ENIAMwalStringOf.ml
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(*
* ENIAMlexSemantics is a library that assigns tokens with lexicosemantic information.
* Copyright (C) 2016-2017 Wojciech Jaworski <wjaworski atSPAMfree mimuw dot edu dot pl>
* Copyright (C) 2016-2017 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 ENIAMwalTypes
let opinion = function
Pewny -> "cer"
| Potoczny -> "col"
| Watpliwy -> "unc"
| Archaiczny -> "dat"
| Zly -> "bad"
| Wulgarny -> "vul"
| Dziedzinowy -> "dom"
| Nieokreslony -> "unk"
| Metaforyczny -> "met"
| Sporadyczny -> "rar"
(* | OpinionUndef -> failwith "ENIAMwalStringOf.opinion" *)
let negation = function
Negation -> "neg"
| Aff -> "aff"
| NegationUndef -> "_"
(* | NegationNA -> "" *)
let pred = function
(* PredNA -> "" *)
| PredTrue -> "pred"
| PredFalse -> "nopred"
| PredUndef -> "_"
let aspect = function
Aspect s -> s
| AspectUndef -> "_"
(* | AspectNA -> "" *)
let case = function
Case s -> s
| Str -> "str"
| Part -> "part"
| CaseAgr -> "agr"
(* | CaseUAgr -> "uagr"
| AllUAgr -> "alluagr" *)
| CaseUndef -> "_"
| AllAgr -> "allagr"
| NomAgr -> "nomagr"
| GenAgr -> "genagr"
let rec comp = function
Comp s -> s
| Zeby -> "żeby2"
| Gdy -> "gdy"
| CompUndef -> "_"
let rec comp_type = function
Int -> "int"
| Rel -> "rel"
| CompTypeUndef -> "_"
let number = function
Number s -> s
| NumberAgr -> "agr"
| NumberUndef -> "_"
let gender = function
Gender s -> s
| GenderUndef -> "_"
| GenderAgr -> "agr"
| Genders l -> String.concat "." l
let grad = function
Grad s -> s
| GradUndef -> "_"
(* let refl = function
(* ReflEmpty -> "" *)
| ReflTrue -> "się"
| ReflFalse -> "nosię"
| ReflUndef -> "_" *)
(* let acm = function
Acm s -> s
| AcmUndef -> "_" *)
let gf = function
SUBJ -> "subj"
| OBJ -> "obj"
| ARG -> "arg"(*""*)
let pos = function
SUBST(n,c) -> "SUBST(" ^ number n ^ "," ^ case c ^ ")"
| PPRON12(n,c) -> "PPRON12(" ^ number n ^ "," ^ case c ^ ")"
| PPRON3(n,c) -> "PPRON3(" ^ number n ^ "," ^ case c ^ ")"
| SIEBIE(c) -> "SIEBIE(" ^ case c ^ ")"
| PREP(c) -> "PREP(" ^ case c ^ ")"
| NUM(c,g) -> "NUM(" ^ case c ^ "," ^ gender g ^ ")"
| ADJ(n,c,g,gr) -> "ADJ(" ^ number n ^ "," ^ case c ^ "," ^ gender g ^ "," ^ grad gr ^ ")"
| ADV(gr) -> "ADV(" ^ grad gr ^ ")"
| GER(n,c,g,a,neg) -> "GER(" ^ number n ^ "," ^ case c ^ "," ^ gender g ^ "," ^ aspect a ^ "," ^ negation neg ^ ")"
| PACT(n,c,g,a,neg) -> "PACT(" ^ number n ^ "," ^ case c ^ "," ^ gender g ^ "," ^ aspect a ^ "," ^ negation neg ^ ")"
| PPAS(n,c,g,a,neg) -> "PPAS(" ^ number n ^ "," ^ case c ^ "," ^ gender g ^ "," ^ aspect a ^ "," ^ negation neg ^ ")"
| INF(a,n) -> "INF(" ^ aspect a ^ "," ^ negation n ^ ")"
| QUB -> "QUB"
| COMPAR c -> "COMPAR(" ^ case c ^ ")"
| COMP(c) -> "COMP(" ^ comp_type c ^ ")"
| PERS(n) -> "PERS(" ^ negation n ^ ")"
| FIXED -> "FIXED"
let rec phrase = function
NP c -> "np(" ^ case c ^ ")"
| PrepNP(prep,c) -> "prepnp(" ^ prep ^ "," ^ case c ^ ")"
| AdjP c -> "adjp(" ^ case c ^ ")"
| PrepAdjP(prep,c) -> "prepadjp(" ^ prep ^ "," ^ case c ^ ")"
(* | NumP(c) -> "nump(" ^ case c ^ ")"
| PrepNumP(prep,c) -> "prepnump(" ^ prep ^ "," ^ case c ^ ")" *)
| ComprepNP(prep) -> "comprepnp(" ^ prep ^ ")"
| ComparP(prep,c) -> "comparp(" ^ prep ^ "," ^ case c ^ ")"
| CP(ct,co) -> "cp(" ^ comp_type ct ^ "," ^ comp co ^ ")"
| NCP(c,ct,co) -> "ncp(" ^ case c ^ "," ^ comp_type ct ^ "," ^ comp co ^ ")"
| PrepNCP(prep,c,ct,co) -> "prepncp(" ^ prep ^ "," ^ case c ^ "," ^ comp_type ct ^ "," ^ comp co ^ ")"
| InfP(a) -> "infp(" ^ aspect a (*^ req r*) ^ ")"
| AdvP(m) -> "advp(" ^ m ^ ")"
| FixedP s -> "fixed(" ^ s ^ ")"
(* | Num(c,a) -> "num(" ^ case c ^ "," ^ acm a ^ ")" *)
| Or -> "or"
| Qub -> "qub"
(* | Pro -> "pro"
| ProNG -> "prong" *)
| Null -> "null"
(* | GerP c -> "gerp(" ^ case c ^ ")"
| PrepGerP(prep,c) -> "prepgerp(" ^ prep ^ "," ^ case c ^ ")"
| PpasP c -> "ppasp(" ^ case c ^ ")"
| PrepPpasP(prep,c) -> "prepppasp(" ^ prep ^ "," ^ case c ^ ")"
| PactP c -> "pactp(" ^ case c ^ ")" *)
| E p -> "E(" ^ phrase p ^ ")"
| MorfId id -> Printf.sprintf "id(%d)" id
| SimpleLexArg(le,p) -> "lex(" ^ le ^ "," ^ pos p ^ ")"
| LexArg(id,le,p) -> "lex(" ^ string_of_int id ^ "," ^ le ^ "," ^ pos p ^ ")"
let restr = function
Natr -> "natr"
| Atr -> "atr"
| Ratr -> "ratr"
| Ratrs -> "ratrs"
| Atr1 -> "atr1"
| Ratr1 -> "ratr1"
| NoRestr -> ""
let controllers l =
Xlist.map l (function
"1" -> "controller"
| n -> "controller" ^ n)
let controllees l =
Xlist.map l (function
"1" -> "controllee"
| n -> "controllee" ^ n)
let rec schema schema =
String.concat "+" (Xlist.map schema (fun s ->
String.concat "," (
(if s.gf = ARG then [] else [gf s.gf])@s.mode@
(if s.role = "" then [] else [s.role])@
(if s.role_attr = "" then [] else [s.role_attr])@
(*s.sel_prefs@*)(controllers s.cr)@(controllees s.ce)) ^ "{" ^ String.concat ";" (Xlist.map s.morfs phrase) ^ "}"))
(*
and morf = function
Phrase p -> phrase p
| LexPhrase(pos_lex,(r,s)) -> "lex([" ^ String.concat ";" (Xlist.map pos_lex (fun (p,le) -> pos p ^ "," ^ lex le)) ^ "]," ^ restr r ^ "[" ^ schema s ^ "])"
| PhraseAbbr(p,ml) -> phrase_abbr p ^ "[" ^ String.concat ";" (Xlist.map ml morf) ^ "]"
| PhraseComp(p,(ct,l)) -> phrase_comp p ^ "," ^ comp_type ct ^ "[" ^ String.concat ";" (Xlist.map l comp) ^ "]"
let simple_morf = function
| MorfId id -> Printf.sprintf "%d" id
| _ -> failwith "ENIAMwalStringOf.simple_morf"
let rec simple_schema schema =
String.concat "+" (Xlist.map schema (fun s ->
String.concat "," (
(if s.gf = ARG then [] else [gf s.gf])@
s.mode@(controllers s.cr)@(controllees s.ce)) ^
"{" ^ String.concat ";" (Xlist.map s.morfs simple_morf) ^ "}"))
let sel_prefs = function
SynsetId id -> Printf.sprintf "synset(%d)" id
| Predef id -> id
| RelationArgId _ -> failwith "sel_prefs"
| RelationRole(rel,role,role_attr) ->
if role_attr = "" then Printf.sprintf "relation(%s,%s)" rel role
else Printf.sprintf "relation(%s,%s,%s)" rel role role_attr
let sem_frame (s:position) =
s.role ^
(if s.role_attr="" then "" else "," ^ s.role_attr) ^
(if s.sel_prefs = [] then "" else
"[" ^ String.concat ";" (Xlist.map s.sel_prefs sel_prefs) ^ "]")
let rec connected_schema schema =
String.concat "+" (Xlist.map schema (fun s ->
String.concat "," (
(if s.gf = ARG then [] else [gf s.gf])@
s.mode@(controllers s.cr)@(controllees s.ce)) ^
"{" ^ String.concat ";" (Xlist.map s.morfs simple_morf) ^ "}:" ^ sem_frame s))
*)
(* let meaning m =
m.name ^ "-" ^ m.variant *)
let lex_entry = function
SimpleLexEntry(le,p) ->
Printf.sprintf "lex(%s,%s)" le p
| LexEntry(id,le,p,NoRestr,s) ->
Printf.sprintf "lex(%d,%s,%s)\t%s" id le p (schema s)
| LexEntry(id,le,p,r,[]) ->
Printf.sprintf "lex(%d,%s,%s)\t%s" id le p (restr r)
| ComprepNPEntry(le,NoRestr,s) ->
Printf.sprintf "comprepnp(%s)\t%s" le (schema s)
| ComprepNPEntry(le,r,[]) ->
Printf.sprintf "comprepnp(%s)\t%s" le (restr r)
| _ -> failwith "ENIAMwalStringOf.lex_entry"