* http://cs.unibo.it/helm/.
*)
+module H = Hashtbl
+
module M = Meta
module A = Aut
-type context_node = M.qid option (* context node: None = root *)
+type environment = (M.qid, M.pars) H.t
-type context = (M.qid * M.term * context_node) list (* context: son, parent *)
+type context_node = M.qid option (* context node: None = root *)
type status = {
genv: M.environment; (* global environment *)
+ henv: environment; (* optimized global environment *)
path: M.id list; (* current section path *)
- cnt: context; (* context *)
+ hcnt: environment; (* optimized context *)
node: context_node; (* current context node *)
nodes: context_node list; (* context node list *)
+ line: int; (* line number *)
explicit: bool (* need explicit context root? *)
}
type resolver = Local of int
| Global of M.pars
-let initial_status = {
- genv = []; path = []; cnt = []; node = None; nodes = []; explicit = true
-}
+let hsize = 11 (* hash tables initial size *)
-let find f cnt qid =
- let rec aux f = function
- | (name, w, node) :: tl when name = qid -> f tl (Some (w, node))
- | _ :: tl -> aux f tl
- | [] -> f cnt None
- in
- aux f cnt
+let initial_status size = {
+ genv = []; path = []; node = None; nodes = []; line = 1; explicit = true;
+ henv = H.create size; hcnt = H.create size
+}
let complete_qid f st (id, is_local, qs) =
let f qs = f (id, qs) in
| None -> f None
| Some qid -> let f qid = f (Some qid) in relax_qid f qid
-let resolve_gref f st lenv gref =
+let resolve_gref f st local lenv gref =
let rec get_local f i = function
| [] -> f None
| (name, _) :: _ when fst name = fst gref -> f (Some i)
| _ :: tl -> get_local f (succ i) tl
in
- let rec get_global f = function
- | [] -> f None
- | (args, name, _, _) :: _ when name = gref -> f (Some args)
- | _ :: tl -> get_global f tl
+ let get_global f =
+ try
+ let args = H.find st.henv gref in f (Some args)
+ with Not_found -> f None
in
let g = function
| Some args -> f gref (Some (Global args))
in
let f = function
| Some i -> f gref (Some (Local i))
- | None -> get_global g st.genv
+ | None -> get_global g
in
- get_local f 0 lenv
+ if local then get_local f 0 lenv else f None
let resolve_gref_relaxed f st lenv gref =
let rec g gref = function
- | None -> relax_qid (resolve_gref g st lenv) gref
+ | None -> relax_qid (resolve_gref g st false lenv) gref
| Some resolved -> f gref resolved
in
- resolve_gref g st lenv gref
-
-let get_pars f st pars node =
- let rec aux f cnt pars = function
- | None ->
- let f pars = f pars None in
- Cps.list_rev f pars
- | Some name as node ->
- let f cnt = function
- | Some (w, node) -> aux f cnt ((name, w) :: pars) node
- | None -> f pars (Some node)
- in
- find f cnt name
- in
- aux f st.cnt pars node
+ resolve_gref g st true lenv gref
+
+let get_pars f st = function
+ | None -> f [] None
+ | Some name as node ->
+ try let pars = H.find st.hcnt name in f pars None
+ with Not_found -> f [] (Some node)
let get_pars_relaxed f st =
let rec g pars = function
| None -> f pars
- | Some node -> relax_opt_qid (get_pars g st pars) node
+ | Some node -> relax_opt_qid (get_pars g st) node
in
- get_pars g st [] st.node
+ get_pars g st st.node
let rec xlate_term f st lenv = function
| A.Sort sort -> f (M.Sort sort)
let f name = function
| Local i -> f (M.LRef i)
| Global defs ->
- let map1 f = xlate_term f st lenv in
- let map2 f (name, _) = f (M.GRef (name, [])) in
+ let l = List.length lenv in
+ let map1 f = xlate_term f st lenv in
+ let map2 f (name, _) = f (M.GRef (l, name, [])) in
let f tail =
- let f args = f (M.GRef (name, args)) in
+ let f args = f (M.GRef (l, name, args)) in
let f defs = Cps.list_rev_map_append f map2 defs ~tail in
Cps.list_sub_strict f defs args
in
complete_qid f st name
| A.Block (name, w) ->
let f name =
- let f ww =
- let st = {st with cnt = (name, ww, st.node) :: st.cnt} in
- f {st with node = Some name}
+ let f pars =
+ let f ww =
+ H.add st.hcnt name ((name, ww) :: pars);
+ f {st with node = Some name}
+ in
+ xlate_term f st pars w
in
- let f pars = xlate_term f st pars w in
get_pars_relaxed f st
in
complete_qid f st (name, true, [])
let f pars =
let f name =
let f ww =
- let entry = (pars, name, ww, None) in
- f {st with genv = entry :: st.genv}
+ let entry = (st.line, pars, name, ww, None) in
+ H.add st.henv name pars;
+ f {st with genv = entry :: st.genv; line = succ st.line}
in
xlate_term f st pars w
in
let f pars =
let f name =
let f ww vv =
- let entry = (pars, name, ww, Some (trans, vv)) in
- f {st with genv = entry :: st.genv}
+ let entry = (st.line, pars, name, ww, Some (trans, vv)) in
+ H.add st.henv name pars;
+ f {st with genv = entry :: st.genv; line = succ st.line}
in
let f ww = xlate_term (f ww) st pars v in
xlate_term f st pars w
let meta_of_aut f book =
let f st = f st.genv in
- Cps.list_fold_left f xlate_item initial_status book
+ Cps.list_fold_left f xlate_item (initial_status hsize) book