ENIAMinflexion.ml 8.54 KB
(*
 *  ENIAMmorphology, a morphological analyser and a guesser for Polish
 *  Copyright (C) 2016 Wojciech Jaworski <wjaworski atSPAMfree mimuw dot edu dot pl>
 *  Copyright (C) 2016 Institute of Computer Science Polish Academy of Sciences
 *
 *  This library is free software: you can redistribute it and/or modify
 *  it under the terms of the GNU Lesser General Public License as published by
 *  the Free Software Foundation, either version 3 of the License, or
 *  (at your option) any later version.
 *
 *  This library is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU Lesser General Public License for more details.
 *
 *  You should have received a copy of the GNU Lesser General Public License
 *  along with this program.  If not, see <http://www.gnu.org/licenses/>.
 *)

open ENIAMmorphologyTypes
open Xstd

let load_stems filename =
  File.fold_tab filename StringMap.empty (fun stems -> function
      [stem; lemma_suf; aspect; ids] ->
        let ids = StringSet.of_list (Xstring.split " " ids) in
        StringMap.add_inc stems stem [lemma_suf,aspect,ids] (fun l -> (lemma_suf,aspect,ids) :: l)
    | l -> failwith ("load_stems: " ^ String.concat " " l))

let load_tab filename =
  File.load_tab filename (function
      orth :: lemma :: interp :: _ ->
        {empty_entry with lemma=lemma; forms=[{empty_form with orth=orth; interp=interp}]}
    | line -> failwith ("load_tab: " ^ (String.concat "\t" line)))

let simplify_lemma s =
  match Xstring.split ":" s with
    [s] -> s,""
  | [s;t] -> s,t
  | _ -> failwith "simplify_lemma"

type status = LemmaVal | LemmaAlt | LemmNotVal | TokNotFound

let string_of_status = function
    LemmaVal -> "LemmaVal"
  | LemmaAlt -> "LemmaAlt"
  | LemmNotVal -> "LemmNotVal"
  | TokNotFound -> "TokNotFound"

type t = {lemma: string; lemma_suf: string; interp: string; freq: int; status: status; star: star; tags: (string * string) list}

let string_of_interpretation t =
  let lemma = if t.lemma_suf = "" then t.lemma else t.lemma ^ ":" ^ t.lemma_suf in
  Printf.sprintf "%s\t%s\t%d\t%s\t%s\t%s" lemma t.interp t.freq (string_of_status t.status)
    (ENIAMmorphologyRules.string_of_star t.star) (String.concat " " (Xlist.map t.tags (fun (k,v) -> k ^ "=" ^ v)))

let prepare_alt alt alt_filename =
  let alt2 = load_tab alt_filename in
  let alt = Xlist.fold alt2 alt (fun alt entry ->
    Xlist.fold entry.forms alt (fun alt form ->
      let simple_lemma,lemma_suf = simplify_lemma entry.lemma in
      let v = true, {lemma=simple_lemma; lemma_suf=lemma_suf; interp=form.interp; freq=1; status=LemmaAlt; star=Star; tags=[]} in
      StringMap.add_inc alt form.orth [v] (fun l -> v :: l))) in
  alt

let prepare_rules rules_filename =
  let rules = ENIAMmorphologyRules.load_freq_rules rules_filename in
  let rules = ENIAMmorphologyRules.CharTrees.create rules in
  rules

let prepare_wyglos wyglos_filename =
  let wyglos = File.fold_tab wyglos_filename [] (fun wyglos -> function
      [freq; con; s; t; a; b] ->
        {empty_rule with freq=int_of_string freq; find=s; interp=con} :: wyglos
    | line -> failwith ("prepare_wyglos: " ^ (String.concat "\t" line))) in
  let wyglos = ENIAMmorphologyRules.CharTrees.create wyglos in
  wyglos

let alt = ref (StringMap.empty : (bool * t) list StringMap.t)
let stems = ref (StringMap.empty : (string * string * StringSet.t) list StringMap.t)
let rules = ref ([] : (StringMap.key * ENIAMmorphologyRules.CharTrees.t) list)
let wyglos = ref ([] : (StringMap.key * ENIAMmorphologyRules.CharTrees.t) list)

(* let initialize () =
  alt := prepare_alt StringMap.empty alt_filename;
  alt := prepare_alt !alt alt_supplement_filename;
  stems := load_stems stem_filename;
  rules := prepare_rules rules_filename;
  wyglos := prepare_wyglos wyglos_filename *)

let initialize () =
  alt := prepare_alt StringMap.empty "resources/alt.tab";
  stems := load_stems "resources/stem.tab";
  rules := prepare_rules "resources/freq_rules.tab";
  wyglos := prepare_wyglos "resources/wyglos.tab"

let manage_aspect aspect interp =
  let l = Xstring.split_delim "imperf\\.perf" interp in
  String.concat aspect l
  (* match Xstring.split_delim "imperf\\.perf" interp with
    [s] -> s
  | [s;t] -> s ^ aspect ^ t
  | _ -> failwith ("manage_aspect: " ^ interp) *)

(* let has_vovel_sufix s =
  let n = String.length s in
  let a = String.get s (n-1) in
  if a = 'a' || a = 'e' || a = 'i' || a = 'o' || a = 'u' || a = 'y' then true else
  let a = String.sub s (n-2) 2 in
  if a = "ó" || a = "ą" || a = "ę" then true else
  false *)

(* let has_vovel_sufix = function
    "a" :: _ -> true
  | "ą" :: _ -> true
  | "e" :: _ -> true
  | "ę" :: _ -> true
  | "i" :: _ -> true
  | "o" :: _ -> true
  | "ó" :: _ -> true
  | "u" :: _ -> true
  | "y" :: _ -> true
  | _ -> false *)

let check_diftongs s t =
  if t = "" || s = "" then true else
  let n = String.length s in
  let a = String.get s (n-1) in
  let b = String.get t 0 in
  if (a = 'c' || a = 'd' || a = 'r' || a = 's') && b = 'z' then false else
  if a = 'c' && b = 'h' then false else
  if String.length t < 2 then true else
  let b = String.sub t 0 2 in
  if a = 'd' && (b = "ź" || b = "ż") then false else
  true

(* let check_diftongs = function
    "c" :: _, "z" :: _ -> false
  | "d" :: _, "z" :: _ -> false
  | "r" :: _, "z" :: _ -> false
  | "s" :: _, "z" :: _ -> false
  | "d" :: _, "ź" :: _ -> false
  | "d" :: _, "ż" :: _ -> false
  | "c" :: _, "h" :: _ -> false
  | _ -> true *)

let char_tree_mem tree lcon2 s =
  let l = ENIAMmorphologyRules.CharTrees.find tree s in
  let l = if lcon2 = "e" || lcon2 = "′e" then
    Xlist.fold l [] (fun l (stem,rule) -> if rule.interp = "e" then (stem,rule) :: l else l) else
    Xlist.fold l [] (fun l (stem,rule) -> if rule.interp = "" then (stem,rule) :: l else l) in
  l <> []

let is_uppercase s =
  if s = "" then false else
  let c = String.get s 0 in
  if 'A' <= c && 'Z' >= c then true else
  if Xstring.check_prefix "Ć" s || Xstring.check_prefix "Ś" s || Xstring.check_prefix "Ń" s ||
     Xstring.check_prefix "Ż" s || Xstring.check_prefix "Ł" s then true else
  false

let check_fluency stem rule =
  (* Printf.printf "%s\t%s\n%!" stem (ENIAMmorphologyRules.string_of_freq_rule rule); *)
  (* let rev_stem = List.rev (Xunicode.utf8_chars_of_utf8_string stem) in
  let rule_find = Xunicode.utf8_chars_of_utf8_string rule.find in *)
  (* let rule_set = Xunicode.utf8_chars_of_utf8_string rule.set in *)
  (* if not (check_diftongs (rev_stem,rule_find)) then false else *)
  if not (check_diftongs stem rule.find) then false else
  if rule.set = rule.find then true else
  let cat = ENIAMmorphologyRules.get_tag rule.tags "cat" in
  let lemma = ENIAMmorphologyRules.get_tag rule.tags "lemma" in
  let lcon2 = ENIAMmorphologyRules.get_tag rule.tags "lcon2" in
  if cat = "noun" && lemma = "ε" then
    if (rule.star = Aux || rule.star = Aux2 || rule.star = Acro) && lcon2 <> "" then false else
    if (rule.star = Aux || rule.star = Aux2 || rule.star = Acro || is_uppercase rule.find) && lcon2 = "" then true else
    (* if (*String.get rule.set 0 = 'e' &&*) has_vovel_sufix rev_stem then false else *)
    (* true else *)
    char_tree_mem !wyglos lcon2 (stem ^ rule.set) else
  true

let select_fluent candidates =
  let selected =
    Xlist.fold candidates [] (fun candidates2 (b,x) ->
      if b then x :: candidates2 else candidates2) in
  if selected = [] then Xlist.map candidates snd else selected

let get_interpretations orth =
  let candidates = ENIAMmorphologyRules.CharTrees.find !rules orth in
  let found = try StringMap.find !alt orth with Not_found -> [] in
  let found = Xlist.fold candidates found (fun found (stem,rule) ->
    (* Printf.printf "%s\t%s\n%!" stem (ENIAMmorphologyRules.string_of_freq_rule rule); *)
    let fluency = check_fluency stem rule in
    let l = try StringMap.find !stems stem with Not_found -> [] in
    let l = Xlist.fold l [] (fun l (lemma_suf,aspect,ids) ->
      if StringSet.mem ids rule.id then (lemma_suf,aspect) :: l else l) in
    if l = [] then
      if rule.star = Star then found else
      (fluency,{lemma=stem ^ rule.set; lemma_suf=""; interp=rule.interp; freq=rule.freq; status=LemmNotVal; star=rule.star; tags=rule.tags}) :: found else
    Xlist.fold l found (fun found (lemma_suf,aspect) ->
      (true,{lemma=stem ^ rule.set; lemma_suf=lemma_suf; interp=manage_aspect aspect rule.interp; freq=rule.freq; status=LemmaVal; star=rule.star; tags=rule.tags}) :: found)) in
  let found = select_fluent found in
  if found = [] then [{lemma=orth; lemma_suf=""; interp="unk"; freq=1; status=TokNotFound; star=Star; tags=[]}] else found