(* * 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. *) (** Contains current class and current method to be translated as well as local variables, *) (** and the cg, cfg, and tenv corresponding to the current file. *) open Utils open CFrontend_utils type varStack = (Mangled.t * Sil.typ * int) Stack.t type varMap = varStack StringMap.t type pointerVarMap = Sil.pvar StringMap.t module L = Logging type curr_class = | ContextCls of string * string option * string list (*class name and name of (optional) super class , and a list of protocols *) | ContextCategory of string * string (* category name and corresponding class *) | ContextProtocol of string (* category name and corresponding class *) | ContextNoCls type t = { tenv : Sil.tenv; cg : Cg.t; cfg : Cfg.cfg; procdesc : Cfg.Procdesc.t; is_objc_method : bool; is_instance : bool; curr_class: curr_class; is_callee_expression : bool; namespace: string option; (* contains the name of the namespace if we are in the scope of one*) mutable local_vars : (Mangled.t * Sil.typ * bool) list; (* (name, type, is_static flag) *) mutable captured_vars : (Mangled.t * Sil.typ * bool) list; (* (name, type, is_static flag) *) mutable local_vars_stack : varMap; mutable local_vars_pointer : pointerVarMap } module LocalVars = struct module Block = struct let depth_counter = ref 0 let enter () = depth_counter := !depth_counter + 1 let leave () = depth_counter := !depth_counter - 1 let reset () = depth_counter := 0 let depth () = !depth_counter end let lookup_var_map context var_name = try StringMap.find var_name context.local_vars_stack with Not_found -> Stack.create () let lookup_var_formals context procname var_name = let formals = Cfg.Procdesc.get_formals context.procdesc in let arg, typ = list_find (fun (arg, typ) -> arg = var_name) formals in let var = Sil.mk_pvar (Mangled.from_string var_name) procname in (var, typ) let lookup_var_captured context procname var_name = let cv, typ, _ = list_find (fun (arg, typ, _) -> arg = Mangled.from_string var_name) context.captured_vars in let var = Sil.mk_pvar cv procname in (var, typ) let lookup_var_globals context procname name = let var_name = Mangled.from_string name in let global_var = CGlobal_vars.find var_name in let var = CGlobal_vars.var_get_name global_var in Printing.log_out " ...Variable '%s' found in globals!!@\n" (Sil.pvar_to_string var); let typ = CGlobal_vars.var_get_typ global_var in var, typ let is_captured_var context name = list_exists (fun (v, _, _) -> (Mangled.to_string v) = name) context.captured_vars let is_global_var context name = try let procname = Cfg.Procdesc.get_proc_name context.procdesc in ignore (lookup_var_globals context procname name); true with Not_found -> false let print_locals context = let print_stack var_name stack = Stack.iter (fun (var_name, typ, level) -> Printing.log_out "var item %s:" (Mangled.to_string var_name); Printing.log_out "%s" (Sil.typ_to_string typ); Printing.log_out "- %s @." (string_of_int level)) stack in Printing.log_out "LOCAL VARS:@\n"; StringMap.iter print_stack context.local_vars_stack let print_pointer_vars context = let print_pointer_var pointer var = Printing.log_out "%s ->" pointer; Printing.log_out " %s@\n" (Sil.pvar_to_string var) in Printing.log_out "POINTER VARS:@\n"; StringMap.iter print_pointer_var context.local_vars_pointer let add_pointer_var pointer var context = Printing.log_out " ...Adding pointer '%s' " pointer; Printing.log_out "to the map with variable '%s'@." (Sil.pvar_to_string var); context.local_vars_pointer <- StringMap.add pointer var context.local_vars_pointer let find_var_with_pointer context pointer = try StringMap.find pointer context.local_vars_pointer with Not_found -> (Printing.log_err " ...Variable for pointer %s not found!!\n%!" pointer); print_pointer_vars context; assert false let lookup_var_locals context procname var_name = let stack = lookup_var_map context var_name in let (var_name, typ, level) = Stack.top stack in Printing.log_out " ...Variable %s found in locals!!@." (Mangled.to_string var_name); (Sil.mk_pvar var_name procname), typ let lookup_var context pointer var_name kind = let procname = Cfg.Procdesc.get_proc_name context.procdesc in if (kind = `Var) then try Some (fst (lookup_var_locals context procname var_name)) with Stack.Empty -> try Some (fst (lookup_var_globals context procname var_name)) with Not_found -> if is_captured_var context var_name then try (* if it's a captured variable we need to look at the parameters list*) Some (fst (lookup_var_formals context procname var_name)) with Not_found -> Printing.log_err "Variable %s not found!!\n%!" var_name; print_locals context; None else None else if (kind = `ParmVar) then try Some (fst (lookup_var_formals context procname var_name)) with Not_found -> let list_to_string = list_to_string (fun (a, typ) -> a^":"^(Sil.typ_to_string typ)) in Printing.log_err "Warning: Parameter %s not found!!\n%!" var_name; Printing.log_err "Formals of procdesc %s" (Procname.to_string procname); Printing.log_err " are %s\n%!" (list_to_string (Cfg.Procdesc.get_formals context.procdesc)); Printing.print_failure_info pointer; assert false else if (kind = `Function || kind = `ImplicitParam) then ( (* ImplicitParam are 'self' and '_cmd'. These are never defined but they can be referred to in the code. *) Printing.log_err "Creating a variable for '%s' \n%!" var_name; Some (Sil.mk_pvar (Mangled.from_string var_name) procname)) else if (kind = `EnumConstant) then (Printing.print_failure_info pointer; assert false) else (Printing.log_err "WARNING: In lookup_var kind %s not handled. Giving up!\n%!" (Clang_ast_j.string_of_decl_kind kind); Printing.print_failure_info pointer; assert false) let get_variable_name name = Mangled.mangled name ((string_of_int(Block.depth ()))) let add_local_var context var_name typ pointer is_static = Printing.log_out " ...Creating var %s" var_name; Printing.log_out " with pointer %s@\n" pointer; if not (is_global_var context var_name) || is_static then let var = get_variable_name var_name in context.local_vars <- context.local_vars@[(var, typ, is_static)] ; let stack = lookup_var_map context var_name in let procname = Cfg.Procdesc.get_proc_name context.procdesc in let pvar = Sil.mk_pvar var procname in Stack.push (var, typ, Block.depth ()) stack; context.local_vars_stack <- StringMap.add var_name stack context.local_vars_stack; add_pointer_var pointer pvar context let reset_local_vars context = context.local_vars <- [] let get_local_vars context = context.local_vars let remove_top_level_local_vars context = let remove_top var_name stack = try let (top_var, top_typ, top_level) = Stack.top stack in if top_level == (Block.depth ()) then (ignore (Stack.pop stack); context.local_vars_stack <- StringMap.add var_name stack context.local_vars_stack) else () with Stack.Empty -> () in StringMap.iter remove_top context.local_vars_stack let enter_and_leave_scope context f lstmt = Block.enter (); f context lstmt; remove_top_level_local_vars context; Block.leave () let reset_block = Block.reset end let create_context tenv cg cfg procdesc ns curr_class is_objc_method cv is_instance = { tenv = tenv; cg = cg; cfg = cfg; procdesc = procdesc; curr_class = curr_class; is_callee_expression = false; is_objc_method = is_objc_method; is_instance = is_instance; namespace = ns; local_vars = []; captured_vars = cv; local_vars_stack = StringMap.empty; local_vars_pointer = StringMap.empty } let get_cfg context = context.cfg let get_cg context = context.cg let get_tenv context = context.tenv let get_procdesc context = context.procdesc let is_objc_method context = context.is_objc_method let get_curr_class context = context.curr_class let get_curr_class_name curr_class = match curr_class with | ContextCls (name, _, _) -> name | ContextCategory (name, cls) -> cls | ContextProtocol name -> name | ContextNoCls -> assert false let curr_class_to_string curr_class = match curr_class with | ContextCls (name, superclass, protocols) -> ("class " ^ name ^ ", superclass: " ^ (Option.default "" superclass) ^ ", protocols: " ^ (Utils.list_to_string (fun x -> x) protocols)) | ContextCategory (name, cls) -> ("category " ^ name ^ " of class " ^ cls) | ContextProtocol name -> ("protocol " ^ name) | ContextNoCls -> "no class" let curr_class_compare curr_class1 curr_class2 = match curr_class1, curr_class2 with | ContextCls (name1, _, _), ContextCls (name2, _, _) -> String.compare name1 name2 | ContextCls (_, _, _), _ -> -1 | _, ContextCls (_, _, _) -> 1 | ContextCategory (name1, cls1), ContextCategory (name2, cls2) -> Utils.pair_compare String.compare String.compare (name1, cls1) (name2, cls2) | ContextCategory (_, _), _ -> -1 | _, ContextCategory (_, _) -> 1 | ContextProtocol name1, ContextProtocol name2 -> String.compare name1 name2 | ContextProtocol _, _ -> -1 | _, ContextProtocol _ -> 1 | ContextNoCls, ContextNoCls -> 0 let curr_class_equal curr_class1 curr_class2 = curr_class_compare curr_class1 curr_class2 == 0 let curr_class_hash curr_class = match curr_class with | ContextCls (name, _, _) -> Hashtbl.hash name | ContextCategory (name, cls) -> Hashtbl.hash (name, cls) | ContextProtocol name -> Hashtbl.hash name | ContextNoCls -> Hashtbl.hash "no class" let get_qt_curr_class curr_class = (get_curr_class_name curr_class)^" *" let get_captured_vars context = context.captured_vars let create_curr_class tenv class_name = 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(intf_fields, _, _, _, superclasses, methods, annotation) -> (let superclasses_names = list_map (fun (_, name) -> Mangled.to_string name) superclasses in match superclasses_names with | superclass:: protocols -> ContextCls (class_name, Some superclass, protocols) | [] -> ContextCls (class_name, None, [])) | _ -> assert false