(**************************************************************************) (* *) (* Heptagon *) (* *) (* Author : Marc Pouzet *) (* Organization : Demons, LRI, University of Paris-Sud, Orsay *) (* *) (**************************************************************************) (* naming and local environment *) (* TODO AG : preprocessing pour avoir un release efficace : IFDEF RELEASE type iden = int ELSE *) type ident = { num : int; (* a unique index *) source : string; (* the original name in the source *) is_generated : bool; is_reset : bool; } let is_reset id = id.is_reset type var_ident = ident let num = ref 0 let ident_compare id1 id2 = compare id1.num id2.num (* used only for debuging *) let name id = if id.is_generated then id.source ^ "_" ^ (string_of_int id.num) else id.source (* used only for debuging *) let print_ident ff id = Format.fprintf ff "%s" (name id) module M = struct type t = ident let compare = ident_compare let print_t = print_ident end module Env = struct include (Map.Make(M)) let append env0 env = fold (fun key v env -> add key v env) env0 env (* Environments union *) let union env1 env2 = fold (fun name elt env -> add name elt env) env2 env1 (* Environments difference : env1 - env2 *) let diff env1 env2 = fold (fun name _ env -> remove name env) env2 env1 (* Environments partition *) let partition p env = fold (fun key elt (env1,env2) -> if p(key) then ((add key elt env1),env2) else (env1,(add key elt env2))) env (empty, empty) (* Print Env *) let print_t print_value ff m = Format.fprintf ff "@[{@ "; iter (fun k v -> Format.fprintf ff "%a => %a,@ " M.print_t k print_value v) m; Format.fprintf ff "}@]"; end module IdentSet = struct include (Set.Make(M)) let print_t ff s = Format.fprintf ff "@[{@ "; iter (fun e -> Format.fprintf ff "%a,@ " M.print_t e) s; Format.fprintf ff "}@]"; end module S = Set.Make (struct type t = string let compare = Pervasives.compare end) (** Module used to generate unique string (inside a node) per ident. /!\ Any pass generating a name must call [enter_node] and use gen_fresh *) module UniqueNames = struct open Names let used_names = ref (ref NamesSet.empty) (** Used strings in the current node *) let env = ref Env.empty (** Map idents to their string *) let (node_env : NamesSet.t ref QualEnv.t ref) = ref QualEnv.empty (** This function should be called every time we enter a node *) let enter_node n = (if not (QualEnv.mem n !node_env) then node_env := QualEnv.add n (ref NamesSet.empty) !node_env); used_names := QualEnv.find n !node_env (** @return a unique string for each identifier. Idents corresponding to variables defined in the source file have the same name unless there is a collision. *) let assign_name n = let num = ref 1 in let fresh s = num := !num + 1; s ^ "_" ^ (string_of_int !num) in let rec fresh_string base = let fs = fresh base in if NamesSet.mem fs !(!used_names) then fresh_string base else fs in if not (Env.mem n !env) then (let s = n.source in let s = if NamesSet.mem s !(!used_names) then fresh_string s else s in !used_names := NamesSet.add s !(!used_names); env := Env.add n s !env) let name id = Env.find id !env end let gen_fresh pass_name kind_to_string ?(reset=false) kind = let s = kind_to_string kind in let s = if !Compiler_options.full_name then "__"^pass_name ^ "_" ^ s else s in num := !num + 1; let id = { num = !num; source = s; is_generated = true; is_reset = reset } in UniqueNames.assign_name id; id let gen_var pass_name ?(reset=false) name = gen_fresh pass_name (fun () -> name) ~reset:reset () let ident_of_name ?(reset=false) s = num := !num + 1; let id = { num = !num; source = s; is_generated = false; is_reset = reset } in UniqueNames.assign_name id; id let source_name id = id.source let name id = UniqueNames.name id let enter_node n = UniqueNames.enter_node n let print_ident ff id = Format.fprintf ff "%s" (name id)