikind -> ikind_is_unsigned ikind | _ -> false
let is_char typ = match typ.desc with Tint ikind -> ikind_is_char ikind | _ -> false
let has_block_prefix s =
match Str.split_delim (Str.regexp_string Config.anonymous_block_prefix) s with
| _ :: _ :: _ ->
true
| _ ->
false
type typ = t