ENIAMvisualization.ml
66.7 KB
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(*
* ENIAM: Categorial Syntactic-Semantic Parser 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 program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*)
open ENIAM_LCGtypes
open Xstd
open Printf
open ENIAMtokenizerTypes
open ENIAMexecTypes
(*
let string_of_interps interps =
String.concat "|" (Xlist.map interps (fun interp ->
(String.concat ":" (Xlist.map interp (fun interp2 ->
(String.concat "." interp2))))))
let lemma_of_token = function
SmallLetter orth -> orth
| CapLetter(orth,lc) -> orth
| AllSmall orth -> orth
| AllCap(orth,lc,lc2) -> orth
| FirstCap(orth,lc,cl,ll) -> orth
| SomeCap orth -> orth
| RomanDig(v,t) -> v
| Interp orth -> orth
| Symbol orth -> orth
| Dig(v,t) -> v
| Other orth -> orth
| Lemma(lemma,cat,interps) -> lemma
| Proper(lemma,cat,interps,senses) -> lemma
| Compound(sense,l) -> "Compound"
| Tokens(cat,l) -> "Tokens"
let rec spaces i =
if i = 0 then "" else " " ^ spaces (i-1)
(*
let rec string_of_tokens i = function
Token t -> sprintf "%s{orth=%s;beg=%d;len=%d;next=%d;token=%s;weight=%.2f;attrs=[%s];\n%s senses=[%s];\n%s valence=[%s];\n%s simple_valence=[%s];lroles=%s,%s}" (spaces i) t.orth t.beg t.len t.next (ENIAMtokens.string_of_token t.token)
t.weight (String.concat ";" t.PreTypes.attrs) (spaces i) (String.concat ";" (Xlist.map t.PreTypes.senses (fun (sense,hipero,weight) -> sprintf "%s[%s]%.2f" sense (String.concat "," hipero) weight)))
(spaces i) (String.concat ";" (Xlist.map t.PreTypes.valence (ENIAMwalStringOf.fnum_frame ""))) (spaces i) (String.concat ";" (Xlist.map t.PreTypes.simple_valence (ENIAMwalStringOf.fnum_frame ""))) (fst t.lroles) (snd t.lroles)
| PreTypes.Variant l -> sprintf "%sVariant[\n%s]" (spaces i) (String.concat ";\n" (Xlist.map l (string_of_tokens (i+1))))
| PreTypes.Seq l -> sprintf "%sSeq[\n%s]" (spaces i) (String.concat ";\n" (Xlist.map l (string_of_tokens (i+1))))
let paths_to_string_indexed (paths,last,next_id) =
String.concat "\n" (Xlist.map paths (fun (i,j,t) ->
Printf.sprintf "%2d %2d %s" i j (string_of_tokens 0 (PreTypes.Token t))))
^ Printf.sprintf "\nlast=%d next_id=%d" last next_id
*)
(*let string_of_token_record1 t =
sprintf "{orth=%s;beg=%d;len=%d;next=%d;token=%s;id=%d;lnode=%d;rnode=%d;conll_id=%s;conll_super=%s;conll_label=%s;attrs=[%s]}"
t.PreTypes.orth t.PreTypes.beg t.PreTypes.len t.PreTypes.next (ENIAMtokens.string_of_token t.PreTypes.token)
t.PreTypes.id t.PreTypes.lnode t.PreTypes.rnode t.PreTypes.conll_id t.PreTypes.conll_super t.PreTypes.conll_label
(String.concat ";" t.PreTypes.attrs)
(* sprintf "{orth=%s;beg=%d;len=%d;next=%d;token=%s}"
t.PreTypes.orth t.PreTypes.beg t.PreTypes.len t.PreTypes.next (ENIAMtokens.string_of_token t.PreTypes.token) *)
let string_of_paths1 paths =
String.concat "\n " (Xlist.map paths string_of_token_record1)*)
let string_of_status = function
ExecTypes.Idle -> "idle"
| ExecTypes.PreprocessingError -> "error_pre"
| ExecTypes.LexiconError -> "error_lex"
| ExecTypes.ParseError -> "error_parse"
| ExecTypes.ParseTimeout -> "timeout"
| ExecTypes.NotParsed -> "not_parsed"
| ExecTypes.ReductionError -> "error_reduction"
| ExecTypes.TooManyNodes -> "too_many_nodes"
| ExecTypes.NotReduced -> "not_reduced"
| ExecTypes.SemError -> "error_sem"
| ExecTypes.NotTranslated -> "not_translated"
| ExecTypes.Parsed -> "parsed"
let rec xml_of_dependency_tree = function
Node t -> Xml.Element("node",["pred",t.pred;"cat",t.cat;"weight",string_of_float t.weight;"id",string_of_int t.id],[
Xml.Element("gs",[],[xml_of_dependency_tree t.gs]);
Xml.Element("agf",[],[Xml.PCData (ENIAMwalStringOf.gf t.agf)]);
Xml.Element("amorf",[],[Xml.PCData (ENIAMwalStringOf.morf t.amorf)]);
Xml.Element("attrs",[],Xlist.map t.attrs (fun (e,t) -> Xml.Element("attr",["label",e],[xml_of_dependency_tree t])));
Xml.Element("args",[],[xml_of_dependency_tree t.args])])
| Concept c -> Xml.Element("concept",["var",fst c.c_variable ^ snd c.c_variable;"pos",string_of_int c.c_pos],[
Xml.Element("sense",[],[xml_of_dependency_tree c.c_sense]);
Xml.Element("quant",["local",if c.c_local_quant then "t" else "f"],[xml_of_dependency_tree c.c_quant]);
Xml.Element("relations",[],[xml_of_dependency_tree c.c_relations])])
| Context c -> Xml.Element("context",["var",fst c.cx_variable ^ snd c.cx_variable;"pos",string_of_int c.cx_pos],[
Xml.Element("sense",[],[xml_of_dependency_tree c.cx_sense]);
Xml.Element("contents",[],[xml_of_dependency_tree c.cx_contents]);
Xml.Element("relations",[],[xml_of_dependency_tree c.cx_relations])])
| Relation(r,a,t) -> Xml.Element("relation",[],[
Xml.Element("role",[],[xml_of_dependency_tree r]);
Xml.Element("role_attr",[],[xml_of_dependency_tree r]);
xml_of_dependency_tree t])
| RevRelation(r,a,t) -> Xml.Element("revrelation",[],[
Xml.Element("role",[],[xml_of_dependency_tree r]);
Xml.Element("role_attr",[],[xml_of_dependency_tree r]);
xml_of_dependency_tree t])
| SingleRelation(r) -> Xml.Element("singlerelation",[],[xml_of_dependency_tree r])
| Tuple l -> Xml.Element("tuple",[],Xlist.map l xml_of_dependency_tree)
| Val s -> Xml.Element("val",[],[Xml.PCData s])
| Variant(e,l) -> Xml.Element("variants",["label",e],Xlist.map l (fun (i,t) ->
Xml.Element("variant",["id",i],[xml_of_dependency_tree t])))
| Dot -> Xml.Element("dot",[],[])
| Ref i -> Xml.Element("ref",["id",string_of_int i],[])
| Morf _ -> Xml.Element("dot",[],[]) (* FIXME!!! *)
| t -> failwith ("xml_of_dependency_tree: " ^ LCGstringOf.linear_term 0 t)
let print_xml_dependency_tree path name dependency_tree =
let l = Int.fold 0 (Array.length dependency_tree - 1) [] (fun l i ->
(i, xml_of_dependency_tree dependency_tree.(i)) :: l) in
let xml = Xml.Element("graph",[],Xlist.rev_map l (fun (i,xml) ->
Xml.Element("graph_node",["id",string_of_int i],[xml]))) in
File.file_out (path ^ name ^ ".xml") (fun file ->
fprintf file "%s\n" (Xml.to_string_fmt xml))
let print_xml_tree path name tree =
let xml = xml_of_dependency_tree tree in
File.file_out (path ^ name ^ ".xml") (fun file ->
fprintf file "%s\n" (Xml.to_string_fmt xml))
let rec get_refs rev = function
Ref i -> i :: rev
| Tuple l -> Xlist.fold l rev get_refs
| Variant(e,l) -> Xlist.fold l rev (fun rev (i,t) -> get_refs rev t)
| Dot -> rev
| _ -> (*failwith*)print_endline "get_refs"; rev
let escape_string s =
Int.fold 0 (String.length s - 1) "" (fun t i ->
match String.sub s i 1 with
"<" -> t ^ "〈"
| ">" -> t ^ "〉"
| c -> t ^ c)
let string_of_node t =
let l = [
"PRED",Val t.pred;"CAT",Val t.cat;"ID",Val (string_of_int t.id);"WEIGHT",Val (string_of_float t.weight);"GS",t.gs;
"AGF",Gf t.agf;"AMORF",Morf t.amorf;"AROLE",Val t.arole;"AROLE-ATTR",Val t.arole_attr;
"MEANING",Val t.meaning;"HIPERO",Tuple(Xlist.map (StringSet.to_list t.hipero) (fun s -> Val s));"MEANING-WEIGHT",Val (string_of_float t.meaning_weight);
"ROLE",Val t.position.ENIAMwalTypes.role;"ROLE-ATTR",Val t.position.ENIAMwalTypes.role_attr;"SEL-PREFS",Tuple(Xlist.map t.position.ENIAMwalTypes.sel_prefs (fun s -> Val s));
"GF",Gf t.position.ENIAMwalTypes.gf] @ t.attrs in
"{ " ^ String.concat " | " (Xlist.map l (fun (e,t) -> "{ " ^ e ^ " | " ^ escape_string (LCGstringOf.linear_term 0 t) ^ " }")) ^ " }"
let single_rel_id_count = ref 0
let get_single_rel_id () =
let id = !single_rel_id_count in
incr single_rel_id_count;
"s" ^ string_of_int id
let print_edge file label upper id =
if upper <> "" then
if label = "" then fprintf file " %s -> %s\n" upper id
else fprintf file " %s -> %s [label=\"%s\"]\n" upper id label
(*let rec print_graph_rec2 file edge upper = function
Tuple l -> Xlist.iter l (print_graph_rec2 file edge upper)
| Node t ->
let id = get_single_rel_id () in
fprintf file " %s [label=\"%s\"]\n" id (string_of_node t);
print_edge file edge upper id;
print_graph_rec2 file "" id t.args
| Concept t ->
let id = get_single_rel_id () in
fprintf file " %s [shape=box,label=\"%s %s\"]\n" id
(LCGchart.string_of_linear_term 0 t.c_sense)
(if t.c_name=Dot then "" else "„" ^ LCGchart.string_of_linear_term 0 t.c_name ^ "”"); (* FIXME *)
print_edge file edge upper id;
print_graph_rec2 file "" id t.c_relations
| SingleRelation(role) ->
let id = get_single_rel_id () in
fprintf file " %s [shape=circle,label=\"%s\"]\n" id (LCGchart.string_of_linear_term 0 role);
if upper <> "" then fprintf file " %s -> %s\n" upper id
| Variant(e,l) ->
fprintf file " %s [shape=diamond]\n" e;
print_edge file edge upper e;
Xlist.iter l (fun (i,t) -> print_graph_rec2 file i e t)
| Dot -> ()
| Ref i -> print_edge file edge upper ("x" ^ string_of_int i)
| t -> failwith ("print_graph_rec2: " ^ LCGchart.string_of_linear_term 0 t) *)
let rec string_of_quant_rec quant = function
Tuple l -> Xlist.fold l quant string_of_quant_rec
| Variant(e,l) -> (LCGstringOf.linear_term 0 (Variant(e,l))) :: quant
| Dot -> quant
| Val s -> s :: quant
| _ -> failwith "string_of_quant_rec"
let string_of_quant t =
let l = string_of_quant_rec [] t in
let s = String.concat " " l in
if s = "" then "" else "<I>" ^ s ^ "</I> "
let rec print_dependency_tree_rec file edge upper id = function
Node t ->
fprintf file " %s [label=\"%s\"]\n" id (string_of_node t);
print_edge file edge upper id;
print_dependency_tree_rec2 file "" id t.args
| Concept t ->
fprintf file " %s [shape=box,label=<%s%s %s>]\n" id
(string_of_quant t.c_quant)
(LCGstringOf.linear_term 0 t.c_sense)
(if t.c_name=Dot then "" else "„" ^ LCGstringOf.linear_term 0 t.c_name ^ "”"); (* FIXME *)
print_edge file edge upper id;
print_dependency_tree_rec2 file "" id t.c_relations
| Context t ->
if t.cx_sense = Dot then fprintf file " %s [shape=Msquare,label=\"\"]\n" id
else fprintf file " %s [shape=Msquare,label=\"%s\"]\n" id (LCGstringOf.linear_term 0 t.cx_sense);
print_edge file edge upper id;
print_dependency_tree_rec2 file "" id t.cx_contents;
print_dependency_tree_rec2 file "" id t.cx_relations;
| Relation(role,role_attr,t) ->
fprintf file " %s [shape=circle,label=\"%s\\n%s\"]\n" id (LCGstringOf.linear_term 0 role) (LCGstringOf.linear_term 0 role_attr);
print_edge file edge upper id;
print_dependency_tree_rec2 file "" id t
| RevRelation(role,role_attr,t) -> (* FIXME: odwrócenie strzałek *)
fprintf file " %s [shape=circle,label=\"%s\\n%s\"]\n" id (LCGstringOf.linear_term 0 role) (LCGstringOf.linear_term 0 role_attr);
print_edge file edge upper id;
print_dependency_tree_rec2 file "" id t
| SingleRelation(role) ->
fprintf file " %s [shape=circle,label=\"%s\"]\n" id (LCGstringOf.linear_term 0 role);
print_edge file edge upper id
| AddRelation(t,role,role_attr,s) ->
fprintf file " %s [shape=circle,label=\"AddRelation\\n%s\\n%s\"]\n" id role role_attr;
print_edge file edge upper id;
print_dependency_tree_rec2 file "" id t;
print_dependency_tree_rec2 file "" id s;
| SetContextName(s,t) ->
fprintf file " %s [shape=circle,label=\"SetContextName\\n%s\"]\n" id s;
print_edge file edge upper id;
print_dependency_tree_rec2 file "" id t
| RemoveRelation t ->
fprintf file " %s [shape=circle,label=\"RemoveRelation\"]\n" id;
print_edge file edge upper id;
print_dependency_tree_rec2 file "" id t
| Variant(e,l) ->
fprintf file " %s [shape=diamond,label=\"%s\"]\n" id e;
print_edge file edge upper id;
Xlist.iter l (fun (i,t) -> print_dependency_tree_rec2 file i id t)
| Choice choice ->
fprintf file " %s [shape=Mdiamond,label=\"%s\"]\n" id "";
print_edge file edge upper id;
StringMap.iter choice (fun ei t -> print_dependency_tree_rec2 file ei id t)
| Val s ->
fprintf file " %s [shape=box,label=\"%s\"]\n" id s;
print_edge file edge upper id
| Dot -> ()
(* fprintf file " %s [shape=box,label=\"Dot\"]\n" id;
print_edge file edge upper id*)
| Ref i -> print_edge file edge upper ("x" ^ string_of_int i)
| t -> failwith ("print_dependency_tree_rec: " ^ LCGstringOf.linear_term 0 t)
and print_dependency_tree_rec2 file edge upper = function
Tuple l -> Xlist.iter l (print_dependency_tree_rec2 file edge upper)
| t -> print_dependency_tree_rec file edge upper (get_single_rel_id ()) t
(*let rec print_graph_rec file is_rev upper i = function (* FIXME: dokończyć is_rev *)
Node t ->
(* let orth = if t.id = 0 then "" else.(t.id).PreTypes.orth in
fprintf file " %s [label=\"%s\\n%s\\n%s:%s\"]\n" i (LCGstringOf.linear_term 0 t.gs) orth t.pred t.cat;*)
fprintf file " %s [label=\"%s\"]\n" i (string_of_node t);
if upper <> "" then
if is_rev then fprintf file " %s -> %s\n" i upper
else fprintf file " %s -> %s\n" upper i;
print_graph_rec file false i i t.args
| Concept t ->
fprintf file " %s [shape=box,label=\"%s %s\"]\n" ("c" ^ i)
(LCGstringOf.linear_term 0 t.c_sense)
(if t.c_name=Dot then "" else "„" ^ LCGstringOf.linear_term 0 t.c_name ^ "”"); (* FIXME *)
if upper <> "" then
if is_rev then fprintf file " %s -> %s\n" ("c" ^ i) upper
else fprintf file " %s -> %s\n" upper ("c" ^ i);
print_graph_rec file false ("c" ^ i) i t.c_relations
| Context t ->
fprintf file " %s [shape=Msquare,label=\"\"]\n" ("i" ^ i);
if upper <> "" then
if is_rev then fprintf file " %s -> %s\n" ("i" ^ i) upper
else fprintf file " %s -> %s\n" upper ("i" ^ i);
print_graph_rec file false ("i" ^ i) i t.cx_contents
| SingleRelation(role) ->
let id = get_single_rel_id () in
fprintf file " %s [shape=circle,label=\"%s\"]\n" id (LCGstringOf.linear_term 0 role);
if upper <> "" then fprintf file " %s -> %s\n" upper id
| Relation(role,role_attr,t) ->
fprintf file " %s [shape=circle,label=\"%s\\n%s\"]\n" i (LCGstringOf.linear_term 0 role) (LCGstringOf.linear_term 0 role_attr);
if upper <> "" then fprintf file " %s -> %s\n" upper i;
print_graph_rec file false i i t
| RevRelation(role,role_attr,t) ->
fprintf file " %s [shape=circle,label=\"%s\\n%s\"]\n" i (LCGstringOf.linear_term 0 role) (LCGstringOf.linear_term 0 role_attr);
if upper <> "" then fprintf file " %s -> %s\n" i upper;
print_graph_rec file true i i t
| Tuple l -> Xlist.iter l (print_graph_rec file is_rev upper i)
| Variant(e,l) ->
fprintf file " %s [shape=diamond]\n" e;
if upper <> "" then fprintf file " %s -> %s\n" upper e;
Xlist.iter l (fun (i2,t) -> print_graph_rec file false e ("x" ^ i ^ "y" ^ i2) t)
| Dot -> ()
| Ref i2 -> fprintf file " %s -> %d\n" upper i2
| t -> failwith ("print_graph_rec: " ^ LCGstringOf.linear_term 0 t)*)
let print_dependency_tree path name dependency_tree =
single_rel_id_count := 0;
File.file_out (path ^ name ^ ".gv") (fun file ->
fprintf file "digraph G {\n node [shape=record]\n";
Int.iter 0 (Array.length dependency_tree - 1) (fun i -> print_dependency_tree_rec file (*false*) "" "" ("x" ^ string_of_int i) dependency_tree.(i));
(* Int.iter 0 (Array.length dependency_tree - 1) (fun i ->
match dependency_tree.(i) with
Node t ->
fprintf file " %d [label=\"%s\"]\n" i (string_of_node t);
let refs = get_refs [] t.args in
Xlist.iter refs (fun r ->
fprintf file " %d -> %d\n" i r)
| t -> failwith ("print_dependency_tree: " ^ LCGstringOf.linear_term 0 t));*)
fprintf file "}\n");
Sys.chdir path;
ignore (Sys.command ("dot -Tpng " ^ name ^ ".gv -o " ^ name ^ ".png"));
String.iter (function '/' -> Sys.chdir ".." | _ -> ()) path
let id_counter = ref 0
let print_edge2 file edge_rev edge_label edge_head edge_tail upper id =
let edge_head,edge_tail,upper,id = if edge_rev then edge_tail,edge_head,id,upper else edge_head,edge_tail,upper,id in
let l =
(if edge_label = "" then [] else ["label=\"" ^ edge_label ^ "\""]) @
(if edge_head = "" then [] else ["ltail=\"" ^ edge_head ^ "\""]) @
(if edge_tail = "" then [] else ["lhead=\"" ^ edge_tail ^ "\""]) in
if upper <> 0 then
if l = [] then fprintf file " %d -> %d\n" upper id
else fprintf file " %d -> %d [%s]\n" upper id (String.concat "," l)
let rec print_graph2_rec file edge_rev edge_label edge_head upper = function
Node t ->
let id = !id_counter in
incr id_counter;
fprintf file " %d [label=\"%s\"]\n" id (string_of_node t);
print_edge2 file edge_rev edge_label edge_head "" upper id;
print_graph2_rec file false "" "" id t.args
| Concept t ->
let id = !id_counter in
incr id_counter;
fprintf file " %d [shape=box,label=<%s%s %s>]\n" id
(string_of_quant t.c_quant)
(escape_string (LCGstringOf.linear_term 0 t.c_sense))
(if t.c_name=Dot then "" else "„" ^ LCGstringOf.linear_term 0 t.c_name ^ "”"); (* FIXME *)
print_edge2 file edge_rev edge_label edge_head "" upper id;
print_graph2_rec file false "" "" id t.c_relations
| Context t ->
let id = !id_counter in
incr id_counter;
if t.cx_sense = Dot then fprintf file " subgraph cluster%d {\nlabel=\"\"\n" id
else fprintf file " subgraph cluster%d {\nlabel=\"%s\"\n" id (LCGstringOf.linear_term 0 t.cx_sense);
print_graph2_rec file false "" "" 0 t.cx_contents;
fprintf file " }\n";
print_edge2 file edge_rev edge_label edge_head ("cluster" ^ string_of_int id) upper (id+1);
print_graph2_rec file false "" ("cluster" ^ string_of_int id) (id+1) t.cx_relations;
| Relation(role,role_attr,t) ->
let id = !id_counter in
incr id_counter;
fprintf file " %d [shape=circle,label=\"%s\\n%s\"]\n" id (LCGstringOf.linear_term 0 role) (LCGstringOf.linear_term 0 role_attr);
print_edge2 file false edge_label edge_head "" upper id;
print_graph2_rec file false "" "" id t
| RevRelation(role,role_attr,t) ->
let id = !id_counter in
incr id_counter;
fprintf file " %d [shape=circle,label=\"%s\\n%s\"]\n" id (LCGstringOf.linear_term 0 role) (LCGstringOf.linear_term 0 role_attr);
print_edge2 file true edge_label edge_head "" upper id;
print_graph2_rec file true "" "" id t
| SingleRelation(role) ->
let id = !id_counter in
incr id_counter;
fprintf file " %d [shape=circle,label=\"%s\"]\n" id (LCGstringOf.linear_term 0 role);
print_edge2 file false edge_label edge_head "" upper id
| AddRelation(t,role,role_attr,s) ->
let id = !id_counter in
incr id_counter;
fprintf file " %d [shape=circle,label=\"AddRelation\\n%s\\n%s\"]\n" id role role_attr;
print_edge2 file edge_rev edge_label edge_head "" upper id;
print_graph2_rec file false "" "" id t;
print_graph2_rec file false "" "" id s
| RemoveRelation t ->
let id = !id_counter in
incr id_counter;
fprintf file " %d [shape=circle,label=\"RemoveRelation\"]\n" id;
print_edge2 file edge_rev edge_label edge_head "" upper id;
print_graph2_rec file false "" "" id t
| SetContextName(s,t) ->
let id = !id_counter in
incr id_counter;
fprintf file " %d [shape=circle,label=\"SetContextName\\n%s\"]\n" id s;
print_edge2 file edge_rev edge_label edge_head "" upper id;
print_graph2_rec file false "" "" id t;
| Tuple l -> Xlist.iter l (print_graph2_rec file edge_rev edge_label edge_head upper)
| Variant(e,l) ->
let id = !id_counter in
incr id_counter;
fprintf file " %d [shape=diamond,label=\"%s\"]\n" id e;
print_edge2 file edge_rev edge_label edge_head "" upper id;
Xlist.iter l (fun (i,t) -> print_graph2_rec file edge_rev i "" id t)
| Val s ->
let id = !id_counter in
incr id_counter;
fprintf file " %d [shape=box,label=\"%s\"]\n" id s;
print_edge2 file edge_rev edge_label edge_head "" upper id
| Dot -> ()
| t -> failwith ("print_graph_rec: " ^ LCGstringOf.linear_term 0 t)
let print_graph2 path name query t =
(* print_endline *)
id_counter := 1;
File.file_out (path ^ name ^ ".gv") (fun file ->
fprintf file "digraph G {\n compound=true\n node [shape=record]\n";
print_graph2_rec file false "" "" 0 t;
fprintf file "label=\"%s\"\n }\n" query);
(* Sys.chdir path; *)
ignore (Sys.command ("dot -Tpng " ^ path ^ name ^ ".gv -o " ^ path ^ name ^ ".png"))(*;
Xlist.iter (Str.split (Str.regexp path) path) (fun _ -> Sys.chdir "..")*)
let rec get_lemma = function
ENIAMtokenizerTypes.Interp orth -> orth
| ENIAMtokenizerTypes.Lemma(lemma,cat,_) -> lemma ^ "\n" ^ cat
| _ -> ""
let print_paths path name paths =
File.file_out (path ^ name ^ ".gv") (fun file ->
fprintf file "digraph G {\n";
Array.iter (fun t ->
let lemma = get_lemma t.ENIAMtokenizerTypes.token in
if lemma <> "" then fprintf file " %d -> %d [label=\"%s\\n%s\"]\n" t.ENIAMtokenizerTypes.beg t.ENIAMtokenizerTypes.next t.ENIAMtokenizerTypes.orth lemma) paths;
fprintf file "}\n");
Sys.chdir path;
ignore (Sys.command ("dot -Tpng " ^ name ^ ".gv -o " ^ name ^ ".png"));
String.iter (function '/' -> Sys.chdir ".." | _ -> ()) path
let rec print_simplified_dependency_tree_rec2 file tokens edge upper = function
Tuple l -> Xlist.iter l (print_simplified_dependency_tree_rec2 file tokens edge upper)
| Variant(e,l) ->
fprintf file " %s [shape=diamond]\n" e;
print_edge file edge upper e;
Xlist.iter l (fun (i,t) -> print_simplified_dependency_tree_rec2 file tokens i e t)
| Dot -> ()
| Ref i -> print_edge file edge upper ("x" ^ string_of_int i)
| t -> failwith ("print_simplified_dependency_tree_rec: " ^ LCGstringOf.linear_term 0 t)
let rec print_simplified_dependency_tree_rec file tokens edge upper id = function
Node t ->
let orth = if t.id = 0 then "" else (ExtArray.get tokens t.id).ENIAMtokenizerTypes.orth in
fprintf file " %s [label=\"%s\\n%s\\n%s:%s\\n%f\"]\n" id (LCGstringOf.linear_term 0 t.gs) orth t.pred t.cat t.weight;
print_edge file edge upper id;
print_simplified_dependency_tree_rec2 file tokens "" id t.args
| Variant(e,l) ->
fprintf file " %s [shape=diamond,label=\"%s\"]\n" id e;
print_edge file edge upper id;
Xlist.iter l (fun (i,t) -> print_simplified_dependency_tree_rec file tokens i id (id ^ "y" ^ i) t)
| Choice choice ->
fprintf file " %s [shape=Mdiamond,label=\"%s\"]\n" id "";
print_edge file edge upper id;
StringMap.iter choice (fun ei t -> print_simplified_dependency_tree_rec file tokens ei id (id ^ "b" ^ ei) t)
| Dot -> ()
| t -> failwith ("print_simplified_dependency_tree_rec: " ^ LCGstringOf.linear_term 0 t)
let print_simplified_dependency_tree path name tokens dependency_tree =
File.file_out (path ^ name ^ ".gv") (fun file ->
fprintf file "digraph G {\n node [shape=box]\n";
Int.iter 0 (Array.length dependency_tree - 1) (fun i -> print_simplified_dependency_tree_rec file tokens "" "" ("x" ^ string_of_int i) dependency_tree.(i));
(* match dependency_tree.(i) with
Node t ->
let orth = if t.id = 0 then "" else tokens.(t.id).ENIAMtokenizerTypes.orth in
fprintf file " %d [label=\"%s\\n%s\\n%s:%s\"]\n" i (LCGstringOf.linear_term 0 t.gs) orth t.pred t.cat;
let refs = get_refs [] t.args in
Xlist.iter refs (fun r ->
fprintf file " %d -> %d\n" i r)
| t -> failwith ("print_simplified_dependency_tree: " ^ LCGstringOf.linear_term 0 t));*)
fprintf file "}\n");
Sys.chdir path;
ignore (Sys.command ("dot -Tpng " ^ name ^ ".gv -o " ^ name ^ ".png"));
String.iter (function '/' -> Sys.chdir ".." | _ -> ()) path
(*let print_tree filename paths dependency_tree =
File.file_out filename (fun file ->
fprintf file "digraph G {\n";
let set = Xlist.fold paths IntSet.empty (fun set t ->
IntSet.add (IntSet.add set t.ENIAMtokenizerTypes.beg) t.ENIAMtokenizerTypes.next) in
IntSet.iter set (fun i -> fprintf file " %d [width=0; height=0; label=\"\"]\n" i);
Xlist.iter paths (fun t ->
let lemma = get_lemma t.ENIAMtokenizerTypes.token in
if lemma <> "" then (
let s = if t.ENIAMtokenizerTypes.orth = "" then lemma else t.ENIAMtokenizerTypes.orth ^ "\n" ^ lemma in
fprintf file " %d -> i%d -> %d [arrowhead=none]\n" t.ENIAMtokenizerTypes.beg t.ENIAMtokenizerTypes.id t.ENIAMtokenizerTypes.next;
fprintf file " i%d [label=\"%s\"]\n" t.ENIAMtokenizerTypes.id s));
fprintf file "}\n");
Sys.chdir "results";
ignore (Sys.command "dot -Tpng tree.gv -o tree.png");
String.iter (function '/' -> Sys.chdir ".." | _ -> ()) path*)
(*let print_tree filename paths dependency_tree =
File.file_out filename (fun file ->
fprintf file "digraph G {\n";
fprintf file " subgraph {\n ordering=out\n";
let same = Xlist.fold (Xlist.sort paths (fun s t -> compare s.ENIAMtokenizerTypes.beg t.ENIAMtokenizerTypes.beg)) [] (fun same t ->
let lemma = get_lemma t.ENIAMtokenizerTypes.token in
if lemma <> "" then (
let s = if t.ENIAMtokenizerTypes.orth = "" then lemma else t.ENIAMtokenizerTypes.orth ^ "\n" ^ lemma in
fprintf file " i%d -> out [arrowhead=none]\n" t.ENIAMtokenizerTypes.id;
fprintf file " i%d [label=\"%s\"]\n" t.ENIAMtokenizerTypes.id s;
t.ENIAMtokenizerTypes.id :: same)
else same) in
fprintf file " }\n";
fprintf file " { rank = same; %s }\n" (String.concat "; " (Xlist.map same (fun i -> sprintf "\"i%d\"" i)));
Int.iter 0 (Array.length dependency_tree - 1) (fun i ->
match dependency_tree.(i) with
Node t ->
fprintf file " %d [label=\"%s\"]\n" i t.pred;
fprintf file " %d -> i%d\n" i t.id;
let refs = get_refs [] t.args in
Xlist.iter refs (fun r ->
fprintf file " %d -> %d\n" i r)
| _ -> failwith "print_graph");
fprintf file "}\n");
Sys.chdir "results";
ignore (Sys.command "dot -Tpng tree.gv -o tree.png");
Sys.chdir ".."*)
let rec schema_latex schema =
"\\begin{tabular}{l}" ^
String.concat "\\\\" (Xlist.map schema (fun s ->
LatexMain.escape_string (String.concat "," (
(if s.ENIAMwalTypes.gf = ENIAMwalTypes.ARG then [] else [ENIAMwalStringOf.gf s.ENIAMwalTypes.gf])@
(if s.ENIAMwalTypes.role = "" then [] else [s.ENIAMwalTypes.role])@
(if s.ENIAMwalTypes.role_attr = "" then [] else [s.ENIAMwalTypes.role_attr])@
s.ENIAMwalTypes.sel_prefs@(ENIAMwalStringOf.controllers s.ENIAMwalTypes.cr)@(ENIAMwalStringOf.controllees s.ENIAMwalTypes.ce)) ^ ENIAMwalStringOf.direction s.ENIAMwalTypes.dir ^ "{" ^ String.concat ";" (Xlist.map s.ENIAMwalTypes.morfs ENIAMwalStringOf.morf) ^ "}"))) ^
"\\end{tabular}"
let fnum_frame_latex = function
fnum,ENIAMwalTypes.Frame(atrs,s) ->
Printf.sprintf "%d: %s: %s" fnum (LatexMain.escape_string (ENIAMwalStringOf.frame_atrs atrs)) (schema_latex s)
| fnum,ENIAMwalTypes.LexFrame(id,p,r,s) ->
Printf.sprintf "%d: %s: %s: %s: %s" fnum id (LatexMain.escape_string (ENIAMwalStringOf.pos p)) (ENIAMwalStringOf.restr r) (schema_latex s)
| fnum,ENIAMwalTypes.ComprepFrame(le,p,r,s) ->
Printf.sprintf "%d: %s: %s: %s: %s" fnum le (LatexMain.escape_string (ENIAMwalStringOf.pos p)) (ENIAMwalStringOf.restr r) (schema_latex s)
(*let print_paths_latex name paths =
LatexMain.latex_file_out "results/" name "a0" false (fun file ->
fprintf file "\\begin{longtable}{|l|l|l|l|l|l|l|p{4cm}|l|l|l|l|}\n\\hline\north & beg & len & next & token & id & weight & attrs & lroles & senses & simple valence & valence\\\\\n";
Int.iter 0 (Array.length paths - 1) (fun i ->
let t = paths.(i) in
fprintf file "%s & %d & %d & %d & %s & %d & %.4f & %s & %s %s &\\begin{tabular}{l|l|p{4cm}}%s\\end{tabular} &\\begin{tabular}{l}%s\\end{tabular} &\\begin{tabular}{l}%s\\end{tabular}\\\\\n\\hline\n"
t.ENIAMtokenizerTypes.orth t.ENIAMtokenizerTypes.beg t.ENIAMtokenizerTypes.len t.ENIAMtokenizerTypes.next (LatexMain.escape_string (ENIAMtokens.string_of_token t.ENIAMtokenizerTypes.token)) t.ENIAMtokenizerTypes.id t.ENIAMtokenizerTypes.weight
(String.concat ";" t.ENIAMtokenizerTypes.attrs) (fst t.ENIAMtokenizerTypes.lroles) (snd t.ENIAMtokenizerTypes.lroles)
(String.concat "\\\\\n" (Xlist.map t.ENIAMtokenizerTypes.senses (fun (sense,hipero,weight) -> sprintf "%s & %.2f & %s" sense weight (String.concat "," hipero))))
(String.concat "\\\\\n\\hline\n" (Xlist.map t.ENIAMtokenizerTypes.simple_valence (fun x -> fnum_frame_latex x)))
(String.concat "\\\\\n\\hline\n" (Xlist.map t.ENIAMtokenizerTypes.valence (fun x -> fnum_frame_latex x))));
fprintf file "\\end{longtable}");
LatexMain.latex_compile_and_clean "results/" name*)
let print_mml path name mml =
File.file_out (path ^ name ^ ".mml") (fun file ->
fprintf file "<!DOCTYPE math PUBLIC \"-//W3C//DTD MathML 2.0//EN\" \"http://www.w3.org/Math/DTD/mathml2/mathml2.dtd\">\n";
fprintf file "%s\n" (Xml.to_string_fmt mml))
let page_header path =
"<!DOCTYPE HTML PUBLIC \"-//W3C//DTD HTML 4.01 Transitional//EN\">
<html>
<head>
<META HTTP-EQUIV=\"CONTENT-TYPE\" CONTENT=\"text/html; charset=utf8\">
<TITLE>ENIAM: Kategorialny Parser Składniowo-Semantyczny</TITLE>
<META HTTP-EQUIV=\"Content-Language\" CONTENT=\"pl\">
</head>
<body>
<center>
<h1>ENIAM: Kategorialny Parser Składniowo-Semantyczny</h1>
<h3>Podaj tekst:</h3>
<form method=POST action=\"" ^ path ^ "parser2.cgi\">
<p><input type=\"text\" name=\"text0\" value=\"\" size=\"100\"></p>
<p><input type=\"submit\" value=\"Analizuj\" size=\"60\"></p>
</form>"
(*<textarea name="text0" cols="100" rows="10"></textarea>*)
let page_trailer =
"<BR><BR>
<hr align=\"center\" size=\"2\" width=\"800\" />
Copyright © 2016 Institute of Computer Science Polish Academy of Sciences<BR>
</center>
</body>
</html>"
let print_webpage file cg_bin_path html_path id query n max_n mml =
fprintf file "%s\n" (page_header cg_bin_path);
fprintf file "\n<H3>%s</H3>\n" query;
fprintf file "<P>%s %s\n"
(if n = 1 then "" else sprintf "<A HREF=\"%spage%s_%d.html\">Poprzednia interpretacja</A>" html_path id (n-1))
(if n = max_n then "" else sprintf "<A HREF=\"%spage%s_%d.html\">Następna interpretacja</A>" html_path id (n+1));
fprintf file "<P><IMG SRC=\"%stree%s_%d.png\">\n" html_path id n;
fprintf file "<P>%s\n" (Xml.to_string_fmt mml);
fprintf file "<P><A HREF=\"%stree%s_%d.xml\">Graf w formacie XML</A>\n" html_path id n;
fprintf file "<P><A HREF=\"%sformula%s_%d.mml\">Formuła w formacie MathML</A>\n" html_path id n;
fprintf file "<P>%s %s\n"
(if n = 1 then "" else sprintf "<A HREF=\"%spage%s_%d.html\">Poprzednia interpretacja</A>" html_path id (n-1))
(if n = max_n then "" else sprintf "<A HREF=\"%spage%s_%d.html\">Następna interpretacja</A>" html_path id (n+1));
fprintf file "%s\n" page_trailer
open ExecTypes
let generate_status_message result = function
Idle -> "Server error: " ^ result.msg
| PreprocessingError -> "Error during preprocessing: " ^ result.msg
| LexiconError -> "Error during LCG lexicon generation: " ^ result.msg
| ParseError -> "Error during parsing: " ^ result.msg
| ParseTimeout -> "Parser timeout: " ^ result.msg
| NotParsed -> "Unable to parse query"
| ReductionError -> "Error during dependency tree generation: " ^ result.msg
| TooManyNodes -> "Depencency tree is too big"
| NotReduced -> "Unable to generate dependency tree"
| SemError -> "Error during logical form generation: " ^ result.msg
| NotTranslated -> "Unable to generate logical form"
| Parsed -> "parsed"
let print_other_result file cg_bin_path query result =
fprintf file "%s\n" (page_header cg_bin_path);
fprintf file "\n<H3>%s</H3>\n" query;
fprintf file "\n<P>%s\n" (generate_status_message result result.status);
fprintf file "%s\n" page_trailer
*)
let string_of_mode = function
Raw -> "Raw"
| Struct -> "Struct"
| CONLL -> "CONLL"
| ENIAM -> "ENIAM"
| Mate -> "Mate"
| Swigra -> "Swigra"
| POLFIE -> "POLFIE"
(*
(*let rec string_of_sentence = function
RawSentence s -> sprintf "RawSentence(%s)" s
| StructSentence(id,paths,last) -> sprintf "StructSentence(%s,%s,%d)" id (string_of_paths1 paths) last
| ORSentence _ -> failwith "string_of_sentence: ni"
| AltSentence l -> sprintf "AltSentence([\n %s])" (String.concat ";\n " (Xlist.map l (fun (mode,sentence) ->
string_of_mode mode ^ ", " ^ string_of_sentence sentence)))
| _ -> failwith "string_of_sentence: ni"
let rec string_of_paragraph = function
RawParagraph s -> sprintf "RawParagraph(%s)" s
| StructParagraph sentences ->
sprintf "StructParagraph([\n %s])" (String.concat ";\n " (Xlist.map sentences (fun p ->
sprintf "{pid=%s; pbeg=%d; plen=%d; psentence=%s}" p.pid p.pbeg p.plen (string_of_sentence p.psentence))))
| AltParagraph l -> sprintf "AltParagraph(\n %s)" (String.concat "\n " (Xlist.map l (fun (mode,paragraph) ->
string_of_mode mode ^ ", " ^ string_of_paragraph paragraph)))
let rec string_of_text = function
RawText s -> sprintf "RawText(%s)" s
| StructText(paragraphs,next_id) ->
sprintf "StructText([\n %s],%d)" (String.concat ";\n " (Xlist.map paragraphs string_of_paragraph)) next_id
| AltText l -> sprintf "AltText(\n %s)" (String.concat "\n " (Xlist.map l (fun (mode,text) ->
string_of_mode mode ^ ", " ^ string_of_text text)))*)
*)
let html_header =
"<!DOCTYPE HTML PUBLIC \"-//W3C//DTD HTML 4.01 Transitional//EN\">
<html>
<head>
<META HTTP-EQUIV=\"CONTENT-TYPE\" CONTENT=\"text/html; charset=utf8\">
<TITLE>ENIAM: Kategorialny Parser Składniowo-Semantyczny</TITLE>
<META HTTP-EQUIV=\"Content-Language\" CONTENT=\"pl\">
</head>
<body>
<center>"
let html_trailer =
"</center>
</body>
</html>"
let escape_html s =
Int.fold 0 (String.length s - 1) "" (fun t i ->
match String.sub s i 1 with
"<" -> t ^ "<"
| ">" -> t ^ ">"
| "&" -> t ^ "&"
| c -> t ^ c)
let html_of_struct_sentence tokens paths last =
"<table><tr><td><b>orth</b></td><td><b>token</b></td><td><b>id</b></td><td><b>lnode</b></td><td><b>rnode</b></td></tr>" ^
String.concat "\n" (Xlist.map (List.sort compare paths) (fun (id,lnode,rnode) ->
let t = ExtArray.get tokens id in
sprintf "<tr><td>%s</td><td>%s</td><td>%d</td><td>%d</td><td>%d</td></tr>"
t.ENIAMtokenizerTypes.orth (escape_html (ENIAMtokens.string_of_token t.ENIAMtokenizerTypes.token)) id lnode rnode)) ^
sprintf "<tr><td></td><td></td><td></td><td>%d</td><td></td></tr>" last ^
"</table>"
(*
let html_of_dep_sentence tokens paths =
"<table><tr><td><b>orth</b></td><td><b>token</b></td><td><b>id</b></td><td><b>conll_id</b></td><td><b>super</b></td><td><b>label</b></td></tr>" ^
String.concat "\n" (List.rev (Int.fold 0 (Array.length paths - 1) [] (fun l conll_id ->
let id,super,label = paths.(conll_id) in
let t = ExtArray.get tokens id in
(sprintf "<tr><td>%s</td><td>%s</td><td>%d</td><td>%d</td><td>%d</td><td>%s</td></tr>"
t.ENIAMtokenizerTypes.orth (escape_html (ENIAMtokens.string_of_token t.ENIAMtokenizerTypes.token)) id conll_id super label) :: l))) ^
"</table>"
let html_of_tokens tokens =
"<table><tr><td><b>id</b></td><td><b>orth</b></td><td><b>beg</b></td><td><b>len</b></td><td><b>next</b></td><td><b>token</b></td></td><td><b>attrs</b></td></tr>" ^
String.concat "\n" (List.rev (Int.fold 0 (ExtArray.size tokens - 1) [] (fun l id ->
let t = ExtArray.get tokens id in
(sprintf "<tr><td>%d</td><td>%s</td><td>%d</td><td>%d</td><td>%d</td><td>%s</td><td>%s</td></tr>"
id t.ENIAMtokenizerTypes.orth t.ENIAMtokenizerTypes.beg t.ENIAMtokenizerTypes.len t.ENIAMtokenizerTypes.next (escape_html (ENIAMtokens.string_of_token t.ENIAMtokenizerTypes.token))
(String.concat "; " t.ENIAMtokenizerTypes.attrs)) :: l))) ^
"</table>"
let html_of_tokens_simple_valence tokens lex_sems =
"<table><tr><td><b>id</b></td><td><b>orth</b></td><td><b>simple_valence</b></td></tr>" ^
String.concat "\n" (List.rev (Int.fold 0 (ExtArray.size tokens - 1) [] (fun l id ->
let t = ExtArray.get tokens id in
let d = ExtArray.get lex_sems id in
Xlist.fold d.ENIAMlexSemanticsTypes.simple_valence l (fun l (fnum,frame) ->
(sprintf "<tr><td>%d</td><td>%s</td><td>%s</td></tr>"
id t.ENIAMtokenizerTypes.orth (ENIAMwalStringOf.fnum_frame (lemma_of_token t.token) (fnum,frame))) :: l)))) ^
"</table>"
let html_of_tokens_valence tokens lex_sems =
"<table><tr><td><b>id</b></td><td><b>orth</b></td><td><b>simple_valence</b></td></tr>" ^
String.concat "\n" (List.rev (Int.fold 0 (ExtArray.size tokens - 1) [] (fun l id ->
let t = ExtArray.get tokens id in
let d = ExtArray.get lex_sems id in
Xlist.fold d.ENIAMlexSemanticsTypes.valence l (fun l (fnum,frame) ->
(sprintf "<tr><td>%d</td><td>%s</td><td>%s</td></tr>"
id t.ENIAMtokenizerTypes.orth (ENIAMwalStringOf.fnum_frame (lemma_of_token t.token) (fnum,frame))) :: l)))) ^
"</table>"
let create_latex_chart path name chart =
LatexMain.latex_file_out path name "a1" false (fun file ->
Printf.fprintf file "%s\n" (LCGlatexOf.chart chart));
LatexMain.latex_compile_and_clean path name
let create_latex_parsed_dep_chart path name parsed_dep_chart =
LatexMain.latex_file_out path name "a1" false (fun file ->
Printf.fprintf file "%s\n" (LCGlatexOf.parsed_dep_chart parsed_dep_chart));
LatexMain.latex_compile_and_clean path name
let create_latex_not_parsed_dep_chart path name not_parsed_dep_chart =
LatexMain.latex_file_out path name "a1" false (fun file ->
Printf.fprintf file "%s\n" (LCGlatexOf.not_parsed_dep_chart not_parsed_dep_chart));
LatexMain.latex_compile_and_clean path name
let create_latex_dep_chart path name dep_chart =
LatexMain.latex_file_out path name "a1" false (fun file ->
Printf.fprintf file "%s\n" (LCGlatexOf.dep_chart dep_chart));
LatexMain.latex_compile_and_clean path name
*)
(* verbosity:
0 -> jedynie informacja o statusie zdania
1 -> zawartość struktur danych istotnych dla uzyskanego statusu
2 -> zawartość wszystkich struktur danych
*)
let html_of_eniam_sentence path file_prefix img verbosity tokens (result : eniam_parse_result) =
match result.status with
Idle -> "idle\n"
| LexiconError -> sprintf "error_lex: %s paths_size=%d\n" result.msg result.paths_size
| ParseError ->
if verbosity = 0 then () else (
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_1_chart") "a1" result.text_fragments result.chart1;
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_2_chart") "a4" result.text_fragments result.chart2;
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_2_references") "a0" result.references2);
sprintf "error_parse: %s paths_size=%d\n" result.msg result.paths_size ^
(if verbosity = 0 then "" else
sprintf "<BR><A HREF=\"%s_1_chart.pdf\">Chart 1</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_2_chart.pdf\">Chart 2</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_2_references.pdf\">References 2</A>\n" file_prefix) ^
""
| ParseTimeout ->
if verbosity < 2 then () else (
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_1_chart") "a1" result.text_fragments result.chart1;
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_2_references") "a0" result.references2);
if verbosity = 0 then () else (
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_2_chart") "a4" result.text_fragments result.chart2);
sprintf "timeout: %s paths_size=%d\n" result.msg result.paths_size ^
(if verbosity < 2 then "" else
sprintf "<BR><A HREF=\"%s_1_chart.pdf\">Chart 1</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_2_references.pdf\">References 2</A>\n" file_prefix) ^
(if verbosity = 0 then "" else
sprintf "<BR><A HREF=\"%s_2_chart.pdf\">Chart 2</A>\n" file_prefix) ^
""
| NotParsed ->
if verbosity = 0 then () else (
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_1_chart") "a1" result.text_fragments result.chart1);
if verbosity < 2 then () else (
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_2_chart") "a4" result.text_fragments result.chart2;
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_2_references") "a0" result.references2;
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_3_references") "a0" result.references3);
if verbosity = 0 then () else (
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_3_chart") "a4" result.text_fragments result.chart3);
sprintf "not_parsed: paths_size=%d chart_size=%d\n" result.paths_size result.chart_size ^
(if verbosity = 0 then "" else
sprintf "<BR><A HREF=\"%s_1_chart.pdf\">Chart 1</A>\n" file_prefix) ^
(if verbosity < 2 then "" else
sprintf "<BR><A HREF=\"%s_2_chart.pdf\">Chart 2</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_2_references.pdf\">References 2</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_3_references.pdf\">References 3</A>\n" file_prefix) ^
(if verbosity = 0 then "" else
sprintf "<BR><A HREF=\"%s_3_chart.pdf\">Chart 3</A>\n" file_prefix) ^
""
| ReductionError ->
if verbosity < 2 then () else (
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_2_chart") "a4" result.text_fragments result.chart2;
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_2_references") "a0" result.references2;
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_3_chart") "a4" result.text_fragments result.chart3);
if verbosity = 0 then () else (
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_1_chart") "a1" result.text_fragments result.chart1;
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_3_references") "a0" result.references3);
(if verbosity < 2 then "" else
sprintf "error_reduction: %s paths_size=%d chart_size=%d\n" result.msg result.paths_size result.chart_size ^
sprintf "<BR><A HREF=\"%s_2_chart.pdf\">Chart 2</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_2_references.pdf\">References 2</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_3_chart.pdf\">Chart 3</A>\n" file_prefix) ^
(if verbosity = 0 then "" else
sprintf "<BR><A HREF=\"%s_1_chart.pdf\">Chart 1</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_3_references.pdf\">References 3</A>\n" file_prefix) ^
""
| TooManyNodes ->
if verbosity < 2 then () else (
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_1_chart") "a1" result.text_fragments result.chart1;
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_2_chart") "a4" result.text_fragments result.chart2;
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_2_references") "a0" result.references2;
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_3_chart") "a4" result.text_fragments result.chart3;
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_3_references") "a0" result.references3);
sprintf "to_many_nodes: paths_size=%d chart_size=%d\n" result.paths_size result.chart_size ^
(if verbosity < 2 then "" else
sprintf "<BR><A HREF=\"%s_1_chart.pdf\">Chart 1</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_2_chart.pdf\">Chart 2</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_2_references.pdf\">References 2</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_3_chart.pdf\">Chart 3</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_3_references.pdf\">References 3</A>\n" file_prefix) ^
""
| NotReduced ->
if verbosity < 2 then () else (
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_1_chart") "a1" result.text_fragments result.chart1;
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_2_chart") "a4" result.text_fragments result.chart2;
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_2_references") "a0" result.references2;
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_3_chart") "a4" result.text_fragments result.chart3);
if verbosity = 0 then () else (
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_3_references") "a0" result.references3;
Xlatex.latex_file_out path (file_prefix ^ "_4_term") "a4" false (fun file ->
Printf.fprintf file "\\[%s\\]\n" (ENIAM_LCGlatexOf.linear_term 0 result.term4));
Xlatex.latex_compile_and_clean path (file_prefix ^ "_4_term");
ENIAM_LCGlatexOf.print_dependency_tree path (file_prefix ^ "_4_dependency_tree") "a0" result.dependency_tree4);
sprintf "not_reduced: paths_size=%d chart_size=%d dependency_tree_size=%d\n" result.paths_size result.chart_size result.dependency_tree_size ^
(if verbosity < 2 then "" else
sprintf "<BR><A HREF=\"%s_1_chart.pdf\">Chart 1</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_2_chart.pdf\">Chart 2</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_2_references.pdf\">References 2</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_3_chart.pdf\">Chart 3</A>\n" file_prefix) ^
(if verbosity = 0 then "" else
sprintf "<BR><A HREF=\"%s_3_references.pdf\">References 3</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_4_term.pdf\">Term 4</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_4_dependency_tree.pdf\">Dependency Tree References 4</A>\n" file_prefix) ^
""
| SemError ->
if verbosity < 2 then () else (
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_1_chart") "a1" result.text_fragments result.chart1;
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_2_chart") "a4" result.text_fragments result.chart2;
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_2_references") "a0" result.references2;
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_3_chart") "a4" result.text_fragments result.chart3);
if verbosity = 0 then () else (
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_3_references") "a0" result.references3;
Xlatex.latex_file_out path (file_prefix ^ "_4_term") "a4" false (fun file ->
Printf.fprintf file "\\[%s\\]\n" (ENIAM_LCGlatexOf.linear_term 0 result.term4));
Xlatex.latex_compile_and_clean path (file_prefix ^ "_4_term");
ENIAM_LCGlatexOf.print_dependency_tree path (file_prefix ^ "_4_dependency_tree") "a0" result.dependency_tree4);
sprintf "error_sem: %s paths_size=%d chart_size=%d dependency_tree_size=%d\n" result.msg result.paths_size result.chart_size result.dependency_tree_size ^
(if verbosity < 2 then "" else
sprintf "<BR><A HREF=\"%s_1_chart.pdf\">Chart 1</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_2_chart.pdf\">Chart 2</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_2_references.pdf\">References 2</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_3_chart.pdf\">Chart 3</A>\n" file_prefix) ^
(if verbosity = 0 then "" else
sprintf "<BR><A HREF=\"%s_3_references.pdf\">References 3</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_4_term.pdf\">Term 4</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_4_dependency_tree.pdf\">Dependency Tree References 4</A>\n" file_prefix) ^
""
| Parsed ->
if verbosity < 2 then () else (
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_1_chart") "a1" result.text_fragments result.chart1;
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_2_chart") "a4" result.text_fragments result.chart2;
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_2_references") "a0" result.references2;
ENIAM_LCGlatexOf.print_chart path (file_prefix ^ "_3_chart") "a4" result.text_fragments result.chart3;
ENIAM_LCGlatexOf.print_references path (file_prefix ^ "_3_references") "a0" result.references3;
Xlatex.latex_file_out path (file_prefix ^ "_4_term") "a4" false (fun file ->
Printf.fprintf file "\\[%s\\]\n" (ENIAM_LCGlatexOf.linear_term 0 result.term4));
Xlatex.latex_compile_and_clean path (file_prefix ^ "_4_term");
ENIAM_LCGlatexOf.print_dependency_tree path (file_prefix ^ "_4_dependency_tree") "a0" result.dependency_tree4;
ENIAM_LCGlatexOf.print_dependency_tree path (file_prefix ^ "_5_dependency_tree") "a4" result.dependency_tree5;
ENIAM_LCGlatexOf.print_dependency_tree path (file_prefix ^ "_6_dependency_tree") "a4" result.dependency_tree6);
if verbosity = 0 then () else (
ENIAM_LCGgraphOf.print_dependency_tree path (file_prefix ^ "_6_dependency_tree") result.dependency_tree6;
ENIAM_LCGgraphOf.print_simplified_dependency_tree path (file_prefix ^ "_6_simple_dependency_tree") result.dependency_tree6);
sprintf "parsed: paths_size=%d chart_size=%d dependency_tree_size=%d\n" result.paths_size result.chart_size result.dependency_tree_size ^
(if verbosity < 2 then "" else
sprintf "<BR><A HREF=\"%s_1_chart.pdf\">Chart 1</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_2_chart.pdf\">Chart 2</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_2_references.pdf\">References 2</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_3_chart.pdf\">Chart 3</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_3_references.pdf\">References 3</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_4_term.pdf\">Term 4</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_4_dependency_tree.pdf\">Dependency Tree References 4</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_5_dependency_tree.pdf\">Dependency Tree References 5</A>\n" file_prefix ^
sprintf "<BR><A HREF=\"%s_6_dependency_tree.pdf\">Dependency Tree References 6</A>\n" file_prefix) ^
(if verbosity = 0 then "" else
(if img <> 2 then sprintf "<BR><A HREF=\"%s_6_dependency_tree.png\">Dependency Tree 6</A>\n" file_prefix
else sprintf "<BR><IMG SRC=\"%s_6_dependency_tree.png\">\n" file_prefix) ^
(if img <> 1 then sprintf "<BR><A HREF=\"%s_6_simple_dependency_tree.png\">Simplified Dependency Tree 6</A>\n" file_prefix
else sprintf "<BR><IMG SRC=\"%s_6_simple_dependency_tree.png\">\n" file_prefix)) ^
""
| _ -> failwith "html_of_eniam_sentence"
(*
let html_of_conll_sentence path img verbosity tokens (result : conll_parse_result) =
match result.status with
Idle -> "idle\n"
(* | PreprocessingError -> "error_pre: %s\n" result.msg *)
| LexiconError -> sprintf "error_lex: %s\n" result.msg
| ParseError ->
create_latex_dep_chart path (result.file_prefix ^ "_dep_chart") result.dep_chart;
create_latex_parsed_dep_chart path (result.file_prefix ^ "_parsed_dep_chart") result.parsed_dep_chart;
sprintf "error_parse: %s\n" result.msg ^
sprintf "<BR><A HREF=\"%s_dep_chart.pdf\">Chart</A>\n" result.file_prefix ^
sprintf "<BR><A HREF=\"%s_parsed_dep_chart.pdf\">Parsed Chart</A>\n" result.file_prefix
| ParseTimeout ->
create_latex_dep_chart path (result.file_prefix ^ "_dep_chart") result.dep_chart;
create_latex_parsed_dep_chart path (result.file_prefix ^ "_parsed_dep_chart") result.parsed_dep_chart;
sprintf "timeout: %s\n" result.msg ^
sprintf "<BR><A HREF=\"%s_dep_chart.pdf\">Chart</A>\n" result.file_prefix ^
sprintf "<BR><A HREF=\"%s_parsed_dep_chart.pdf\">Parsed Chart</A>\n" result.file_prefix
| NotParsed ->
create_latex_dep_chart path (result.file_prefix ^ "_dep_chart") result.dep_chart;
create_latex_not_parsed_dep_chart path (result.file_prefix ^ "_not_parsed_dep_chart") result.not_parsed_dep_chart;
sprintf "not_parsed\n" ^
html_of_dep_sentence tokens result.paths ^
sprintf "<BR><A HREF=\"%s_dep_chart.pdf\">Chart</A>\n" result.file_prefix ^
sprintf "<BR><A HREF=\"%s_not_parsed_dep_chart.pdf\">Not Parsed Chart</A>\n" result.file_prefix
| ReductionError -> sprintf "error_reduction: %s\n" result.msg
| TooManyNodes -> sprintf "to_many_nodes: paths_size=%d\n" result.paths_size
| NotReduced ->
LCGlatexOf.print_dependency_tree path (result.file_prefix ^ "_dependency_tree_references") result.dependency_tree;
sprintf "not_reduced: paths_size=%d\n" result.paths_size ^
sprintf "<BR><A HREF=\"%s_dependency_tree_references.pdf\">Dependency Tree References</A>\n" result.file_prefix
| SemError -> sprintf "error_sem: %s dependency_tree_size=%d\n" result.msg result.dependency_tree_size
(* | NotTranslated -> "not_translated: \n" *)
| Parsed ->
(* print_simplified_dependency_tree path (result.file_prefix ^ "_simplified_dependency_tree") tokens result.dependency_tree; *)
print_dependency_tree path (result.file_prefix ^ "_dependency_tree") result.dependency_tree;
(* LCGlatexOf.print_dependency_tree path (result.file_prefix ^ "_dependency_tree_references") result.dependency_tree; *)
sprintf "parsed: paths_size=%d dependency_tree_size=%d\n" result.paths_size result.dependency_tree_size ^
(* sprintf "<BR><A HREF=\"%s_simplified_dependency_tree.png\">Simplified Dependency Tree</A>\n" result.file_prefix ^ *)
sprintf "<BR><A HREF=\"%s_dependency_tree.png\">Dependency Tree</A>\n" result.file_prefix ^
(* sprintf "<BR><A HREF=\"%s_dependency_tree_references.pdf\">Dependency Tree References</A>\n" result.file_prefix *)
""
| _ -> failwith "html_of_conll_sentence"
let html_of_sem_sentence path tokens (result : semantic_processing_result) =
match result.status with
Idle -> "idle\n"
| SemError -> sprintf "error_sem: %s\n" result.msg
(* print_dependency_tree path (result.file_prefix ^ "_disamb") result.disamb;
print_dependency_tree path (result.file_prefix ^ "_sem") result.sem;
print_dependency_tree path (result.file_prefix ^ "_sem2") result.sem2;
print_graph2 "results/" "sem3" query result.sem3; *)
| NotTranslated ->
(* print_dependency_tree path (result.file_prefix ^ "_disamb") result.disamb;
print_dependency_tree path (result.file_prefix ^ "_sem") result.sem;
print_dependency_tree path (result.file_prefix ^ "_sem2") result.sem2; *)
print_graph2 path (result.file_prefix ^ "_sem3") "" result.sem3;
sprintf "not_translated \n" ^
(* sprintf "<BR><A HREF=\"%s_disamb.png\">Disambiguated Dependency Tree</A>\n" result.file_prefix ^
sprintf "<BR><A HREF=\"%s_sem.png\">Semantic Graph 1</A>\n" result.file_prefix ^
sprintf "<BR><A HREF=\"%s_sem2.png\">Semantic Graph 2</A>\n" result.file_prefix ^ *)
sprintf "<BR><A HREF=\"%s_sem3.png\">Semantic Graph</A>\n" result.file_prefix
| Parsed ->
print_graph2 path (result.file_prefix ^ "_sem3") "" result.sem3;
sprintf "parsed \n" ^
sprintf "<BR><A HREF=\"%s_sem3.png\">Semantic Graph</A>\n" result.file_prefix
| _ -> failwith "html_of_sem_sentence"
*)
let file_prefix_of_mode = function
Raw -> "R"
| Struct -> "St"
| CONLL -> "C"
| ENIAM -> "E"
| Mate -> "M"
| Swigra -> "S"
| POLFIE -> "P"
let rec html_of_sentence path file_prefix mode img verbosity tokens = function
RawSentence s -> s
| StructSentence(paths,last) -> html_of_struct_sentence tokens paths last
(* | DepSentence paths -> html_of_dep_sentence img verbosity tokens paths *)
| ENIAMSentence result ->
let file_prefix = file_prefix_of_mode mode ^ file_prefix in
html_of_eniam_sentence path file_prefix img verbosity tokens result
(* | CONLLSentence result -> html_of_conll_sentence path img verbosity tokens result
| SemSentence result -> html_of_sem_sentence path img verbosity tokens result *)
| QuotedSentences sentences ->
String.concat "<BR>\n" (Xlist.map sentences (fun p ->
sprintf "id=%s beg=%d len=%d next=%d<BR>%s" p.id p.beg p.len p.next (html_of_sentence path p.file_prefix mode img verbosity tokens p.sentence)))
| AltSentence l -> (*print_endline "AltSentence";*)
"<table border=1>" ^
String.concat "\n" (Xlist.map l (fun (mode,sentence) ->
sprintf "<tr><td>%s</td><td>%s</td></tr>" (string_of_mode mode) (html_of_sentence path file_prefix mode img verbosity tokens sentence))) ^
"</table>"
| _ -> failwith "html_of_sentence: ni"
let rec html_of_paragraph path mode img verbosity tokens = function
RawParagraph s -> (*print_endline "RawParagraph";*) s
| StructParagraph sentences -> (*print_endline "StructParagraph";*)
String.concat "<BR>\n" (Xlist.map sentences (fun p ->
sprintf "id=%s beg=%d len=%d next=%d<BR>%s" p.id p.beg p.len p.next (html_of_sentence path p.file_prefix mode img verbosity tokens p.sentence)))
| AltParagraph l -> (*print_endline "AltParagraph";*)
"<table border=2>" ^
String.concat "\n" (Xlist.map l (fun (mode,paragraph) ->
sprintf "<tr><td>%s</td><td>%s</td></tr>" (string_of_mode mode) (html_of_paragraph path mode img verbosity tokens paragraph))) ^
"</table>"
let rec html_of_text path mode img verbosity tokens = function
RawText s -> s
| StructText paragraphs ->
String.concat "<BR>\n" (Xlist.map paragraphs (html_of_paragraph path mode img verbosity tokens))
| AltText l ->
"<table border=3>" ^
String.concat "\n" (Xlist.map l (fun (mode,text) ->
sprintf "<tr><td>%s</td><td>%s</td></tr>" (string_of_mode mode) (html_of_text path mode img verbosity tokens text))) ^
"</table>"
let print_html_text path name text img verbosity tokens (*lex_sems*) =
File.file_out (path ^ name ^ ".html") (fun file ->
fprintf file "%s\n" html_header;
fprintf file "%s<BR>\n" (html_of_text path Struct img verbosity tokens text);
(* fprintf file "%s<BR>\n" (html_of_tokens tokens); *)
(* fprintf file "%s<BR>\n" (html_of_tokens_simple_valence tokens);
fprintf file "%s<BR>\n" (html_of_tokens_valence tokens);*)
fprintf file "%s\n" html_trailer)
(*
let rec find_prev_next_sentence pid rev = function
AltSentence[Raw,_;Struct,QuotedSentences sentences] ->
Xlist.fold sentences rev (fun rev p -> find_prev_next_sentence p.pid rev p.psentence)
| AltSentence[Raw,RawSentence s; mode,SemSentence result] -> result.file_prefix :: rev
| AltSentence[Raw,RawSentence s] -> ("p" ^ pid) :: rev
| _ -> failwith "find_prev_next_sentence: ni"
let rec find_prev_next_paragraph rev = function
RawParagraph s -> rev
| StructParagraph sentences ->
Xlist.fold sentences rev (fun rev p -> find_prev_next_sentence p.pid rev p.psentence)
| AltParagraph l -> Xlist.fold l rev (fun rev (mode,paragraph) -> find_prev_next_paragraph rev paragraph)
let rec make_prev_next_map map prev = function
[x] -> StringMap.add map x (prev,"")
| x :: next :: l -> make_prev_next_map (StringMap.add map x (prev,next)) x (next :: l)
| [] -> failwith "make_prev_next_map"
let print_main_result cg_bin_path mode path id tokens query result prev_next_map =
let prev,next = try StringMap.find prev_next_map result.file_prefix with Not_found -> failwith "print_main_result" in
File.file_out (path ^ "page" ^ id ^ "_" ^ result.file_prefix ^ ".html") (fun file ->
fprintf file "%s\n" (page_header cg_bin_path);
if prev <> "" then fprintf file "<A HREF=\"page%s_%s.html\">Poprzednie zdanie</A> " id prev;
if next <> "" then fprintf file " <A HREF=\"page%s_%s.html\">Następne zdanie</A>" id next;
fprintf file "\n<H3>%s</H3>\n" query;
if mode <> ENIAM then fprintf file "<P>Parsed by %s\n" (string_of_mode mode);
ignore (Xlist.fold2 result.trees result.mrls 1 (fun n tree mrl ->
print_graph2 path ("tree" ^ id ^ "_" ^ result.file_prefix ^ "_" ^ string_of_int n) "" tree;
print_xml_tree path ("tree" ^ id ^ "_" ^ result.file_prefix ^ "_" ^ string_of_int n) tree;
let mml = SemMmlOf.mml_of_mrl mrl in
print_mml path ("formula" ^ id ^ "_" ^ result.file_prefix ^ "_" ^ string_of_int n) mml;
fprintf file "<P><IMG SRC=\"tree%s_%s_%d.png\">\n" id result.file_prefix n;
fprintf file "<P>%s\n" (Xml.to_string_fmt mml);
fprintf file "<P><A HREF=\"tree%s_%s_%d.xml\">Graf w formacie XML</A>\n" id result.file_prefix n;
fprintf file "<P><A HREF=\"formula%s_%s_%d.mml\">Formuła w formacie MathML</A>\n" id result.file_prefix n;
n+1));
fprintf file "<P>";
if prev <> "" then fprintf file "<A HREF=\"page%s_%s.html\">Poprzednie zdanie</A> " id prev;
if next <> "" then fprintf file " <A HREF=\"page%s_%s.html\">Następne zdanie</A>" id next;
fprintf file "%s\n" page_trailer)
let print_not_parsed_main_result cg_bin_path path id query pid prev_next_map =
let pid = "p" ^ pid in
let prev,next = try StringMap.find prev_next_map pid with Not_found -> failwith "print_not_parsed_main_result" in
File.file_out (path ^ "page" ^ id ^ "_" ^ pid ^ ".html") (fun file ->
fprintf file "%s\n" (page_header cg_bin_path);
if prev <> "" then fprintf file "<A HREF=\"page%s_%s.html\">Poprzednie zdanie</A> " id prev;
if next <> "" then fprintf file " <A HREF=\"page%s_%s.html\">Następne zdanie</A>" id next;
fprintf file "\n<H3>%s</H3>\n" query;
fprintf file "<P>Not parsed\n";
fprintf file "<P>";
if prev <> "" then fprintf file "<A HREF=\"page%s_%s.html\">Poprzednie zdanie</A> " id prev;
if next <> "" then fprintf file " <A HREF=\"page%s_%s.html\">Następne zdanie</A>" id next;
fprintf file "%s\n" page_trailer)
let rec print_main_result_sentence cg_bin_path path id tokens pid prev_next_map = function
AltSentence[Raw,_;Struct,QuotedSentences sentences] ->
Xlist.iter sentences (fun p -> print_main_result_sentence cg_bin_path path id tokens p.pid prev_next_map p.psentence)
| AltSentence[Raw,RawSentence query; mode,SemSentence result] ->
print_main_result cg_bin_path mode path id tokens query result prev_next_map
| AltSentence[Raw,RawSentence query] -> print_not_parsed_main_result cg_bin_path path id query pid prev_next_map
| _ -> failwith "print_main_result_sentence: ni"
let rec print_main_result_paragraph cg_bin_path path id tokens prev_next_map = function
RawParagraph s -> ()
| StructParagraph sentences ->
Xlist.iter sentences (fun p -> print_main_result_sentence cg_bin_path path id tokens p.pid prev_next_map p.psentence)
| AltParagraph l -> Xlist.iter l (fun (mode,paragraph) -> print_main_result_paragraph cg_bin_path path id tokens prev_next_map paragraph)
let rec print_main_result_text cg_bin_path path id tokens = function
RawText s -> ()
| StructText paragraphs ->
let prev_next_map = make_prev_next_map StringMap.empty ""
(List.rev (Xlist.fold paragraphs [] find_prev_next_paragraph)) in
Xlist.iter paragraphs (print_main_result_paragraph cg_bin_path path id tokens prev_next_map)
| AltText l -> Xlist.iter l (fun (mode,text) -> print_main_result_text cg_bin_path path id tokens text)
let print_main_result_first_page cg_bin_path mode path id tokens query result prev_next_map =
let prev,next = try StringMap.find prev_next_map result.file_prefix with Not_found -> failwith "print_main_result" in
printf "%s\n" (page_header cg_bin_path);
if prev <> "" then printf "<A HREF=\"%spage%s_%s.html\">Poprzednie zdanie</A> " path id prev;
if next <> "" then printf " <A HREF=\"%spage%s_%s.html\">Następne zdanie</A>" path id next;
printf "\n<H3>%s</H3>\n" query;
if mode <> ENIAM then printf "<P>Parsed by %s\n" (string_of_mode mode);
ignore (Xlist.fold2 result.trees result.mrls 1 (fun n tree mrl ->
let mml = SemMmlOf.mml_of_mrl mrl in
printf "<P><IMG SRC=\"%stree%s_%s_%d.png\">\n" path id result.file_prefix n;
printf "<P>%s\n" (Xml.to_string_fmt mml);
printf "<P><A HREF=\"%stree%s_%s_%d.xml\">Graf w formacie XML</A>\n" path id result.file_prefix n;
printf "<P><A HREF=\"%sformula%s_%s_%d.mml\">Formuła w formacie MathML</A>\n" path id result.file_prefix n;
n+1));
printf "<P>";
if prev <> "" then printf "<A HREF=\"%spage%s_%s.html\">Poprzednie zdanie</A> " path id prev;
if next <> "" then printf " <A HREF=\"%spage%s_%s.html\">Następne zdanie</A>" path id next;
printf "%s\n" page_trailer
let print_not_parsed_main_result_first_page cg_bin_path path id query pid prev_next_map =
let pid = "p" ^ pid in
let prev,next = try StringMap.find prev_next_map pid with Not_found -> failwith "print_not_parsed_main_result" in
printf "%s\n" (page_header cg_bin_path);
if prev <> "" then printf "<A HREF=\"%spage%s_%s.html\">Poprzednie zdanie</A> " path id prev;
if next <> "" then printf " <A HREF=\"%spage%s_%s.html\">Następne zdanie</A>" path id next;
printf "\n<H3>%s</H3>\n" query;
printf "<P>Not parsed\n";
printf "<P>";
if prev <> "" then printf "<A HREF=\"%spage%s_%s.html\">Poprzednie zdanie</A> " path id prev;
if next <> "" then printf " <A HREF=\"%spage%s_%s.html\">Następne zdanie</A>" path id next;
printf "%s\n" page_trailer
let rec print_main_result_first_page_sentence cg_bin_path path id tokens pid prev_next_map = function
AltSentence[Raw,_;Struct,QuotedSentences sentences] ->
let p = List.hd sentences in
print_main_result_first_page_sentence cg_bin_path path id tokens p.pid prev_next_map p.psentence
| AltSentence[Raw,RawSentence query; mode,SemSentence result] ->
print_main_result_first_page cg_bin_path mode path id tokens query result prev_next_map
| AltSentence[Raw,RawSentence query] -> print_not_parsed_main_result_first_page cg_bin_path path id query pid prev_next_map
| _ -> failwith "print_main_result_first_page_sentence: ni"
let rec print_main_result_first_page_paragraph cg_bin_path path id tokens prev_next_map = function
RawParagraph s -> ()
| StructParagraph sentences ->
let p = List.hd sentences in
print_main_result_first_page_sentence cg_bin_path path id tokens p.pid prev_next_map p.psentence
| AltParagraph l -> Xlist.iter l (fun (mode,paragraph) -> print_main_result_first_page_paragraph cg_bin_path path id tokens prev_next_map paragraph)
let rec print_main_result_first_page_text cg_bin_path path id tokens = function
RawText s -> ()
| StructText paragraphs ->
let prev_next_map = make_prev_next_map StringMap.empty ""
(List.rev (Xlist.fold paragraphs [] find_prev_next_paragraph)) in
print_main_result_first_page_paragraph cg_bin_path path id tokens prev_next_map (List.hd paragraphs)
| AltText l -> Xlist.iter l (fun (mode,text) -> print_main_result_first_page_text cg_bin_path path id tokens text)
*)