ENIAMsemLatexOf.ml
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(*
* ENIAMsemantics implements semantic processing for ENIAM
* 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 ENIAMsemTypes
open Xstd
open Printf
(*let rec first_digit_index v n i =
if i = n then n else
if String.get v i >= '0' && String.get v i <= '9' then i
else first_digit_index v n (i+1)
let variable v =
let n = String.length v in
let i = first_digit_index v n 0 in
if n = i then v else
String.sub v 0 i ^ "_{" ^ String.sub v i (n-i) ^ "}"*)
let rec linear_term c = function
Tuple l ->
let l = Xlist.map l (linear_term 2) in
let n = Xlist.fold l 0 (fun n s -> String.length s + n) in
let s =
if n < 100 then String.concat "\\otimes " l else
let s = String.concat "\\otimes\\\\ {}" l in
"\\begin{array}{l}" ^ s ^ "\\end{array}" in
if c > 1 then "(" ^ s ^ ")" else s
| Variant(e,l) -> "\\langle " ^ String.concat ","(*"$,\\\\$"*) (Xlist.map l (fun (i,t) -> e^i^": "^linear_term 0 t)) ^ "\\rangle"
| Dot -> "\\bullet"
| Val s -> "\\text{" ^ Xlatex.escape_string s ^ "}"
| Node t ->
"{\\left[\\begin{array}{ll}" ^
(String.concat "\\\\ " (Xlist.map (["ORTH",Val t.orth;"LEMMA",Val t.lemma;"POS",Val t.pos;"ID",Val (string_of_int t.id);
"WEIGHT",Val (string_of_float t.weight);"SYMBOL",t.symbol;
"ARG_SYMBOL",t.arg_symbol;"ARG_DIR",Val t.arg_dir;
"GF",Val t.gf; "ROLE", Val t.role; "ROLE-ATTR", Val t.role_attr;
"SELPREFS",t.selprefs; "MEANING",t.meaning;
"AROLE", Val t.role; "AROLE-ATTR", Val t.role_attr; "AREV", Val (if t.arev then "+" else "-");
"SEM-ARGS",t.sem_args; "ARGS",t.args] @ t.attrs) (fun (e,t) ->
"\\text{" ^ (Xlatex.escape_string e) ^ "} & " ^ (linear_term 0 t)))) ^ "\\end{array}\\right]}"
| Ref i -> "{\\bf ref}\\; " ^ string_of_int i
(* | Choice choices -> "{\\bf choice}(" ^ String.concat ";" (StringMap.fold choices [] (fun l ei t -> (sprintf "%s: %s" ei (linear_term 0 t)) :: l)) ^ ")"*)
| Concept c ->
"{\\left[\\begin{array}{ll}" ^
(String.concat "\\\\ " (Xlist.map ([
"SENSE",c.c_sense;"NAME",c.c_name;"CAT",c.c_cat;(*"PROJ",c.c_proj;*)
"VARIABLE",Val (fst c.c_variable ^ "_" ^ snd c.c_variable);"POS",Val (string_of_int c.c_pos);
"QUANT",c.c_quant;"LOCAL-QUANT",if c.c_local_quant then Val "+" else Val "-";"RELATIONS",c.c_relations]) (fun (e,t) ->
"\\text{" ^ (Xlatex.escape_string e) ^ "} & " ^ (linear_term 0 t)))) ^ "\\end{array}\\right]}"
| Context c ->
"{\\left[\\begin{array}{ll}" ^
(String.concat "\\\\ " (Xlist.map ([
"SENSE",c.cx_sense;"CAT",c.cx_cat;
"VARIABLE",Val (fst c.cx_variable ^ "_" ^ snd c.cx_variable);"POS",Val (string_of_int c.cx_pos);
"RELATIONS",c.cx_relations;"CONTENTS",c.cx_contents]) (fun (e,t) ->
"\\text{" ^ (Xlatex.escape_string e) ^ "} & " ^ (linear_term 0 t)))) ^ "\\end{array}\\right]}"
| Relation(r,a,c) -> "{\\bf relation}(" ^ (*linear_term 0*) r ^ "," ^ (*linear_term 0*) a ^ "," ^ linear_term 0 c ^ ")"
| RevRelation(r,a,c) -> "{\\bf revrelation}(" ^ (*linear_term 0*) r ^ "," ^ (*linear_term 0*) a ^ "," ^ linear_term 0 c ^ ")"
| SingleRelation r -> "{\\bf singlerelation}(" ^ linear_term 0 r ^ ")"
(* | TripleRelation(r,a,c,t) -> "{\\bf triplerelation}(" ^ (*linear_term 0*) r ^ "," ^ (*linear_term 0*) a ^ "," ^ linear_term 0 c ^ "," ^ linear_term 0 t ^ ")" *)
| AddRelation(t,r,a,s) -> "{\\bf addrelation}(" ^ linear_term 0 t ^ "," ^ r ^ "," ^ a ^ "," ^ linear_term 0 s ^ ")"
| RemoveRelation(r,a,t) -> "{\\bf removerelation}(" ^ r ^ "," ^ a ^ "," ^ linear_term 0 t ^ ")"
| SetContextName(s,t) -> "{\\bf setcontextname}(" ^ linear_term 0 s ^ "," ^ linear_term 0 t ^ ")"
| CreateContext(s,t) -> "{\\bf createcontext}(" ^ linear_term 0 (Context s) ^ "," ^ linear_term 0 t ^ ")"
(* | MakeTripleRelation(r,a,c) -> "{\\bf maketriplerelation}(" ^ (*linear_term 0*) r ^ "," ^ (*linear_term 0*) a ^ "," ^ linear_term 0 c ^ ")" *)
| ManageCoordination(t,r) -> "{\\bf managecoordination}(" ^ linear_term 0 r ^ ")" (* FIXME: t *)
let print_semantic_graph path name page dependency_tree =
Xlatex.latex_file_out path name page false (fun file ->
Int.iter 0 (Array.length dependency_tree - 1) (fun i ->
if dependency_tree.(i) <> Dot then Printf.fprintf file "{\\bf %d} $%s$\\\\\n" i (linear_term 0 dependency_tree.(i))));
Xlatex.latex_compile_and_clean path name
(* let print_references path name page references =
Xlatex.latex_file_out path name page false (fun file ->
Int.iter 0 (ExtArray.size references - 1) (fun i ->
if ExtArray.get references i <> Dot then Printf.fprintf file "{\\bf %d} $%s$\\\\\n" i (linear_term 0 (ExtArray.get references i))));
Xlatex.latex_compile_and_clean path name *)