ENIAMexecTypes.ml
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(*
* ENIAMexec implements ENIAM processing stream
* 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 ENIAM_LCGtypes
open Xstd
type status = Idle | PreprocessingError | LexiconError | ParseError | ParseTimeout | Parsed | TooManyNodes | NotParsed | NotReduced | ReductionError | SemParsed | SemError1 | SemError2 | NotTranslated
type eniam_parse_result = {
(* file_prefix: string;*)
status: status;
msg: string;
lex_time: float;
parse_time: float;
reduction_time: float;
sem_time: float;
paths_size: int;
chart_size: int;
dependency_tree_size: int;
chart1: chart;
chart2: chart;
references2: linear_term ExtArray.t;
chart3: chart;
references3: linear_term ExtArray.t;
term4: linear_term;
dependency_tree4: linear_term array;
dependency_tree5: linear_term array;
dependency_tree6: linear_term array;
dependency_tree7: linear_term array;
dependency_tree8: linear_term ExtArray.t;
dependency_tree9: linear_term array;
semantic_graph10: ENIAMsemTypes.linear_term array;
semantic_graph11: ENIAMsemTypes.linear_term;
text_fragments: string IntMap.t array;
}
type conll_parse_result = {
(* file_prefix: string;*)
status: status;
msg: string;
lex_time: float;
parse_time: float;
reduction_time: float;
sem_time: float;
paths_size: int;
chart_size: int;
dependency_tree_size: int;
chart1: dep_tree;
chart2: dep_tree;
references2: linear_term ExtArray.t;
parsed_dep_chart: (SymbolMap.key * linear_term) list;
not_parsed_dep_chart: int *
(grammar_symbol * linear_term) list list *
(grammar_symbol * linear_term) list *
(grammar_symbol * linear_term) list list;
references3: linear_term ExtArray.t;
term4: linear_term;
dependency_tree4: linear_term array;
dependency_tree5: linear_term array;
dependency_tree6: linear_term array;
dependency_tree7: linear_term array;
dependency_tree8: linear_term ExtArray.t;
dependency_tree9: linear_term array;
semantic_graph10: ENIAMsemTypes.linear_term array;
semantic_graph11: ENIAMsemTypes.linear_term;
text_fragments: string IntMap.t array;
}
(*
type semantic_processing_result = {
file_prefix: string;
status: status;
msg: string;
sem_time: float;
disamb: LCGtypes.linear_term array;
sem: LCGtypes.linear_term array;
sem2: LCGtypes.linear_term array;
sem3: LCGtypes.linear_term;
trees: LCGtypes.linear_term list;
mrls: SemTypes.mrl_formula list;
}
*)
type mode =
Raw | Struct | CONLL | ENIAM | Mate | Swigra | POLFIE
type sentence =
RawSentence of string
(* | CONLL of conll list *)
| StructSentence of (int * int * int) list * int (* (id * lnode * rnode) list * last *)
| DepSentence of (int * int * string) array (* (id * super * label) conll_id *)
| QuotedSentences of paragraph_record list
(* | NKJP1M of nkjp1m list *)
(* | Skladnica of skladnica_tree *)
| AltSentence of (mode * sentence) list (* string = etykieta np raw, nkjp, krzaki *)
| ENIAMSentence of eniam_parse_result
(* | CONLLSentence of conll_parse_result
| SemSentence of semantic_processing_result *)
and paragraph_record = {id: string; beg: int; len: int; next: int; sentence: sentence; file_prefix: string} (* beg i len liczone po znakach unicode ( * 100 ???) *)
and paragraph =
RawParagraph of string
| StructParagraph of paragraph_record list (* zdania *)
| AltParagraph of (mode * paragraph) list
type text =
RawText of string
| StructText of paragraph list
| AltText of (mode * text) list
(*
type result = {
input_text: text;
pre_text: text;
pre_time1: float;
pre_time2: float;
status: status;
msg: string;
parse_time: float;
parsed_text: text;
semantic_time: float;
selected_sent_text: text;
semantic_text: text;
selected_semantic_text: text;
tokens: ENIAMtokenizerTypes.token_record ExtArray.t;
lex_sems: ENIAMlexSemanticsTypes.lex_sem ExtArray.t;
}
type sum_result = {
no_queries: int;
no_pre_error: int;
no_lex_error: int;
no_parse_error: int;
no_timeout: int;
no_reduction_error: int;
no_sem_error: int;
no_not_parsed: int;
no_not_reduced: int;
no_too_many_nodes: int;
no_not_translated: int;
no_parsed: int;
sum_pre_time1: float;
sum_pre_time2: float;
sum_lex_time: float;
sum_parse_time: float;
sum_reduction_time: float;
sum_sem_time: float;
}
type message_from_overseer =
Work_with of string * (*reg_params*)(string * float)
| Kill_yourself
type message_to_overseer =
Ready_to_work of string
| Work_done of
string * result
*)
let time_fun = Unix.gettimeofday
(* let time_fun = Sys.time () *)
let empty_eniam_parse_result = {
(* file_prefix=""; *)
status=Idle;
msg="";
lex_time=0.;
parse_time=0.;
reduction_time=0.;
sem_time=0.;
paths_size=0;
chart_size=0;
dependency_tree_size=0;
chart1=[| |];
chart2=[| |];
references2=ExtArray.make 0 Dot;
chart3=[| |];
references3=ExtArray.make 0 Dot;
term4=Dot;
dependency_tree4=[| |];
dependency_tree5=[| |];
dependency_tree6=[| |];
dependency_tree7=[| |];
dependency_tree8=ExtArray.make 0 Dot;
dependency_tree9=[| |];
semantic_graph10=[| |];
semantic_graph11=ENIAMsemTypes.Dot;
text_fragments=[| |];
}
let empty_conll_parse_result = {
(* file_prefix=""; *)
status=Idle;
msg="";
lex_time=0.;
parse_time=0.;
reduction_time=0.;
sem_time=0.;
paths_size=0;
chart_size=0;
dependency_tree_size=0;
chart1=DepNode(-100,[],[],[]);
chart2=DepNode(-100,[],[],[]);
references2=ExtArray.make 0 Dot;
references3=ExtArray.make 0 Dot;
term4=Dot;
dependency_tree4=[| |];
dependency_tree5=[| |];
dependency_tree6=[| |];
dependency_tree7=[| |];
dependency_tree8=ExtArray.make 0 Dot;
dependency_tree9=[| |];
semantic_graph10=[| |];
semantic_graph11=ENIAMsemTypes.Dot;
text_fragments=[| |];
parsed_dep_chart=[];
not_parsed_dep_chart=(-100,[],[],[]);
}
(*
let empty_result = {
input_text=RawText "";
pre_text=RawText "";
status=Idle;
msg="";
pre_time1=0.;
pre_time2=0.;
parse_time=0.;
parsed_text=RawText "";
semantic_time=0.;
selected_sent_text=RawText "";
semantic_text=RawText "";
selected_semantic_text=RawText "";
tokens=ExtArray.make 1 ENIAMtokenizerTypes.empty_token;
lex_sems=ExtArray.make 1 ENIAMlexSemanticsTypes.empty_lex_sem;
}
let empty_semantic_processing_result = {
file_prefix="";
status=Idle;
msg="";
sem_time=0.;
disamb=[| |];
sem=[| |];
sem2=[| |];
sem3=LCGtypes.Dot;
trees=[];
mrls=[];
}
let empty_sum_result = {
no_queries=0;
no_pre_error=0;
no_lex_error=0;
no_parse_error=0;
no_timeout=0;
no_reduction_error=0;
no_sem_error=0;
no_not_parsed=0;
no_not_reduced=0;
no_too_many_nodes=0;
no_not_translated=0;
no_parsed=0;
sum_pre_time1=0.;
sum_pre_time2=0.;
sum_lex_time=0.;
sum_parse_time=0.;
sum_reduction_time=0.;
sum_sem_time=0.;
}
*)
let rec map_sentence mode f = function
| QuotedSentences sentences ->
let sentences = Xlist.rev_map sentences (fun p ->
let sentence = map_sentence mode f p.sentence in
{p with sentence=sentence}) in
QuotedSentences(List.rev sentences)
| AltSentence l ->
let l = Xlist.rev_map l (fun (mode,sentence) ->
mode, map_sentence mode f sentence) in
AltSentence(List.rev l)
| s -> f mode s
let rec map_paragraph mode f = function
RawParagraph s -> RawParagraph s
| StructParagraph sentences ->
let sentences = Xlist.rev_map sentences (fun p ->
let sentence = map_sentence mode f p.sentence in
{p with sentence=sentence}) in
StructParagraph(List.rev sentences)
| AltParagraph l ->
let l = Xlist.rev_map l (fun (mode,paragraph) ->
mode, map_paragraph mode f paragraph) in
AltParagraph(List.rev l)
let rec map_text mode f = function
RawText s -> RawText s
| StructText paragraphs ->
let paragraphs = Xlist.rev_map paragraphs (fun paragraph ->
map_paragraph mode f paragraph) in
StructText(List.rev paragraphs)
| AltText l -> AltText(Xlist.map l (fun (mode,text) ->
mode, map_text mode f text))
let rec fold_sentence mode s f = function
QuotedSentences sentences ->
Xlist.fold sentences s (fun s p ->
fold_sentence mode s f p.sentence)
| AltSentence l ->
Xlist.fold l s (fun s (mode,sentence) ->
fold_sentence mode s f sentence)
| t -> f mode s t
let rec fold_paragraph mode s f = function
RawParagraph _ -> s
| StructParagraph sentences ->
Xlist.fold sentences s (fun s p ->
fold_sentence mode s f p.sentence)
| AltParagraph l ->
Xlist.fold l s (fun s (mode,paragraph) ->
fold_paragraph mode s f paragraph)
let rec fold_text mode s f = function
RawText _ -> s
| StructText paragraphs ->
Xlist.fold paragraphs s (fun s paragraph ->
fold_paragraph mode s f paragraph)
| AltText l ->
Xlist.fold l s (fun s (mode,text) ->
fold_text mode s f text)
let rules_filename = ENIAM_LCGlexiconTypes.resource_path ^ "/LCGlexicon/lexicon-pl.dic"