(* Title: Pure/General/name_space.ML
ID: $Id$
Author: Markus Wenzel, TU Muenchen
License: GPL (GNU GENERAL PUBLIC LICENSE)
Hierarchically structured name spaces.
More general than ML-like nested structures, but also slightly more
ad-hoc. Does not support absolute addressing. Unknown names are
implicitely considered to be declared outermost.
*)
signature NAME_SPACE =
sig
val separator: string (*single char!*)
val append: string -> string -> string
val unpack: string -> string list
val pack: string list -> string
val base: string -> string
val is_qualified: string -> bool
val accesses: string -> string list
type T
val empty: T
val extend: T * string list -> T
val merge: T * T -> T
val hide: T * string list -> T
val intern: T -> string -> string
val extern: T -> string -> string
val long_names: bool ref
val cond_extern: T -> string -> string
val cond_extern_table: T -> 'a Symtab.table -> (string * 'a) list
val dest: T -> (string * string list) list
end;
structure NameSpace: NAME_SPACE =
struct
(** utils **)
fun prefixes1 [] = []
| prefixes1 (x :: xs) = map (cons x) ([] :: prefixes1 xs);
fun suffixes1 xs = map rev (prefixes1 (rev xs));
(** long identifiers **)
val separator = ".";
fun hidden name = "??." ^ name;
fun is_hidden name = (case explode name of "?" :: "?" :: "." :: _ => true | _ => false);
fun append name1 name2 = name1 ^ separator ^ name2;
val unpack = space_explode separator;
val pack = space_implode separator;
val base = last_elem o unpack;
fun is_qualified name = length (unpack name) > 1;
fun accesses name =
let
val uname = unpack name;
val (q, b) = split_last uname;
val sfxs = suffixes1 uname;
val pfxs = map (fn x => x @ [b]) (prefixes1 q);
in map pack (sfxs @ pfxs) end;
(** name spaces **)
(* basic operations *)
fun map_space f xname tab =
Symtab.update ((xname, f (if_none (Symtab.lookup (tab, xname)) ([], []))), tab);
fun change f xname (name, tab) =
map_space (fn (names, names') => (f names name, names')) xname tab;
fun change' f xname (name', tab) =
map_space (fn (names, names') => (names, f names' name')) xname tab;
fun del names nm = if nm mem_string names then Library.gen_rem (op =) (names, nm) else names;
fun add names nm = nm :: del names nm;
(* datatype T *)
datatype T =
NameSpace of (string list * string list) Symtab.table;
val empty = NameSpace Symtab.empty;
(* extend *) (*later entries preferred*)
fun extend_aux (name, tab) =
if is_hidden name then
error ("Attempt to declare hidden name " ^ quote name)
else foldl (fn (tb, xname) => change add xname (name, tb)) (tab, accesses name);
fun extend (NameSpace tab, names) = NameSpace (foldr extend_aux (names, tab));
(* merge *) (*1st preferred over 2nd*)
fun merge_aux (tab, (xname, (names, names'))) =
foldr (change add xname) (names, foldr (change' add xname) (names', tab));
fun merge (NameSpace tab1, NameSpace tab2) =
NameSpace (Symtab.foldl merge_aux (tab2, tab1));
(* hide *)
fun hide_aux (name, tab) =
if not (is_qualified name) then
error ("Attempt to hide global name " ^ quote name)
else if is_hidden name then
error ("Attempt to hide hidden name " ^ quote name)
else (change' add name (name,
foldl (fn (tb, xname) => change del xname (name, tb)) (tab, accesses name)));
fun hide (NameSpace tab, names) = NameSpace (foldr hide_aux (names, tab));
(* intern / extern names *)
fun lookup (NameSpace tab) xname =
(case Symtab.lookup (tab, xname) of
None => (xname, true)
| Some ([name], _) => (name, true)
| Some (name :: _, _) => (name, false)
| Some ([], []) => (xname, true)
| Some ([], name' :: _) => (hidden name', true));
fun intern spc xname = #1 (lookup spc xname);
fun extern space name =
let
fun try [] = hidden name
| try (nm :: nms) =
let val (full_nm, uniq) = lookup space nm
in if full_nm = name andalso uniq then nm else try nms end
in try (map pack (suffixes1 (unpack name))) end;
(*prune names on output by default*)
val long_names = ref false;
fun cond_extern space = if ! long_names then I else extern space;
fun cond_extern_table space tab =
Library.sort_wrt #1 (map (apfst (cond_extern space)) (Symtab.dest tab));
(* dest *)
fun dest_entry (xname, ([], _)) = None
| dest_entry (xname, (name :: _, _)) = Some (name, xname);
fun dest (NameSpace tab) =
map (apsnd (sort (int_ord o pairself size)))
(Symtab.dest (Symtab.make_multi (mapfilter dest_entry (Symtab.dest tab))));
end;
val long_names = NameSpace.long_names;