--- /dev/null
+type path_string_elem = Cic.term;;
+type path_string = path_string_elem list;;
+
+
+(* needed by the retrieve_* functions, to know the arities of the "functions" *)
+let arities = Hashtbl.create 11;;
+
+
+let rec path_string_of_term = function
+ | Cic.Meta _ -> [Cic.Implicit None]
+ | Cic.Appl ((hd::tl) as l) ->
+ if not (Hashtbl.mem arities hd) then
+ Hashtbl.add arities hd (List.length tl);
+ List.concat (List.map path_string_of_term l)
+ | term -> [term]
+;;
+
+
+module OrderedPathStringElement = struct
+ type t = path_string_elem
+
+ let compare = Pervasives.compare
+end
+
+module PSMap = Map.Make(OrderedPathStringElement);;
+
+
+module DiscriminationTree = struct
+ type key = path_string
+ type t = Node of (Utils.pos * Inference.equality) option * (t PSMap.t)
+
+ let empty = Node (None, PSMap.empty)
+
+ let rec find l t =
+ match (l, t) with
+ | [], Node (None, _) -> raise Not_found
+ | [], Node (Some v, _) -> v
+ | x::r, Node (_, m) -> find r (PSMap.find x m)
+
+ let rec mem l t =
+ match (l, t) with
+ | [], Node (None, _) -> false
+ | [], Node (Some _, _) -> true
+ | x::r, Node (_, m) -> try mem r (PSMap.find x m) with Not_found -> false
+
+ let add l v t =
+ let rec ins = function
+ | [], Node (_, m) -> Node (Some v, m)
+ | x::r, Node (v, m) ->
+ let t' = try PSMap.find x m with Not_found -> empty in
+ let t'' = ins (r, t') in
+ Node (v, PSMap.add x t'' m)
+ in
+ ins (l, t)
+
+ let rec remove l t =
+ match (l, t) with
+ | [], Node (_, m) -> Node (None, m)
+ | x::r, Node (v, m) ->
+ try
+ let t' = remove r (PSMap.find x m) in
+ Node (v, if t' = empty then PSMap.remove x m else PSMap.add x t' m)
+ with Not_found ->
+ t
+
+ let rec fold f t acc =
+ let rec traverse revp t acc = match t with
+ | Node (None, m) ->
+ PSMap.fold (fun x -> traverse (x::revp)) m acc
+ | Node (Some v, m) ->
+ f (List.rev revp) v (PSMap.fold (fun x -> traverse (x::revp)) m acc)
+ in
+ traverse [] t acc
+
+end
+
+
+let index tree equality =
+ let _, (_, l, r, ordering), _, _ = equality in
+ let psl = path_string_of_term l
+ and psr = path_string_of_term r in
+ match ordering with
+ | Utils.Gt -> DiscriminationTree.add psl (Utils.Left, equality) tree
+ | Utils.Lt -> DiscriminationTree.add psr (Utils.Right, equality) tree
+ | _ ->
+ let tree = DiscriminationTree.add psl (Utils.Left, equality) tree in
+ DiscriminationTree.add psr (Utils.Right, equality) tree
+;;
+
+
+let remove_index tree equality =
+ let _, (_, l, r, ordering), _, _ = equality in
+ let psl = path_string_of_term l
+ and psr = path_string_of_term r in
+ match ordering with
+ | Utils.Gt -> DiscriminationTree.remove psl tree
+ | Utils.Lt -> DiscriminationTree.remove psr tree
+ | _ ->
+ let tree = DiscriminationTree.remove psl tree in
+ DiscriminationTree.remove psr tree
+;;
+
+
+let in_index tree equality =
+ let _, (_, l, r, ordering), _, _ = equality in
+ let psl = path_string_of_term l
+ and psr = path_string_of_term r in
+ let meta_convertibility = Inference.meta_convertibility_eq equality in
+ let ok ps =
+ try let _, eq = DiscriminationTree.find ps tree in meta_convertibility eq
+ with Not_found -> false
+ in
+ (ok psl) || (ok psr)
+;;
+
+
+let head_of_term = function
+ | Cic.Appl (hd::tl) -> hd
+ | term -> term
+;;
+
+
+let rec subterm_at_pos pos term =
+ match pos with
+ | [] -> term
+ | index::pos ->
+ match term with
+ | Cic.Appl l ->
+ (try subterm_at_pos pos (List.nth l index) with _ -> raise Not_found)
+ | _ -> raise Not_found
+;;
+
+
+let next_t pos term =
+ let t = subterm_at_pos pos term in
+ try
+ let t2 = subterm_at_pos [1] t in
+ pos @ [1]
+ with Not_found ->
+ match pos with
+ | [] -> [1]
+ | pos -> List.fold_right (fun i r -> if r = [] then [i+1] else i::r) pos []
+;;
+
+
+let rec after_t pos term =
+ let pos' =
+ match pos with
+ | [] -> raise Not_found
+ | pos -> List.fold_right (fun i r -> if r = [] then [i+1] else i::r) pos []
+ in
+ try
+ let t = subterm_at_pos pos' term in pos'
+ with Not_found ->
+ let pos, _ =
+ List.fold_right
+ (fun i (r, b) -> if b then (i::r, true) else (r, true)) pos ([], false)
+ in
+ after_t pos term
+;;
+
+
+let retrieve_generalizations tree term =
+ let rec retrieve tree term pos =
+ match tree with
+ | DiscriminationTree.Node (value, map) ->
+ let res =
+ try
+ let hd_term = head_of_term (subterm_at_pos pos term) in
+ let n = PSMap.find hd_term map in
+ match n with
+ | DiscriminationTree.Node (Some s, _) -> [s]
+ | DiscriminationTree.Node (None, _) ->
+ retrieve n term (next_t pos term)
+ with Not_found ->
+ []
+ in
+ try
+ let n = PSMap.find (Cic.Implicit None) map in
+ res @ (retrieve n term (after_t pos term))
+ with Not_found ->
+ res
+ in
+ retrieve tree term []
+;;
+
+
+let jump_list = function
+ | DiscriminationTree.Node (value, map) ->
+ let rec get n tree =
+ match tree with
+ | DiscriminationTree.Node (v, m) ->
+ if n = 0 then
+ [tree]
+ else
+ PSMap.fold
+ (fun k v res ->
+ let a = try Hashtbl.find arities k with Not_found -> 0 in
+ (get (n-1 + a) v) @ res) m []
+ in
+ PSMap.fold
+ (fun k v res ->
+ let arity = try Hashtbl.find arities k with Not_found -> 0 in
+ (get arity v) @ res)
+ map []
+;;
+
+
+let retrieve_unifiables tree term =
+ let rec retrieve tree term pos =
+ match tree with
+ | DiscriminationTree.Node (value, map) ->
+ let res =
+ try
+ match subterm_at_pos pos term with
+ | Cic.Meta _ ->
+ List.concat
+ (List.map
+ (fun t -> retrieve t term (next_t pos term))
+ (jump_list tree))
+ | subterm ->
+ let hd_term = head_of_term subterm in
+ let n = PSMap.find hd_term map in
+ match n with
+ | DiscriminationTree.Node (Some s, _) -> [s]
+ | DiscriminationTree.Node (None, _) ->
+ retrieve n term (next_t pos term)
+ with Not_found ->
+ []
+ in
+ try
+ let n = PSMap.find (Cic.Implicit None) map in
+ res @ (retrieve n term (after_t pos term))
+ with Not_found ->
+ res
+ in
+ retrieve tree term []
+;;
projects / helm.git / commitdiff