(**************************************************************************) (* *) (* Heptagon *) (* *) (* Author : Marc Pouzet *) (* Organization : Demons, LRI, University of Paris-Sud, Orsay *) (* *) (**************************************************************************) (* Module objects and global environnement management *) open Misc open Compiler_options open Signature open Types open Names exception Already_defined (** Warning: Whenever this type is modified, interface_format_version in signature.ml should be incremented. *) (** Object serialized in compiled interfaces. *) type module_object = { m_name : Names.modul; m_values : node NamesEnv.t; m_types : type_def NamesEnv.t; m_consts : const_def NamesEnv.t; m_constrs : name NamesEnv.t; m_fields : name NamesEnv.t; m_format_version : string; } type env = { (** Current module name *) mutable current_mod : modul; (** Modules opened and loaded into the env *) mutable opened_mod : modul list; (** Modules loaded into the env *) mutable loaded_mod : modul list; (** Node definitions *) mutable values : node QualEnv.t; (** Type definitions *) mutable types : type_def QualEnv.t; (** Constants definitions *) mutable consts : const_def QualEnv.t; (** Constructors mapped to their corresponding type *) mutable constrs : qualname QualEnv.t; (** Fields mapped to their corresponding type *) mutable fields : qualname QualEnv.t; (** Accepted compiled interface version *) format_version : string } (** The global environnement *) let g_env = { current_mod = Module ""; opened_mod = []; loaded_mod = []; values = QualEnv.empty; types = QualEnv.empty; constrs = QualEnv.empty; fields = QualEnv.empty; consts = QualEnv.empty; format_version = interface_format_version } let is_loaded m = List.mem m g_env.loaded_mod let is_opened m = List.mem m g_env.opened_mod (** Append a module to the global environnment *) let _append_module mo = (* Transforms a module object NamesEnv into its qualified version *) let qualify mo_env = (* qualify env keys *) NamesEnv.fold (fun x v env -> QualEnv.add { qual = mo.m_name; name = x } v env) mo_env QualEnv.empty in let qualify_all mo_env = (* qualify env keys and values *) NamesEnv.fold (fun x v env -> QualEnv.add {qual= mo.m_name; name= x} {qual= mo.m_name; name= v} env) mo_env QualEnv.empty in g_env.values <- QualEnv.append (qualify mo.m_values) g_env.values; g_env.types <- QualEnv.append (qualify mo.m_types) g_env.types; g_env.constrs <- QualEnv.append (qualify_all mo.m_constrs) g_env.constrs; g_env.fields <- QualEnv.append (qualify_all mo.m_fields) g_env.fields; g_env.consts <- QualEnv.append (qualify mo.m_consts) g_env.consts (** Load a module into the global environment unless already loaded *) let _load_module modul = if is_loaded modul then () else let modname = match modul with | Names.Pervasives -> "Pervasives" | Names.Module n -> n | Names.LocalModule -> Misc.internal_error "modules" | Names.QualModule _ -> Misc.unsupported "modules" in let name = String.uncapitalize modname in try let filename = Compiler_utils.findfile (name ^ ".epci") in let ic = open_in_bin filename in let mo:module_object = try input_value ic with End_of_file | Failure _ -> close_in ic; Format.eprintf "Corrupted compiled interface file %s.@\n\ Please recompile %s.ept first.@." filename name; raise Errors.Error in if mo.m_format_version <> interface_format_version then ( Format.eprintf "The file %s was compiled with an older version \ of the compiler.@\nPlease recompile %s.ept first.@." filename name; raise Errors.Error ); g_env.loaded_mod <- modul::g_env.loaded_mod; _append_module mo with | Compiler_utils.Cannot_find_file(f) -> Format.eprintf "Cannot find the compiled interface file %s.@." f; raise Errors.Error (** Opens a module unless already opened by loading it into the global environment and setting it as opened *) let open_module modul = if is_opened modul then () else _load_module modul; g_env.opened_mod <- modul::g_env.opened_mod (** Initialize the global environment : set current module and open default modules *) let initialize modul = g_env.current_mod <- modul; g_env.opened_mod <- []; g_env.loaded_mod <- [modul]; List.iter open_module !default_used_modules (** { 3 Add functions prevent redefinitions } *) let _check_not_defined env f = if QualEnv.mem f env then raise Already_defined let add_value f v = _check_not_defined g_env.values f; g_env.values <- QualEnv.add f v g_env.values let add_type f v = _check_not_defined g_env.types f; g_env.types <- QualEnv.add f v g_env.types let add_constrs f v = _check_not_defined g_env.constrs f; g_env.constrs <- QualEnv.add f v g_env.constrs let add_field f v = _check_not_defined g_env.fields f; g_env.fields <- QualEnv.add f v g_env.fields let add_const f v = _check_not_defined g_env.consts f; g_env.consts <- QualEnv.add f v g_env.consts (** Same as add_value but without checking for redefinition *) let replace_value f v = g_env.values <- QualEnv.add f v g_env.values let replace_type f v = g_env.types <- QualEnv.add f v g_env.types let replace_const f v = g_env.consts <- QualEnv.add f v g_env.consts (** { 3 Find functions look in the global environement, nothing more } *) let find_value x = QualEnv.find x g_env.values let find_type x = QualEnv.find x g_env.types let find_constrs x = QualEnv.find x g_env.constrs let find_field x = QualEnv.find x g_env.fields let find_const x = QualEnv.find x g_env.consts (** @return the fields of a record type. *) let find_struct n = match find_type n with | Tstruct fields -> fields | _ -> raise Not_found (** { 3 Check functions } Try to load the needed module and then to find it, return true if in the table, return false if it can't find it. *) (* NB : we can't factorize this functions since g_env is changed by _load... *) let check_value q = _load_module q.qual; try let _ = QualEnv.find q g_env.values in true with Not_found -> false let check_type q = _load_module q.qual; try let _ = QualEnv.find q g_env.types in true with Not_found -> false let check_constrs q = _load_module q.qual; try let _ = QualEnv.find q g_env.constrs in true with Not_found -> false let check_field q = _load_module q.qual; try let _ = QualEnv.find q g_env.fields in true with Not_found -> false let check_const q = _load_module q.qual; try let _ = QualEnv.find q g_env.consts in true with Not_found -> false (** { 3 Qualify functions [qualify_* name] return the qualified name matching [name] in the global env scope (current module :: opened modules). @raise [Not_found] if not in scope } *) let _qualify env name = let tries m = try let _ = QualEnv.find { qual = m; name = name } env in true with Not_found -> false in let m = List.find tries (g_env.current_mod::g_env.opened_mod) in { qual = m; name = name } let qualify_value name = _qualify g_env.values name let qualify_type name = _qualify g_env.types name let qualify_constrs name = _qualify g_env.constrs name let qualify_field name = _qualify g_env.fields name let qualify_const name = _qualify g_env.consts name (** @return the name as qualified with the current module (should not be used..)*) let current_qual n = { qual = g_env.current_mod; name = n } (** { 3 Fresh functions return a fresh qualname for the current module } *) let rec fresh_value pass_name name = let fname = if !Compiler_options.full_name then ("__"^ pass_name ^"_"^ name) else name in let q = current_qual fname in if QualEnv.mem q g_env.values then fresh_value pass_name (name ^ Misc.gen_symbol()) else q let rec fresh_value_in pass_name name qualifier = let fname = if !Compiler_options.full_name then ("__"^ pass_name ^"_"^ name) else name in let q = { qual = qualifier; name = fname } in if QualEnv.mem q g_env.values then fresh_value_in pass_name (name ^ Misc.gen_symbol()) qualifier else q let rec fresh_type pass_name name = let fname = if !Compiler_options.full_name then ("__"^ pass_name ^"_"^ name) else name in let q = current_qual fname in if QualEnv.mem q g_env.types then fresh_type pass_name (name ^ Misc.gen_symbol()) else q let rec fresh_const pass_name name = let fname = if !Compiler_options.full_name then ("__"^ pass_name ^"_"^ name) else name in let q = current_qual fname in if QualEnv.mem q g_env.consts then fresh_const pass_name (name ^ Misc.gen_symbol()) else q let rec fresh_constr pass_name name = let fname = if !Compiler_options.full_name then ("__"^ pass_name ^"_"^ name) else name in let q = current_qual fname in if QualEnv.mem q g_env.constrs then fresh_constr pass_name (name ^ Misc.gen_symbol()) else q exception Undefined_type of qualname (** @return the unaliased version of a type. @raise Undefined_type *) let rec unalias_type t = match t with | Tid ({ qual = q } as ty_name) -> _load_module q; (try match find_type ty_name with | Talias ty -> unalias_type ty | _ -> t with Not_found -> raise (Undefined_type ty_name)) | Tarray (ty, n) -> Tarray(unalias_type ty, n) | Tprod ty_list -> Tprod (List.map unalias_type ty_list) | Tinvalid -> Tinvalid (** Return the current module as a [module_object] *) let current_module () = (* Filter and transform a qualified env into the current module object env *) let unqualify env = (* unqualify and filter env keys *) QualEnv.fold (fun x v current -> if x.qual = g_env.current_mod then NamesEnv.add x.name v current else current) env NamesEnv.empty in let unqualify_all env = (* unqualify and filter env keys and values *) QualEnv.fold (fun x v current -> if x.qual = g_env.current_mod then NamesEnv.add x.name v.name current else current) env NamesEnv.empty in { m_name = g_env.current_mod; m_values = unqualify g_env.values; m_types = unqualify g_env.types; m_consts = unqualify g_env.consts; m_constrs = unqualify_all g_env.constrs; m_fields = unqualify_all g_env.fields; m_format_version = g_env.format_version }