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infer_clone/infer/src/clang/objcInterface_decl.ml

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initial synchronization
10 years ago
(*
* Copyright (c) 2013 - Facebook.
* All rights reserved.
*)
(** In this module an ObjC interface declaration or implementation is processed. The class *)
(** is saved in the tenv as a struct with the corresponding fields, potential superclass and *)
(** list of defined methods *)
(* ObjectiveC doesn't have a notion of static or class fields. *)
(* So, in this module we translate a class into a sil srtuct with an empty list of static fields.*)
open Utils
open CFrontend_utils
open CFrontend_utils.General_utils
open Clang_ast_t
module L = Logging
let objc_class_str = "ObjC-Class"
let objc_class_annotation =
[({ Sil.class_name=objc_class_str; Sil.parameters=[]}, true)]
let is_objc_class_annotation a =
match a with
| [({Sil.class_name=n; Sil.parameters=[]},true)] when n=objc_class_str -> true
| _ -> false
let is_pointer_to_objc_class tenv typ =
match typ with
| Sil.Tptr (Sil.Tvar (Sil.TN_csu (Sil.Class, cname)), _) ->
(match Sil.tenv_lookup tenv (Sil.TN_csu (Sil.Class, cname)) with
| Some Sil.Tstruct(_, _, Sil.Class, _, _, _, a) when is_objc_class_annotation a -> true
| _ -> false)
| Sil.Tptr (Sil.Tstruct(_, _, Sil.Class, _, _, _, a), _) when
is_objc_class_annotation a -> true
| _ -> false
let get_super_interface_decl otdi_super =
match otdi_super with
| Some dr -> dr.Clang_ast_t.dr_name
| _ -> None
let get_protocols protocols =
let protocol_names = list_map (
fun decl -> match decl.Clang_ast_t.dr_name with
| Some name -> name
| None -> assert false
) protocols in
protocol_names
(*The superclass is the first element in the list of super classes of structs in the tenv, *)
(* then come the protocols and categories. *)
let get_interface_superclasses super_opt protocols =
let super_class =
match super_opt with
| None -> []
| Some super -> [(Sil.Class, Mangled.from_string super)] in
let protocol_names = list_map (
fun name -> (Sil.Protocol, Mangled.from_string name)
) protocols in
let super_classes = super_class@protocol_names in
super_classes
let create_curr_class_and_superclasses_fields tenv decl_list class_name otdi_super otdi_protocols =
let super = get_super_interface_decl otdi_super in
let protocols = get_protocols otdi_protocols in
let curr_class = CContext.ContextCls (class_name, super, protocols) in
let superclasses = get_interface_superclasses super protocols in
let fields = CField_decl.get_fields tenv curr_class decl_list in
curr_class, superclasses, fields
let update_curr_class curr_class superclasses =
let get_protocols protocols = list_fold_right (
fun protocol converted_protocols ->
match protocol with
| (Sil.Protocol, name) -> (Mangled.to_string name):: converted_protocols
| _ -> converted_protocols
) protocols [] in
match curr_class with
| CContext.ContextCls (class_name, _, _) ->
let super, protocols =
match superclasses with
| (Sil.Class, name):: rest -> Some (Mangled.to_string name), get_protocols rest
| _ -> None, get_protocols superclasses in
CContext.ContextCls (class_name, super, protocols)
| _ -> assert false
(* Adds pairs (interface name, interface_type_info) to the global environment. *)
let add_class_to_tenv tenv class_name decl_list obj_c_interface_decl_info =
Printing.log_out ~fmt:"ADDING: ObjCInterfaceDecl for '%s'\n" class_name;
let interface_name = CTypes.mk_classname class_name in
let curr_class, superclasses, fields =
create_curr_class_and_superclasses_fields tenv decl_list class_name
obj_c_interface_decl_info.Clang_ast_t.otdi_super
obj_c_interface_decl_info.Clang_ast_t.otdi_protocols in
let methods = ObjcProperty_decl.get_methods curr_class decl_list in
let fields_sc = CField_decl.fields_superclass tenv obj_c_interface_decl_info in
list_iter (fun (fn, ft, _) ->
Printing.log_out ~fmt:"----->SuperClass field: '%s' " (Ident.fieldname_to_string fn);
Printing.log_out ~fmt:"type: '%s'\n" (Sil.typ_to_string ft)) fields_sc;
(*In case we found categories, or partial definition of this class earlier and they are already in the tenv *)
let fields, superclasses, methods =
match Sil.tenv_lookup tenv interface_name with
| Some Sil.Tstruct(saved_fields, _, _, _, saved_superclasses, saved_methods, _) ->
append_no_duplicates_fields fields saved_fields,
append_no_duplicates_csu superclasses saved_superclasses,
append_no_duplicates_methods methods saved_methods
| _ -> fields, superclasses, methods in
let fields = append_no_duplicates_fields fields fields_sc in
(* We add the special hidden counter_field for implementing reference counting *)
let fields = append_no_duplicates_fields [Sil.objc_ref_counter_field] fields in
Printing.log_out ~fmt:"Class %s field:\n" class_name;
list_iter (fun (fn, ft, _) ->
Printing.log_out ~fmt:"-----> field: '%s'\n" (Ident.fieldname_to_string fn)) fields;
let interface_type_info =
Sil.Tstruct(fields, [], Sil.Class, Some (Mangled.from_string class_name),
superclasses, methods, objc_class_annotation) in
Sil.tenv_add tenv interface_name interface_type_info;
Printing.log_out
~fmt:" >>>Verifying that Typename '%s' is in tenv\n" (Sil.typename_to_string interface_name);
(match Sil.tenv_lookup tenv interface_name with
| Some t -> Printing.log_out ~fmt:" >>>OK. Found typ='%s'\n" (Sil.typ_to_string t)
| None -> Printing.log_out " >>>NOT Found!!\n");
curr_class
(* Add potential extra fields defined only in the implementation of the class *)
(* to the info given in the interface. Update the tenv accordingly.*)
let add_missing_fields tenv class_name decl_list idi =
let curr_class, superclasses, fields =
create_curr_class_and_superclasses_fields tenv decl_list class_name
idi.Clang_ast_t.oidi_super [] in
let mang_name = Mangled.from_string class_name in
let class_tn_name = Sil.TN_csu (Sil.Class, mang_name) in
Printing.log_out
~fmt:" >>>Verifying that Typename TN_csu('%s') is in tenv\n"
(Sil.typename_to_string class_tn_name);
let curr_class =
(match Sil.tenv_lookup tenv class_tn_name with
| Some Sil.Tstruct(intf_fields, _, _, _, superclass, methods, annotation) ->
(let compute_extra_fields fields intf_fields =
let equal_fields (fn1, _, _) (fn2, _, _) = Ident.fieldname_equal fn1 fn2 in
let missing_field f = not (list_mem equal_fields f intf_fields) in
list_filter missing_field fields in
Printing.log_out
~fmt:" Looking for extra fields defined only in the implementation of '%s'\n"
class_name;
let extra_fields = compute_extra_fields fields intf_fields in
list_iter (fun (fn, _, _) ->
Printing.log_out
~fmt:" ---> Extra non-static field: '%s'\n" (Ident.fieldname_to_string fn))
extra_fields;
let new_fields = append_no_duplicates_fields extra_fields intf_fields in
let class_type_info =
Sil.Tstruct (
new_fields, [], Sil.Class, Some mang_name, superclass, methods, annotation
) in
Printing.log_out ~fmt:" Updating info for class '%s' in tenv\n" class_name;
Sil.tenv_add tenv class_tn_name class_type_info;
update_curr_class curr_class superclass )
| _ -> assert false) in
curr_class
let add_missing_methods tenv class_name decl_list curr_class =
let methods = ObjcProperty_decl.get_methods curr_class decl_list in
let class_tn_name = Sil.TN_csu (Sil.Class, (Mangled.from_string class_name)) in
match Sil.tenv_lookup tenv class_tn_name with
| Some Sil.Tstruct(fields, [], Sil.Class, Some name, superclass, existing_methods, annotation) ->
let methods = General_utils.append_no_duplicates_methods existing_methods methods in
let typ = Sil.Tstruct(fields, [], Sil.Class, Some name, superclass, methods, annotation) in
Sil.tenv_add tenv class_tn_name typ
| _ -> ()
(* Interface_type_info has the name of instance variables and the name of methods. *)
let interface_declaration tenv class_name decl_list obj_c_interface_decl_info =
let curr_class = add_class_to_tenv tenv class_name decl_list obj_c_interface_decl_info in
curr_class
(* Translate the methods defined in the implementation.*)
let interface_impl_declaration tenv class_name decl_list implementation_decl_info =
let curr_class = add_missing_fields tenv class_name decl_list implementation_decl_info in
add_missing_methods tenv class_name decl_list curr_class;
Printing.log_out ~fmt:"ADDING: ObjCImplementationDecl for class '%s'\n" class_name;
Printing.log_out " Processing method declarations...\n";
curr_class
(* search for definition of interface with non empty set of fields that may come after their use.*)
(* Typical example: *)
(* ...Partial definition of the interface I*)
(* :::: [later in the AST]*)
(* ...use of a field of I*)
(* ::: [later in the AST] *)
(* ...Full definition of the interface I *)
let lookup_late_defined_interface tenv cname =
let rec scan decls =
match decls with
| [] -> ()
| ObjCInterfaceDecl(decl_info, name, decl_list, decl_context_info, obj_c_interface_decl_info)
:: decls'
when (Mangled.from_string name) = cname ->
scan decls'
| ObjCInterfaceDecl(decl_info, name, decl_list, decl_context_info, obj_c_interface_decl_info)
:: decls'
when (Mangled.from_string name) = cname ->
(* Assumption: here we assume that the first interface declaration with non empty set of fields is the *)
(* correct one. So we stop. *)
ignore (interface_declaration tenv name decl_list obj_c_interface_decl_info)
| _:: decls' -> scan decls' in
scan !CFrontend_config.global_translation_unit_decls
(* Finds the field nfield in a Tstruc. If the Tstrct is a class and the field is not found *)
(* the search is extended in a recursive way to the hierarchy of superclasses. *)
let rec find_field tenv nfield str searched_late_defined =
(* let add_namespace_to_namefield cname =
match namespace with
| Some _ -> nfield
| None -> (Mangled.to_string cname)^"_"^nfield in *)
let print_error name_field fields =
Printing.log_err ~fmt:"\nFaild to find name field '%s'\n\n" (Ident.fieldname_to_string name_field) ;
Printing.log_err "In the following list of fields\n";
list_iter (fun (fn, _, _) -> Printing.log_err ~fmt:"\nField name: '%s'\n\n" (Ident.fieldname_to_string fn)) fields;
Printing.print_failure_info "" in
let rec search_super s =
match s with
| [] -> None
| (Sil.Class, sname):: s' ->
L.err "@. ....Searching field in superclass (Class, '%s')@." (Mangled.to_string sname);
let str' = Sil.tenv_lookup tenv (Sil.TN_csu(Sil.Class, sname)) in
(match find_field tenv nfield str' searched_late_defined with
| Some field -> Some field
| None -> search_super s')
| (Sil.Protocol, sname):: s' ->
L.err "@. ... Searching field in protocol (Protocol, '%s')@." (Mangled.to_string sname);
search_super s'
| (Sil.Struct, sname):: s' ->
L.err "@. ... Searching field in struct (Struct, '%s')@." (Mangled.to_string sname);
None
| (Sil.Union, sname):: s' ->
L.err "@. ... Searching field in (Union, '%s')@." (Mangled.to_string sname);
None in
match str with
| Some Sil.Tstruct (sf, nsf, Sil.Struct, Some cname, _, _, _)
| Some Sil.Tstruct (sf, nsf, Sil.Union, Some cname, _, _, _) ->
(let name_field = Ident.create_fieldname (Mangled.from_string nfield) 0 in
try
Some (list_find (fun (fn, _, _) -> Sil.fld_equal fn name_field) (sf@nsf))
with Not_found ->
print_error name_field (sf@nsf); None)
| Some Sil.Tstruct (sf, nsf, Sil.Class, Some cname, super, _, _) ->
(let name_field = CField_decl.mk_class_field_name (Mangled.to_string cname) nfield in
try
Some (list_find (fun (fn, _, _) -> Sil.fld_equal fn name_field) (sf@nsf))
with Not_found ->
(* if we have already searched for late defined interfaces we check recursively *)
(* whether the field is defined in the hiearchy of superclasses.*)
(* If we don't find it we stop, giving error. *)
print_error name_field (sf@nsf);
if searched_late_defined then search_super super
else (
Printing.log_err "@. Search late defined...@.@.";
(* if we don't find the field the first thing we do is scanning later definitions of interfaces. *)
lookup_late_defined_interface tenv cname;
let str' = Sil.tenv_lookup tenv (Sil.TN_csu(Sil.Class, cname)) in
find_field tenv nfield str' true))
| _ -> None