(* * Copyright (c) 2013 - present Facebook, Inc. * All rights reserved. * * This source code is licensed under the BSD style license found in the * LICENSE file in the root directory of this source tree. An additional grant * of patent rights can be found in the PATENTS file in the same directory. *) open! Utils (** Translate declarations **) module L = Logging open CFrontend_utils module type CFrontend_decl = sig val function_decl : Tenv.t -> Cfg.cfg -> Cg.t -> Clang_ast_t.decl -> CModule_type.block_data option -> unit val translate_one_declaration : Tenv.t -> Cg.t -> Cfg.cfg -> CModule_type.decl_trans_context -> Clang_ast_t.decl -> unit end module CFrontend_decl_funct(T: CModule_type.CTranslation) : CFrontend_decl = struct let model_exists procname = Specs.summary_exists_in_models procname && not Config.models_mode (* Translates the method/function's body into nodes of the cfg. *) let add_method tenv cg cfg class_decl_opt procname body has_return_param is_objc_method outer_context_opt extra_instrs = Logging.out_debug "\n\n>>---------- ADDING METHOD: '%s' ---------<<\n@." (Procname.to_string procname); try (match Cfg.Procdesc.find_from_name cfg procname with | Some procdesc -> if (Cfg.Procdesc.is_defined procdesc && not (model_exists procname)) then (let context = CContext.create_context tenv cg cfg procdesc class_decl_opt has_return_param is_objc_method outer_context_opt in let start_node = Cfg.Procdesc.get_start_node procdesc in let exit_node = Cfg.Procdesc.get_exit_node procdesc in Logging.out_debug "\n\n>>---------- Start translating body of function: '%s' ---------<<\n@." (Procname.to_string procname); let meth_body_nodes = T.instructions_trans context body extra_instrs exit_node in Cfg.Node.add_locals_ret_declaration start_node (Cfg.Procdesc.get_locals procdesc); Cfg.Node.set_succs_exn cfg start_node meth_body_nodes []; Cg.add_defined_node (CContext.get_cg context) (Cfg.Procdesc.get_proc_name procdesc)) | None -> ()) with | Not_found -> () | CTrans_utils.Self.SelfClassException _ -> assert false (* this shouldn't happen, because self or [a class] should always be arguments of functions. This is to make sure I'm not wrong. *) | Assert_failure (file, line, column) -> Logging.out "Fatal error: exception Assert_failure(%s, %d, %d)\n%!" file line column; Cfg.Procdesc.remove cfg procname true; CMethod_trans.create_external_procdesc cfg procname is_objc_method None; () let function_decl tenv cfg cg func_decl block_data_opt = let captured_vars, outer_context_opt = match block_data_opt with | Some (outer_context, _, _, captured_vars) -> captured_vars, Some outer_context | None -> [], None in let ms, body_opt, extra_instrs = CMethod_trans.method_signature_of_decl tenv func_decl block_data_opt in match body_opt with | Some body -> (* Only in the case the function declaration has a defined body we create a procdesc *) let procname = CMethod_signature.ms_get_name ms in let return_param_typ_opt = CMethod_signature.ms_get_return_param_typ ms in if CMethod_trans.create_local_procdesc cfg tenv ms [body] captured_vars false then add_method tenv cg cfg CContext.ContextNoCls procname body return_param_typ_opt false outer_context_opt extra_instrs | None -> () let process_method_decl tenv cg cfg curr_class meth_decl ~is_objc = let ms, body_opt, extra_instrs = CMethod_trans.method_signature_of_decl tenv meth_decl None in match body_opt with | Some body -> let is_instance = CMethod_signature.ms_is_instance ms in let procname = CMethod_signature.ms_get_name ms in let is_objc_inst_method = is_instance && is_objc in let return_param_typ_opt = CMethod_signature.ms_get_return_param_typ ms in if CMethod_trans.create_local_procdesc cfg tenv ms [body] [] is_objc_inst_method then add_method tenv cg cfg curr_class procname body return_param_typ_opt is_objc None extra_instrs | None -> () let process_property_implementation obj_c_property_impl_decl_info = let property_decl_opt = obj_c_property_impl_decl_info.Clang_ast_t.opidi_property_decl in match Ast_utils.get_decl_opt_with_decl_ref property_decl_opt with | Some ObjCPropertyDecl (_, _, obj_c_property_decl_info) -> let ivar_decl_ref = obj_c_property_decl_info.Clang_ast_t.opdi_ivar_decl in (match Ast_utils.get_decl_opt_with_decl_ref ivar_decl_ref with | Some ObjCIvarDecl (_, named_decl_info, _, _, _) -> let field_name = General_utils.mk_class_field_name named_decl_info in let process_accessor pointer ~getter = (match Ast_utils.get_decl_opt_with_decl_ref pointer with | Some (ObjCMethodDecl (decl_info, _, _) as d) -> let source_range = decl_info.Clang_ast_t.di_source_range in let loc = CLocation.get_sil_location_from_range source_range true in let property_accessor = if getter then Some (ProcAttributes.Objc_getter field_name) else Some (ProcAttributes.Objc_setter field_name) in let procname = General_utils.procname_of_decl d in let attrs = { (ProcAttributes.default procname Config.Clang) with loc = loc; objc_accessor = property_accessor; } in AttributesTable.store_attributes attrs | _ -> ()) in process_accessor obj_c_property_decl_info.Clang_ast_t.opdi_getter_method ~getter:true; process_accessor obj_c_property_decl_info.Clang_ast_t.opdi_setter_method ~getter:false | _ -> ()) | _ -> () let process_one_method_decl tenv cg cfg curr_class dec = let open Clang_ast_t in match dec with | CXXMethodDecl _ | CXXConstructorDecl _ | CXXConversionDecl _ | CXXDestructorDecl _ -> process_method_decl tenv cg cfg curr_class dec ~is_objc:false | ObjCMethodDecl _ -> process_method_decl tenv cg cfg curr_class dec ~is_objc:true | ObjCPropertyImplDecl (_, obj_c_property_impl_decl_info) -> process_property_implementation obj_c_property_impl_decl_info | EmptyDecl _ | ObjCIvarDecl _ | ObjCPropertyDecl _ -> () | _ -> Logging.out "\nWARNING: found Method Declaration '%s' skipped. NEED TO BE FIXED\n\n" (Ast_utils.string_of_decl dec); () let process_methods tenv cg cfg curr_class decl_list = IList.iter (process_one_method_decl tenv cg cfg curr_class) decl_list let should_translate_decl dec decl_trans_context = let info = Clang_ast_proj.get_decl_tuple dec in CLocation.update_curr_file info; let source_range = info.Clang_ast_t.di_source_range in let translate_when_used = match dec with | Clang_ast_t.FunctionDecl (_, name_info, _, _) | Clang_ast_t.CXXMethodDecl (_, name_info, _, _, _) -> (* named_decl_info.ni_name has name without template parameters.*) (* It makes it possible to capture whole family of function instantiations*) (* to be named the same *) let name = Ast_utils.get_qualified_name name_info in AttributesTable.is_whitelisted_cpp_method name | _ -> false in let translate_location = CLocation.should_translate_lib source_range decl_trans_context ~translate_when_used in let never_translate_decl = match dec with | Clang_ast_t.FunctionDecl (_, name_info, _, _) | Clang_ast_t.CXXMethodDecl (_, name_info, _, _, _) -> let fun_name = name_info.Clang_ast_t.ni_name in Str.string_match (Str.regexp "__infer_skip__" ) fun_name 0 | _ -> false in (not never_translate_decl) && translate_location (* Translate one global declaration *) let rec translate_one_declaration tenv cg cfg decl_trans_context dec = let open Clang_ast_t in (* each procedure has different scope: start names from id 0 *) Ident.NameGenerator.reset (); (if should_translate_decl dec decl_trans_context then match dec with | FunctionDecl(_, _, _, _) -> function_decl tenv cfg cg dec None | ObjCInterfaceDecl(_, name_info, decl_list, _, oi_decl_info) -> let name = Ast_utils.get_qualified_name name_info in let curr_class = ObjcInterface_decl.get_curr_class name oi_decl_info in ignore (ObjcInterface_decl.interface_declaration CTypes_decl.type_ptr_to_sil_type tenv dec); process_methods tenv cg cfg curr_class decl_list | ObjCProtocolDecl(_, name_info, decl_list, _, _) -> let name = Ast_utils.get_qualified_name name_info in let curr_class = CContext.ContextProtocol name in ignore (ObjcProtocol_decl.protocol_decl CTypes_decl.type_ptr_to_sil_type tenv dec); process_methods tenv cg cfg curr_class decl_list | ObjCCategoryDecl(_, name_info, decl_list, _, ocdi) -> let name = Ast_utils.get_qualified_name name_info in let curr_class = ObjcCategory_decl.get_curr_class_from_category_decl name ocdi in ignore (ObjcCategory_decl.category_decl CTypes_decl.type_ptr_to_sil_type tenv dec); process_methods tenv cg cfg curr_class decl_list | ObjCCategoryImplDecl(_, name_info, decl_list, _, ocidi) -> let name = Ast_utils.get_qualified_name name_info in let curr_class = ObjcCategory_decl.get_curr_class_from_category_impl name ocidi in ignore (ObjcCategory_decl.category_impl_decl CTypes_decl.type_ptr_to_sil_type tenv dec); process_methods tenv cg cfg curr_class decl_list; | ObjCImplementationDecl(decl_info, _, decl_list, _, idi) -> let curr_class = ObjcInterface_decl.get_curr_class_impl idi in let class_name = CContext.get_curr_class_name curr_class in let type_ptr_to_sil_type = CTypes_decl.type_ptr_to_sil_type in ignore (ObjcInterface_decl.interface_impl_declaration type_ptr_to_sil_type tenv dec); CMethod_trans.add_default_method_for_class class_name decl_info; process_methods tenv cg cfg curr_class decl_list; | CXXMethodDecl (decl_info, _, _, _, _) | CXXConstructorDecl (decl_info, _, _, _, _) | CXXConversionDecl (decl_info, _, _, _, _) | CXXDestructorDecl (decl_info, _, _, _, _) -> (* di_parent_pointer has pointer to lexical context such as class.*) let parent_ptr = Option.get decl_info.Clang_ast_t.di_parent_pointer in let class_decl = Ast_utils.get_decl parent_ptr in (match class_decl with | Some (CXXRecordDecl _) | Some (ClassTemplateSpecializationDecl _) -> let curr_class = CContext.ContextClsDeclPtr parent_ptr in if Config.cxx_experimental then process_methods tenv cg cfg curr_class [dec] | Some dec -> Logging.out "Methods of %s skipped\n" (Ast_utils.string_of_decl dec) | None -> ()) | _ -> ()); match dec with (* Note that C and C++ records are treated the same way Skip translating implicit struct declarations, unless they have full definition (which happens with C++ lambdas) *) | ClassTemplateSpecializationDecl (di, _, _, _, decl_list, _, rdi, _, _) | CXXRecordDecl (di, _, _, _, decl_list, _, rdi, _) | RecordDecl (di, _, _, _, decl_list, _, rdi) when (not di.di_is_implicit) || rdi.rdi_is_complete_definition -> let is_method_decl decl = match decl with | CXXMethodDecl _ | CXXConstructorDecl _ | CXXConversionDecl _ | CXXDestructorDecl _ | FunctionTemplateDecl _ -> true | _ -> false in let method_decls, no_method_decls = IList.partition is_method_decl decl_list in IList.iter (translate_one_declaration tenv cg cfg decl_trans_context) no_method_decls; ignore (CTypes_decl.add_types_from_decl_to_tenv tenv dec); IList.iter (translate_one_declaration tenv cg cfg decl_trans_context) method_decls | EnumDecl _ -> ignore (CEnum_decl.enum_decl dec) | LinkageSpecDecl (_, decl_list, _) -> Logging.out_debug "ADDING: LinkageSpecDecl decl list\n"; IList.iter (translate_one_declaration tenv cg cfg decl_trans_context) decl_list | NamespaceDecl (_, _, decl_list, _, _) -> IList.iter (translate_one_declaration tenv cg cfg decl_trans_context) decl_list | ClassTemplateDecl (_, _, template_decl_info) | FunctionTemplateDecl (_, _, template_decl_info) -> let decl_list = template_decl_info.Clang_ast_t.tdi_specializations in IList.iter (translate_one_declaration tenv cg cfg decl_trans_context) decl_list | _ -> () end