// Grammar checker engine
/* jshint esversion:6, -W097 */
/* jslint esversion:6 */
/* global require, exports, console */
"use strict";
${string}
${regex}
${map}
if(typeof(process) !== 'undefined') {
var gc_options = require("./gc_options.js");
var gc_rules = require("./gc_rules.js");
var gc_rules_graph = require("./gc_rules_graph.js");
var cregex = require("./cregex.js");
var text = require("../text.js");
} else if (typeof(require) !== 'undefined') {
var gc_options = require("resource://grammalecte/${lang}/gc_options.js");
var gc_rules = require("resource://grammalecte/${lang}/gc_rules.js");
var gc_rules_graph = require("resource://grammalecte/${lang}/gc_rules_graph.js");
var cregex = require("resource://grammalecte/${lang}/cregex.js");
var text = require("resource://grammalecte/text.js");
}
function capitalizeArray (aArray) {
// can’t map on user defined function??
let aNew = [];
for (let i = 0; i < aArray.length; i = i + 1) {
aNew[i] = aArray[i].slice(0,1).toUpperCase() + aArray[i].slice(1);
}
return aNew;
}
// data
let _sAppContext = ""; // what software is running
let _dOptions = null;
let _dOptionsColors = null;
let _oSpellChecker = null;
let _oTokenizer = null;
let _aIgnoredRules = new Set();
var gc_engine = {
//// Informations
lang: "${lang}",
locales: ${loc},
pkg: "${implname}",
name: "${name}",
version: "${version}",
author: "${author}",
//// Initialization
load: function (sContext="JavaScript", sColorType="aRGB", sPath="") {
try {
if(typeof(process) !== 'undefined') {
var spellchecker = require("../graphspell/spellchecker.js");
_oSpellChecker = new spellchecker.SpellChecker("${lang}", "", "${dic_main_filename_js}", "${dic_extended_filename_js}", "${dic_community_filename_js}", "${dic_personal_filename_js}");
} else if (typeof(require) !== 'undefined') {
var spellchecker = require("resource://grammalecte/graphspell/spellchecker.js");
_oSpellChecker = new spellchecker.SpellChecker("${lang}", "", "${dic_main_filename_js}", "${dic_extended_filename_js}", "${dic_community_filename_js}", "${dic_personal_filename_js}");
} else {
_oSpellChecker = new SpellChecker("${lang}", sPath, "${dic_main_filename_js}", "${dic_extended_filename_js}", "${dic_community_filename_js}", "${dic_personal_filename_js}");
}
_sAppContext = sContext;
_dOptions = gc_options.getOptions(sContext).gl_shallowCopy(); // duplication necessary, to be able to reset to default
_dOptionsColors = gc_options.getOptionsColors(sContext, sColorType);
_oTokenizer = _oSpellChecker.getTokenizer();
_oSpellChecker.activateStorage();
}
catch (e) {
console.error(e);
}
},
getSpellChecker: function () {
return _oSpellChecker;
},
//// Rules
getRules: function (bParagraph) {
if (!bParagraph) {
return gc_rules.lSentenceRules;
}
return gc_rules.lParagraphRules;
},
ignoreRule: function (sRuleId) {
_aIgnoredRules.add(sRuleId);
},
resetIgnoreRules: function () {
_aIgnoredRules.clear();
},
reactivateRule: function (sRuleId) {
_aIgnoredRules.delete(sRuleId);
},
listRules: function* (sFilter=null) {
// generator: returns tuple (sOption, sLineId, sRuleId)
try {
for (let [sOption, lRuleGroup] of this.getRules(true)) {
for (let [,, sLineId, sRuleId,,] of lRuleGroup) {
if (!sFilter || sRuleId.test(sFilter)) {
yield [sOption, sLineId, sRuleId];
}
}
}
for (let [sOption, lRuleGroup] of this.getRules(false)) {
for (let [,, sLineId, sRuleId,,] of lRuleGroup) {
if (!sFilter || sRuleId.test(sFilter)) {
yield [sOption, sLineId, sRuleId];
}
}
}
}
catch (e) {
console.error(e);
}
},
//// Options
setOption: function (sOpt, bVal) {
if (_dOptions.has(sOpt)) {
_dOptions.set(sOpt, bVal);
}
},
setOptions: function (dOpt) {
_dOptions.gl_updateOnlyExistingKeys(dOpt);
},
getOptions: function () {
return _dOptions;
},
getDefaultOptions: function () {
return gc_options.getOptions(_sAppContext).gl_shallowCopy();
},
resetOptions: function () {
_dOptions = gc_options.getOptions(_sAppContext).gl_shallowCopy();
},
//// Parsing
parse: function (sText, sCountry="${country_default}", bDebug=false, dOptions=null, bContext=false) {
let oText = new TextParser(sText);
return oText.parse(sCountry, bDebug, dOptions, bContext);
},
_zEndOfSentence: new RegExp ('([.?!:;…][ .?!… »”")]+|.$)', "g"),
_zBeginOfParagraph: new RegExp ("^[- –—.,;?!…]*", "ig"),
_zEndOfParagraph: new RegExp ("[- .,;?!…–—]*$", "ig"),
getSentenceBoundaries: function* (sText) {
let mBeginOfSentence = this._zBeginOfParagraph.exec(sText);
let iStart = this._zBeginOfParagraph.lastIndex;
let m;
while ((m = this._zEndOfSentence.exec(sText)) !== null) {
yield [iStart, this._zEndOfSentence.lastIndex];
iStart = this._zEndOfSentence.lastIndex;
}
}
};
class TextParser {
constructor (sText) {
this.sText = sText;
this.sText0 = sText;
this.sSentence = "";
this.sSentence0 = "";
this.nOffsetWithinParagraph = 0;
this.lToken = [];
this.dTokenPos = new Map();
this.dTags = new Map();
this.dError = new Map();
this.dErrorPriority = new Map(); // Key = position; value = priority
}
asString () {
let s = "===== TEXT =====\n";
s += "sentence: " + this.sSentence0 + "\n";
s += "now: " + this.sSentence + "\n";
for (let dToken of this.lToken) {
s += `#${dToken["i"]}\t${dToken["nStart"]}:${dToken["nEnd"]}\t${dToken["sValue"]}\t${dToken["sType"]}`;
if (dToken.hasOwnProperty("lMorph")) {
s += "\t" + dToken["lMorph"].toString();
}
if (dToken.hasOwnProperty("aTags")) {
s += "\t" + dToken["aTags"].toString();
}
s += "\n";
}
return s;
}
parse (sCountry="${country_default}", bDebug=false, dOptions=null, bContext=false) {
// analyses the paragraph sText and returns list of errors
let dOpt = dOptions || _dOptions;
let bShowRuleId = option('idrule');
// parse paragraph
try {
this.parseText(this.sText, this.sText0, true, 0, sCountry, dOpt, bShowRuleId, bDebug, bContext);
}
catch (e) {
console.error(e);
}
// cleanup
if (this.sText.includes(" ")) {
this.sText = this.sText.replace(/ /g, ' '); // nbsp
}
if (this.sText.includes(" ")) {
this.sText = this.sText.replace(/ /g, ' '); // snbsp
}
if (this.sText.includes("'")) {
this.sText = this.sText.replace(/'/g, "’");
}
if (this.sText.includes("‑")) {
this.sText = this.sText.replace(/‑/g, "-"); // nobreakdash
}
// parse sentence
for (let [iStart, iEnd] of gc_engine.getSentenceBoundaries(this.sText)) {
try {
this.sSentence = this.sText.slice(iStart, iEnd);
this.sSentence0 = this.sText0.slice(iStart, iEnd);
this.nOffsetWithinParagraph = iStart;
this.lToken = Array.from(_oTokenizer.genTokens(this.sSentence, true));
this.dTokenPos.clear();
for (let dToken of this.lToken) {
if (dToken["sType"] != "INFO") {
this.dTokenPos.set(dToken["nStart"], dToken);
}
}
this.parseText(this.sSentence, this.sSentence0, false, iStart, sCountry, dOpt, bShowRuleId, bDebug, bContext);
}
catch (e) {
console.error(e);
}
}
return Array.from(this.dError.values());
}
parseText (sText, sText0, bParagraph, nOffset, sCountry, dOptions, bShowRuleId, bDebug, bContext) {
let bChange = false;
let m;
for (let [sOption, lRuleGroup] of gc_engine.getRules(bParagraph)) {
if (sOption == "@@@@") {
// graph rules
if (!bParagraph && bChange) {
this.update(sText, bDebug);
bChange = false;
}
for (let [sGraphName, sLineId] of lRuleGroup) {
if (!dOptions.has(sGraphName) || dOptions.get(sGraphName)) {
if (bDebug) {
console.log(">>>> GRAPH: " + sGraphName + " " + sLineId);
}
sText = this.parseGraph(gc_rules_graph.dAllGraph[sGraphName], sCountry, dOptions, bShowRuleId, bDebug, bContext);
}
}
}
else if (!sOption || option(sOption)) {
for (let [zRegex, bUppercase, sLineId, sRuleId, nPriority, lActions, lGroups, lNegLookBefore] of lRuleGroup) {
if (!_aIgnoredRules.has(sRuleId)) {
while ((m = zRegex.gl_exec2(sText, lGroups, lNegLookBefore)) !== null) {
let bCondMemo = null;
for (let [sFuncCond, cActionType, sWhat, ...eAct] of lActions) {
// action in lActions: [ condition, action type, replacement/suggestion/action[, iGroup[, message, URL]] ]
try {
bCondMemo = (!sFuncCond || oEvalFunc[sFuncCond](sText, sText0, m, this.dTokenPos, sCountry, bCondMemo));
if (bCondMemo) {
switch (cActionType) {
case "-":
// grammar error
//console.log("-> error detected in " + sLineId + "\nzRegex: " + zRegex.source);
let nErrorStart = nOffset + m.start[eAct[0]];
if (!this.dError.has(nErrorStart) || nPriority > this.dErrorPriority.get(nErrorStart)) {
this.dError.set(nErrorStart, this._createErrorFromRegex(sText, sText0, sWhat, nOffset, m, eAct[0], sLineId, sRuleId, bUppercase, eAct[1], eAct[2], bShowRuleId, sOption, bContext));
this.dErrorPriority.set(nErrorStart, nPriority);
}
break;
case "~":
// text processor
//console.log("-> text processor by " + sLineId + "\nzRegex: " + zRegex.source);
sText = this.rewriteText(sText, sWhat, eAct[0], m, bUppercase);
bChange = true;
if (bDebug) {
console.log("~ " + sText + " -- " + m[eAct[0]] + " # " + sLineId);
}
break;
case "=":
// disambiguation
//console.log("-> disambiguation by " + sLineId + "\nzRegex: " + zRegex.source);
oEvalFunc[sWhat](sText, m, this.dTokenPos);
if (bDebug) {
console.log("= " + m[0] + " # " + sLineId, "\nDA:", this.dTokenPos);
}
break;
case ">":
// we do nothing, this test is just a condition to apply all following actions
break;
default:
console.log("# error: unknown action at " + sLineId);
}
} else {
if (cActionType == ">") {
break;
}
}
}
catch (e) {
console.log(sText);
console.log("# line id: " + sLineId + "\n# rule id: " + sRuleId);
console.error(e);
}
}
}
}
}
}
}
if (bChange) {
if (bParagraph) {
this.sText = sText;
} else {
this.sSentence = sText;
}
}
}
update (sSentence, bDebug=false) {
// update <sSentence> and retokenize
this.sSentence = sSentence;
let lNewToken = Array.from(_oTokenizer.genTokens(sSentence, true));
for (let dToken of lNewToken) {
if (this.dTokenPos.gl_get(dToken["nStart"], {}).hasOwnProperty("lMorph")) {
dToken["lMorph"] = this.dTokenPos.get(dToken["nStart"])["lMorph"];
}
if (this.dTokenPos.gl_get(dToken["nStart"], {}).hasOwnProperty("aTags")) {
dToken["aTags"] = this.dTokenPos.get(dToken["nStart"])["aTags"];
}
}
this.lToken = lNewToken;
this.dTokenPos.clear();
for (let dToken of this.lToken) {
if (dToken["sType"] != "INFO") {
this.dTokenPos.set(dToken["nStart"], dToken);
}
}
if (bDebug) {
console.log("UPDATE:");
console.log(this.asString());
}
}
* _getNextPointers (dToken, dGraph, dPointer, bDebug=false) {
// generator: return nodes where <dToken> “values” match <dNode> arcs
try {
let dNode = dPointer["dNode"];
let iNode1 = dPointer["iNode1"];
let bTokenFound = false;
// token value
if (dNode.hasOwnProperty(dToken["sValue"])) {
if (bDebug) {
console.log(" MATCH: " + dToken["sValue"]);
}
yield { "iNode1": iNode1, "dNode": dGraph[dNode[dToken["sValue"]]] };
bTokenFound = true;
}
if (dToken["sValue"].slice(0,2).gl_isTitle()) { // we test only 2 first chars, to make valid words such as "Laissez-les", "Passe-partout".
let sValue = dToken["sValue"].toLowerCase();
if (dNode.hasOwnProperty(sValue)) {
if (bDebug) {
console.log(" MATCH: " + sValue);
}
yield { "iNode1": iNode1, "dNode": dGraph[dNode[sValue]] };
bTokenFound = true;
}
}
else if (dToken["sValue"].gl_isUpperCase()) {
let sValue = dToken["sValue"].toLowerCase();
if (dNode.hasOwnProperty(sValue)) {
if (bDebug) {
console.log(" MATCH: " + sValue);
}
yield { "iNode1": iNode1, "dNode": dGraph[dNode[sValue]] };
bTokenFound = true;
}
sValue = dToken["sValue"].gl_toCapitalize();
if (dNode.hasOwnProperty(sValue)) {
if (bDebug) {
console.log(" MATCH: " + sValue);
}
yield { "iNode1": iNode1, "dNode": dGraph[dNode[sValue]] };
bTokenFound = true;
}
}
// regex value arcs
if (dToken["sType"] != "INFO" && dToken["sType"] != "PUNC" && dToken["sType"] != "SIGN") {
if (dNode.hasOwnProperty("<re_value>")) {
for (let sRegex in dNode["<re_value>"]) {
if (!sRegex.includes("¬")) {
// no anti-pattern
if (dToken["sValue"].search(sRegex) !== -1) {
if (bDebug) {
console.log(" MATCH: ~" + sRegex);
}
yield { "iNode1": iNode1, "dNode": dGraph[dNode["<re_value>"][sRegex]] };
bTokenFound = true;
}
} else {
// there is an anti-pattern
let [sPattern, sNegPattern] = sRegex.split("¬", 2);
if (sNegPattern && dToken["sValue"].search(sNegPattern) !== -1) {
continue;
}
if (!sPattern || dToken["sValue"].search(sPattern) !== -1) {
if (bDebug) {
console.log(" MATCH: ~" + sRegex);
}
yield { "iNode1": iNode1, "dNode": dGraph[dNode["<re_value>"][sRegex]] };
bTokenFound = true;
}
}
}
}
}
// analysable tokens
if (dToken["sType"].slice(0,4) == "WORD") {
// token lemmas
if (dNode.hasOwnProperty("<lemmas>")) {
for (let sLemma of _oSpellChecker.getLemma(dToken["sValue"])) {
if (dNode["<lemmas>"].hasOwnProperty(sLemma)) {
if (bDebug) {
console.log(" MATCH: >" + sLemma);
}
yield { "iNode1": iNode1, "dNode": dGraph[dNode["<lemmas>"][sLemma]] };
bTokenFound = true;
}
}
}
// regex morph arcs
if (dNode.hasOwnProperty("<re_morph>")) {
let lMorph = (dToken.hasOwnProperty("lMorph")) ? dToken["lMorph"] : _oSpellChecker.getMorph(dToken["sValue"]);
for (let sRegex in dNode["<re_morph>"]) {
if (!sRegex.includes("¬")) {
// no anti-pattern
if (lMorph.some(sMorph => (sMorph.search(sRegex) !== -1))) {
if (bDebug) {
console.log(" MATCH: @" + sRegex);
}
yield { "iNode1": iNode1, "dNode": dGraph[dNode["<re_morph>"][sRegex]] };
bTokenFound = true;
}
} else {
// there is an anti-pattern
let [sPattern, sNegPattern] = sRegex.split("¬", 2);
if (sNegPattern == "*") {
// all morphologies must match with <sPattern>
if (sPattern) {
if (lMorph.length > 0 && lMorph.every(sMorph => (sMorph.search(sPattern) !== -1))) {
if (bDebug) {
console.log(" MATCH: @" + sRegex);
}
yield { "iNode1": iNode1, "dNode": dGraph[dNode["<re_morph>"][sRegex]] };
bTokenFound = true;
}
}
} else {
if (sNegPattern && lMorph.some(sMorph => (sMorph.search(sNegPattern) !== -1))) {
continue;
}
if (!sPattern || lMorph.some(sMorph => (sMorph.search(sPattern) !== -1))) {
if (bDebug) {
console.log(" MATCH: @" + sRegex);
}
yield { "iNode1": iNode1, "dNode": dGraph[dNode["<re_morph>"][sRegex]] };
bTokenFound = true;
}
}
}
}
}
}
// token tags
if (dToken.hasOwnProperty("aTags") && dNode.hasOwnProperty("<tags>")) {
for (let sTag of dToken["aTags"]) {
if (dNode["<tags>"].hasOwnProperty(sTag)) {
if (bDebug) {
console.log(" MATCH: /" + sTag);
}
yield { "iNode1": iNode1, "dNode": dGraph[dNode["<tags>"][sTag]] };
bTokenFound = true;
}
}
}
// meta arc (for token type)
if (dNode.hasOwnProperty("<meta>")) {
for (let sMeta in dNode["<meta>"]) {
// no regex here, we just search if <dNode["sType"]> exists within <sMeta>
if (sMeta == "*" || dToken["sType"] == sMeta) {
if (bDebug) {
console.log(" MATCH: *" + sMeta);
}
yield { "iNode1": iNode1, "dNode": dGraph[dNode["<meta>"][sMeta]] };
bTokenFound = true;
}
else if (sMeta.includes("¬")) {
if (!sMeta.includes(dToken["sType"])) {
if (bDebug) {
console.log(" MATCH: *" + sMeta);
}
yield { "iNode1": iNode1, "dNode": dGraph[dNode["<meta>"][sMeta]] };
bTokenFound = true;
}
}
}
}
if (!bTokenFound && dPointer.hasOwnProperty("bKeep")) {
yield dPointer;
}
// JUMP
// Warning! Recurssion!
if (dNode.hasOwnProperty("<>")) {
let dPointer2 = { "iNode1": iNode1, "dNode": dGraph[dNode["<>"]], "bKeep": true };
yield* this._getNextPointers(dToken, dGraph, dPointer2, bDebug);
}
}
catch (e) {
console.error(e);
}
}
parseGraph (dGraph, sCountry="${country_default}", dOptions=null, bShowRuleId=false, bDebug=false, bContext=false) {
// parse graph with tokens from the text and execute actions encountered
let lPointer = [];
let bTagAndRewrite = false;
try {
for (let [iToken, dToken] of this.lToken.entries()) {
if (bDebug) {
console.log("TOKEN: " + dToken["sValue"]);
}
// check arcs for each existing pointer
let lNextPointer = [];
for (let dPointer of lPointer) {
lNextPointer.push(...this._getNextPointers(dToken, dGraph, dPointer, bDebug));
}
lPointer = lNextPointer;
// check arcs of first nodes
lPointer.push(...this._getNextPointers(dToken, dGraph, { "iNode1": iToken, "dNode": dGraph[0] }, bDebug));
// check if there is rules to check for each pointer
for (let dPointer of lPointer) {
if (dPointer["dNode"].hasOwnProperty("<rules>")) {
let bChange = this._executeActions(dGraph, dPointer["dNode"]["<rules>"], dPointer["iNode1"]-1, iToken, dOptions, sCountry, bShowRuleId, bDebug, bContext);
if (bChange) {
bTagAndRewrite = true;
}
}
}
}
} catch (e) {
console.error(e);
}
if (bTagAndRewrite) {
this.rewriteFromTags(bDebug);
}
if (bDebug) {
console.log(this.asString());
}
return this.sSentence;
}
_executeActions (dGraph, dNode, nTokenOffset, nLastToken, dOptions, sCountry, bShowRuleId, bDebug, bContext) {
// execute actions found in the DARG
let bChange = false;
for (let [sLineId, nextNodeKey] of Object.entries(dNode)) {
let bCondMemo = null;
for (let sRuleId of dGraph[nextNodeKey]) {
try {
if (bDebug) {
console.log(" >TRY: " + sRuleId + " " + sLineId);
}
let [sOption, sFuncCond, cActionType, sWhat, ...eAct] = gc_rules_graph.dRule[sRuleId];
// Suggestion [ option, condition, "-", replacement/suggestion/action, iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, sURL ]
// TextProcessor [ option, condition, "~", replacement/suggestion/action, iTokenStart, iTokenEnd, bCaseSvty ]
// Disambiguator [ option, condition, "=", replacement/suggestion/action ]
// Tag [ option, condition, "/", replacement/suggestion/action, iTokenStart, iTokenEnd ]
// Immunity [ option, condition, "%", "", iTokenStart, iTokenEnd ]
// Test [ option, condition, ">", "" ]
if (!sOption || dOptions.gl_get(sOption, false)) {
bCondMemo = !sFuncCond || oEvalFunc[sFuncCond](this.lToken, nTokenOffset, nLastToken, sCountry, bCondMemo, this.dTags, this.sSentence, this.sSentence0);
if (bCondMemo) {
if (cActionType == "-") {
// grammar error
let [iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, sURL] = eAct;
let nTokenErrorStart = (iTokenStart > 0) ? nTokenOffset + iTokenStart : nLastToken + iTokenStart;
if (!this.lToken[nTokenErrorStart].hasOwnProperty("bImmune")) {
let nTokenErrorEnd = (iTokenEnd > 0) ? nTokenOffset + iTokenEnd : nLastToken + iTokenEnd;
let nErrorStart = this.nOffsetWithinParagraph + ((cStartLimit == "<") ? this.lToken[nTokenErrorStart]["nStart"] : this.lToken[nTokenErrorStart]["nEnd"]);
let nErrorEnd = this.nOffsetWithinParagraph + ((cEndLimit == ">") ? this.lToken[nTokenErrorEnd]["nEnd"] : this.lToken[nTokenErrorEnd]["nStart"]);
if (!this.dError.has(nErrorStart) || nPriority > this.dErrorPriority.gl_get(nErrorStart, -1)) {
this.dError.set(nErrorStart, this._createErrorFromTokens(sWhat, nTokenOffset, nLastToken, nTokenErrorStart, nErrorStart, nErrorEnd, sLineId, sRuleId, bCaseSvty, sMessage, sURL, bShowRuleId, sOption, bContext));
this.dErrorPriority.set(nErrorStart, nPriority);
if (bDebug) {
console.log(" NEW_ERROR: ", this.dError.get(nErrorStart));
}
}
}
}
else if (cActionType == "~") {
// text processor
let nTokenStart = (eAct[0] > 0) ? nTokenOffset + eAct[0] : nLastToken + eAct[0];
let nTokenEnd = (eAct[1] > 0) ? nTokenOffset + eAct[1] : nLastToken + eAct[1];
this._tagAndPrepareTokenForRewriting(sWhat, nTokenStart, nTokenEnd, nTokenOffset, nLastToken, eAct[2], bDebug);
bChange = true;
if (bDebug) {
console.log(` TEXT_PROCESSOR: [${this.lToken[nTokenStart]["sValue"]}:${this.lToken[nTokenEnd]["sValue"]}] > ${sWhat}`);
}
}
else if (cActionType == "=") {
// disambiguation
oEvalFunc[sWhat](this.lToken, nTokenOffset, nLastToken);
if (bDebug) {
console.log(` DISAMBIGUATOR: (${sWhat}) [${this.lToken[nTokenOffset+1]["sValue"]}:${this.lToken[nLastToken]["sValue"]}]`);
}
}
else if (cActionType == ">") {
// we do nothing, this test is just a condition to apply all following actions
if (bDebug) {
console.log(" COND_OK");
}
}
else if (cActionType == "/") {
// Tag
let nTokenStart = (eAct[0] > 0) ? nTokenOffset + eAct[0] : nLastToken + eAct[0];
let nTokenEnd = (eAct[1] > 0) ? nTokenOffset + eAct[1] : nLastToken + eAct[1];
for (let i = nTokenStart; i <= nTokenEnd; i++) {
if (this.lToken[i].hasOwnProperty("aTags")) {
this.lToken[i]["aTags"].add(...sWhat.split("|"))
} else {
this.lToken[i]["aTags"] = new Set(sWhat.split("|"));
}
}
if (bDebug) {
console.log(` TAG: ${sWhat} > [${this.lToken[nTokenStart]["sValue"]}:${this.lToken[nTokenEnd]["sValue"]}]`);
}
if (!this.dTags.has(sWhat)) {
this.dTags.set(sWhat, [nTokenStart, nTokenStart]);
} else {
this.dTags.set(sWhat, [Math.min(nTokenStart, this.dTags.get(sWhat)[0]), Math.max(nTokenEnd, this.dTags.get(sWhat)[1])]);
}
}
else if (cActionType == "%") {
// immunity
if (bDebug) {
console.log(" IMMUNITY: " + _rules_graph.dRule[sRuleId]);
}
let nTokenStart = (eAct[0] > 0) ? nTokenOffset + eAct[0] : nLastToken + eAct[0];
let nTokenEnd = (eAct[1] > 0) ? nTokenOffset + eAct[1] : nLastToken + eAct[1];
if (nTokenEnd - nTokenStart == 0) {
this.lToken[nTokenStart]["bImmune"] = true;
let nErrorStart = this.nOffsetWithinParagraph + this.lToken[nTokenStart]["nStart"];
if (this.dError.has(nErrorStart)) {
this.dError.delete(nErrorStart);
}
} else {
for (let i = nTokenStart; i <= nTokenEnd; i++) {
this.lToken[i]["bImmune"] = true;
let nErrorStart = this.nOffsetWithinParagraph + this.lToken[i]["nStart"];
if (this.dError.has(nErrorStart)) {
this.dError.delete(nErrorStart);
}
}
}
} else {
console.log("# error: unknown action at " + sLineId);
}
}
else if (cActionType == ">") {
if (bDebug) {
console.log(" COND_BREAK");
}
break;
}
}
}
catch (e) {
console.log("Error: ", sLineId, sRuleId, this.sSentence);
console.error(e);
}
}
}
return bChange;
}
_createErrorFromRegex (sText, sText0, sSugg, nOffset, m, iGroup, sLineId, sRuleId, bUppercase, sMsg, sURL, bShowRuleId, sOption, bContext) {
let nStart = nOffset + m.start[iGroup];
let nEnd = nOffset + m.end[iGroup];
// suggestions
let lSugg = [];
if (sSugg.startsWith("=")) {
sSugg = oEvalFunc[sSugg.slice(1)](sText, m);
lSugg = (sSugg) ? sSugg.split("|") : [];
} else if (sSugg == "_") {
lSugg = [];
} else {
lSugg = sSugg.gl_expand(m).split("|");
}
if (bUppercase && lSugg.length > 0 && m[iGroup].slice(0,1).gl_isUpperCase()) {
lSugg = capitalizeArray(lSugg);
}
// Message
let sMessage = (sMsg.startsWith("=")) ? oEvalFunc[sMsg.slice(1)](sText, m) : sMsg.gl_expand(m);
if (bShowRuleId) {
sMessage += " ## " + sLineId + " # " + sRuleId;
}
//
return this._createError(nStart, nEnd, sLineId, sRuleId, sOption, sMessage, lSugg, sURL, bContext);
}
_createErrorFromTokens (sSugg, nTokenOffset, nLastToken, iFirstToken, nStart, nEnd, sLineId, sRuleId, bCaseSvty, sMsg, sURL, bShowRuleId, sOption, bContext) {
// suggestions
let lSugg = [];
if (sSugg.startsWith("=")) {
sSugg = oEvalFunc[sSugg.slice(1)](this.lToken, nTokenOffset, nLastToken);
lSugg = (sSugg) ? sSugg.split("|") : [];
} else if (sSugg == "_") {
lSugg = [];
} else {
lSugg = this._expand(sSugg, nTokenOffset, nLastToken).split("|");
}
if (bCaseSvty && lSugg.length > 0 && this.lToken[iFirstToken]["sValue"].slice(0,1).gl_isUpperCase()) {
lSugg = capitalizeArray(lSugg);
}
// Message
let sMessage = (sMsg.startsWith("=")) ? oEvalFunc[sMsg.slice(1)](this.lToken, nTokenOffset, nLastToken) : this._expand(sMsg, nTokenOffset, nLastToken);
if (bShowRuleId) {
sMessage += " ## " + sLineId + " # " + sRuleId;
}
//
return this._createError(nStart, nEnd, sLineId, sRuleId, sOption, sMessage, lSugg, sURL, bContext);
}
_createError (nStart, nEnd, sLineId, sRuleId, sOption, sMessage, lSugg, sURL, bContext) {
let oErr = {
"nStart": nStart,
"nEnd": nEnd,
"sLineId": sLineId,
"sRuleId": sRuleId,
"sType": sOption || "notype",
"aColor": _dOptionsColors[sOption],
"sMessage": sMessage,
"aSuggestions": lSugg,
"URL": sURL
}
if (bContext) {
oErr['sUnderlined'] = this.sText0.slice(nStart, nEnd);
oErr['sBefore'] = this.sText0.slice(Math.max(0,nStart-80), nStart);
oErr['sAfter'] = this.sText0.slice(nEnd, nEnd+80);
}
return oErr;
}
_expand (sText, nTokenOffset, nLastToken) {
let m;
while ((m = /\\(-?[0-9]+)/.exec(sText)) !== null) {
if (m[1].slice(0,1) == "-") {
sText = sText.replace(m[0], this.lToken[nLastToken+parseInt(m[1],10)+1]["sValue"]);
} else {
sText = sText.replace(m[0], this.lToken[nTokenOffset+parseInt(m[1],10)]["sValue"]);
}
}
return sText;
}
rewriteText (sText, sRepl, iGroup, m, bUppercase) {
// text processor: write sRepl in sText at iGroup position"
let ln = m.end[iGroup] - m.start[iGroup];
let sNew = "";
if (sRepl === "*") {
sNew = " ".repeat(ln);
}
else if (sRepl === ">" || sRepl === "_" || sRepl === "~") {
sNew = sRepl + " ".repeat(ln-1);
}
else if (sRepl === "@") {
sNew = "@".repeat(ln);
}
else if (sRepl.slice(0,1) === "=") {
sNew = oEvalFunc[sRepl.slice(1)](sText, m);
sNew = sNew + " ".repeat(ln-sNew.length);
if (bUppercase && m[iGroup].slice(0,1).gl_isUpperCase()) {
sNew = sNew.gl_toCapitalize();
}
} else {
sNew = sRepl.gl_expand(m);
sNew = sNew + " ".repeat(ln-sNew.length);
}
//console.log(sText+"\nstart: "+m.start[iGroup]+" end:"+m.end[iGroup]);
return sText.slice(0, m.start[iGroup]) + sNew + sText.slice(m.end[iGroup]);
}
_tagAndPrepareTokenForRewriting (sWhat, nTokenRewriteStart, nTokenRewriteEnd, nTokenOffset, nLastToken, bCaseSvty, bDebug) {
// text processor: rewrite tokens between <nTokenRewriteStart> and <nTokenRewriteEnd> position
if (sWhat === "*") {
// purge text
if (nTokenRewriteEnd - nTokenRewriteStart == 0) {
this.lToken[nTokenRewriteStart]["bToRemove"] = true;
} else {
for (let i = nTokenRewriteStart; i <= nTokenRewriteEnd; i++) {
this.lToken[i]["bToRemove"] = true;
}
}
}
else if (sWhat === "␣") {
// merge tokens
this.lToken[nTokenRewriteStart]["nMergeUntil"] = nTokenRewriteEnd;
}
else if (sWhat === "_") {
// neutralized token
if (nTokenRewriteEnd - nTokenRewriteStart == 0) {
this.lToken[nTokenRewriteStart]["sNewValue"] = "_";
} else {
for (let i = nTokenRewriteStart; i <= nTokenRewriteEnd; i++) {
this.lToken[i]["sNewValue"] = "_";
}
}
}
else {
if (sWhat.startsWith("=")) {
sWhat = oEvalFunc[sWhat.slice(1)](this.lToken, nTokenOffset, nLastToken);
} else {
sWhat = this._expand(sWhat, nTokenOffset, nLastToken);
}
let bUppercase = bCaseSvty && this.lToken[nTokenRewriteStart]["sValue"].slice(0,1).gl_isUpperCase();
if (nTokenRewriteEnd - nTokenRewriteStart == 0) {
// one token
if (bUppercase) {
sWhat = sWhat.gl_toCapitalize();
}
this.lToken[nTokenRewriteStart]["sNewValue"] = sWhat;
}
else {
// several tokens
let lTokenValue = sWhat.split("|");
if (lTokenValue.length != (nTokenRewriteEnd - nTokenRewriteStart + 1)) {
console.log("Error. Text processor: number of replacements != number of tokens.");
return;
}
let j = 0;
for (let i = nTokenRewriteStart; i <= nTokenRewriteEnd; i++) {
let sValue = lTokenValue[j];
if (!sValue || sValue === "*") {
this.lToken[i]["bToRemove"] = true;
} else {
if (bUppercase) {
sValue = sValue.gl_toCapitalize();
}
this.lToken[i]["sNewValue"] = sValue;
}
j++;
}
}
}
}
rewriteFromTags (bDebug=false) {
// rewrite the sentence, modify tokens, purge the token list
if (bDebug) {
console.log("REWRITE");
}
let lNewToken = [];
let nMergeUntil = 0;
let dTokenMerger = null;
for (let [iToken, dToken] of this.lToken.entries()) {
let bKeepToken = true;
if (dToken["sType"] != "INFO") {
if (nMergeUntil && iToken <= nMergeUntil) {
dTokenMerger["sValue"] += " ".repeat(dToken["nStart"] - dTokenMerger["nEnd"]) + dToken["sValue"];
dTokenMerger["nEnd"] = dToken["nEnd"];
if (bDebug) {
console.log(" MERGED TOKEN: " + dTokenMerger["sValue"]);
}
bKeepToken = false;
}
if (dToken.hasOwnProperty("nMergeUntil")) {
if (iToken > nMergeUntil) { // this token is not already merged with a previous token
dTokenMerger = dToken;
}
if (dToken["nMergeUntil"] > nMergeUntil) {
nMergeUntil = dToken["nMergeUntil"];
}
delete dToken["nMergeUntil"];
}
else if (dToken.hasOwnProperty("bToRemove")) {
if (bDebug) {
console.log(" REMOVED: " + dToken["sValue"]);
}
this.sSentence = this.sSentence.slice(0, dToken["nStart"]) + " ".repeat(dToken["nEnd"] - dToken["nStart"]) + this.sSentence.slice(dToken["nEnd"]);
bKeepToken = false;
}
}
//
if (bKeepToken) {
lNewToken.push(dToken);
if (dToken.hasOwnProperty("sNewValue")) {
// rewrite token and sentence
if (bDebug) {
console.log(dToken["sValue"] + " -> " + dToken["sNewValue"]);
}
dToken["sRealValue"] = dToken["sValue"];
dToken["sValue"] = dToken["sNewValue"];
let nDiffLen = dToken["sRealValue"].length - dToken["sNewValue"].length;
let sNewRepl = (nDiffLen >= 0) ? dToken["sNewValue"] + " ".repeat(nDiffLen) : dToken["sNewValue"].slice(0, dToken["sRealValue"].length);
this.sSentence = this.sSentence.slice(0,dToken["nStart"]) + sNewRepl + this.sSentence.slice(dToken["nEnd"]);
delete dToken["sNewValue"];
}
}
else {
try {
this.dTokenPos.delete(dToken["nStart"]);
}
catch (e) {
console.log(this.asString());
console.log(dToken);
}
}
}
if (bDebug) {
console.log(" TEXT REWRITED: " + this.sSentence);
}
this.lToken.length = 0;
this.lToken = lNewToken;
}
};
//////// Common functions
function option (sOpt) {
// return true if option sOpt is active
return _dOptions.get(sOpt);
}
var re = {
search: function (sRegex, sText) {
if (sRegex.startsWith("(?i)")) {
return sText.search(new RegExp(sRegex.slice(4), "i")) !== -1;
} else {
return sText.search(sRegex) !== -1;
}
},
createRegExp: function (sRegex) {
if (sRegex.startsWith("(?i)")) {
return new RegExp(sRegex.slice(4), "i");
} else {
return new RegExp(sRegex);
}
}
}
//////// functions to get text outside pattern scope
// warning: check compile_rules.py to understand how it works
function nextword (s, iStart, n) {
// get the nth word of the input string or empty string
let z = new RegExp("^(?: +[a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯfi-stᴀ-ᶿ%_-]+){" + (n-1).toString() + "} +([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯfi-stᴀ-ᶿ%_-]+)", "ig");
let m = z.exec(s.slice(iStart));
if (!m) {
return null;
}
return [iStart + z.lastIndex - m[1].length, m[1]];
}
function prevword (s, iEnd, n) {
// get the (-)nth word of the input string or empty string
let z = new RegExp("([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯfi-stᴀ-ᶿ%_-]+) +(?:[a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯfi-stᴀ-ᶿ%_-]+ +){" + (n-1).toString() + "}$", "i");
let m = z.exec(s.slice(0, iEnd));
if (!m) {
return null;
}
return [m.index, m[1]];
}
function nextword1 (s, iStart) {
// get next word (optimization)
let _zNextWord = new RegExp ("^ +([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯfi-stᴀ-ᶿ_][a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯfi-stᴀ-ᶿ_-]*)", "ig");
let m = _zNextWord.exec(s.slice(iStart));
if (!m) {
return null;
}
return [iStart + _zNextWord.lastIndex - m[1].length, m[1]];
}
const _zPrevWord = new RegExp ("([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯfi-stᴀ-ᶿ_][a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯfi-stᴀ-ᶿ_-]*) +$", "i");
function prevword1 (s, iEnd) {
// get previous word (optimization)
let m = _zPrevWord.exec(s.slice(0, iEnd));
if (!m) {
return null;
}
return [m.index, m[1]];
}
function look (s, sPattern, sNegPattern=null) {
// seek sPattern in s (before/after/fulltext), if antipattern sNegPattern not in s
try {
if (sNegPattern && re.search(sNegPattern, s)) {
return false;
}
return re.search(sPattern, s);
}
catch (e) {
console.error(e);
}
return false;
}
//////// Analyse groups for regex rules
function displayInfo (dTokenPos, aWord) {
// for debugging: info of word
if (!aWord) {
console.log("> nothing to find");
return true;
}
let lMorph = _oSpellChecker.getMorph(aWord[1]);
if (lMorph.length === 0) {
console.log("> not in dictionary");
return true;
}
if (dTokenPos.has(aWord[0])) {
console.log("DA: " + dTokenPos.get(aWord[0]));
}
console.log("FSA: " + lMorph);
return true;
}
function morph (dTokenPos, aWord, sPattern, sNegPattern, bNoWord=false) {
// analyse a tuple (position, word), returns true if not sNegPattern in word morphologies and sPattern in word morphologies (disambiguation on)
if (!aWord) {
return bNoWord;
}
let lMorph = (dTokenPos.has(aWord[0]) && dTokenPos.get(aWord[0]))["lMorph"] ? dTokenPos.get(aWord[0])["lMorph"] : _oSpellChecker.getMorph(aWord[1]);
if (lMorph.length === 0) {
return false;
}
if (sNegPattern) {
// check negative condition
if (sNegPattern === "*") {
// all morph must match sPattern
return lMorph.every(sMorph => (sMorph.search(sPattern) !== -1));
}
else {
if (lMorph.some(sMorph => (sMorph.search(sNegPattern) !== -1))) {
return false;
}
}
}
// search sPattern
return lMorph.some(sMorph => (sMorph.search(sPattern) !== -1));
}
function analyse (sWord, sPattern, sNegPattern) {
// analyse a word, returns True if not sNegPattern in word morphologies and sPattern in word morphologies (disambiguation off)
let lMorph = _oSpellChecker.getMorph(sWord);
if (lMorph.length === 0) {
return false;
}
if (sNegPattern) {
// check negative condition
if (sNegPattern === "*") {
// all morph must match sPattern
return lMorph.every(sMorph => (sMorph.search(sPattern) !== -1));
}
else {
if (lMorph.some(sMorph => (sMorph.search(sNegPattern) !== -1))) {
return false;
}
}
}
// search sPattern
return lMorph.some(sMorph => (sMorph.search(sPattern) !== -1));
}
//// Analyse tokens for graph rules
function g_value (dToken, sValues, nLeft=null, nRight=null) {
// test if <dToken['sValue']> is in sValues (each value should be separated with |)
let sValue = (nLeft === null) ? "|"+dToken["sValue"]+"|" : "|"+dToken["sValue"].slice(nLeft, nRight)+"|";
if (sValues.includes(sValue)) {
return true;
}
if (dToken["sValue"].slice(0,2).gl_isTitle()) { // we test only 2 first chars, to make valid words such as "Laissez-les", "Passe-partout".
if (sValues.includes(sValue.toLowerCase())) {
return true;
}
}
else if (dToken["sValue"].gl_isUpperCase()) {
//if sValue.lower() in sValues:
// return true;
sValue = "|"+sValue.slice(1).gl_toCapitalize();
if (sValues.includes(sValue)) {
return true;
}
sValue = sValue.toLowerCase();
if (sValues.includes(sValue)) {
return true;
}
}
return false;
}
function g_morph (dToken, sPattern, sNegPattern="", nLeft=null, nRight=null, bMemorizeMorph=true) {
// analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies
let lMorph;
if (dToken.hasOwnProperty("lMorph")) {
lMorph = dToken["lMorph"];
}
else {
if (nLeft !== null) {
let sValue = (nRight !== null) ? dToken["sValue"].slice(nLeft, nRight) : dToken["sValue"].slice(nLeft);
lMorph = _oSpellChecker.getMorph(sValue);
if (bMemorizeMorph) {
dToken["lMorph"] = lMorph;
}
} else {
lMorph = _oSpellChecker.getMorph(dToken["sValue"]);
}
}
if (lMorph.length == 0) {
return false;
}
// check negative condition
if (sNegPattern) {
if (sNegPattern == "*") {
// all morph must match sPattern
return lMorph.every(sMorph => (sMorph.search(sPattern) !== -1));
}
else {
if (lMorph.some(sMorph => (sMorph.search(sNegPattern) !== -1))) {
return false;
}
}
}
// search sPattern
return lMorph.some(sMorph => (sMorph.search(sPattern) !== -1));
}
function g_analyse (dToken, sPattern, sNegPattern="", nLeft=null, nRight=null, bMemorizeMorph=true) {
// analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies
let lMorph;
if (nLeft !== null) {
let sValue = (nRight !== null) ? dToken["sValue"].slice(nLeft, nRight) : dToken["sValue"].slice(nLeft);
lMorph = _oSpellChecker.getMorph(sValue);
if (bMemorizeMorph) {
dToken["lMorph"] = lMorph;
}
} else {
lMorph = _oSpellChecker.getMorph(dToken["sValue"]);
}
if (lMorph.length == 0) {
return false;
}
// check negative condition
if (sNegPattern) {
if (sNegPattern == "*") {
// all morph must match sPattern
return lMorph.every(sMorph => (sMorph.search(sPattern) !== -1));
}
else {
if (lMorph.some(sMorph => (sMorph.search(sNegPattern) !== -1))) {
return false;
}
}
}
// search sPattern
return lMorph.some(sMorph => (sMorph.search(sPattern) !== -1));
}
function g_merged_analyse (dToken1, dToken2, cMerger, sPattern, sNegPattern="", bSetMorph=true) {
// merge two token values, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies (disambiguation off)
let lMorph = _oSpellChecker.getMorph(dToken1["sValue"] + cMerger + dToken2["sValue"]);
if (lMorph.length == 0) {
return false;
}
// check negative condition
if (sNegPattern) {
if (sNegPattern == "*") {
// all morph must match sPattern
let bResult = lMorph.every(sMorph => (sMorph.search(sPattern) !== -1));
if (bResult && bSetMorph) {
dToken1["lMorph"] = lMorph;
}
return bResult;
}
else {
if (lMorph.some(sMorph => (sMorph.search(sNegPattern) !== -1))) {
return false;
}
}
}
// search sPattern
let bResult = lMorph.some(sMorph => (sMorph.search(sPattern) !== -1));
if (bResult && bSetMorph) {
dToken1["lMorph"] = lMorph;
}
return bResult;
}
function g_tag_before (dToken, dTags, sTag) {
if (!dTags.has(sTag)) {
return false;
}
if (dToken["i"] > dTags.get(sTag)[0]) {
return true;
}
return false;
}
function g_tag_after (dToken, dTags, sTag) {
if (!dTags.has(sTag)) {
return false;
}
if (dToken["i"] < dTags.get(sTag)[1]) {
return true;
}
return false;
}
function g_tag (dToken, sTag) {
return dToken.hasOwnProperty("aTags") && dToken["aTags"].has(sTag);
}
function g_space_between_tokens (dToken1, dToken2, nMin, nMax=null) {
let nSpace = dToken2["nStart"] - dToken1["nEnd"]
if (nSpace < nMin) {
return false;
}
if (nMax !== null && nSpace > nMax) {
return false;
}
return true;
}
function g_token (lToken, i) {
if (i < 0) {
return lToken[0];
}
if (i >= lToken.length) {
return lToken[-1];
}
return lToken[i];
}
//////// Disambiguator
function select (dTokenPos, nPos, sWord, sPattern, lDefault=null) {
if (!sWord) {
return true;
}
if (!dTokenPos.has(nPos)) {
console.log("Error. There should be a token at this position: ", nPos);
return true;
}
let lMorph = _oSpellChecker.getMorph(sWord);
if (lMorph.length === 0 || lMorph.length === 1) {
return true;
}
let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) !== -1 );
if (lSelect.length > 0) {
if (lSelect.length != lMorph.length) {
dTokenPos.get(nPos)["lMorph"] = lSelect;
}
} else if (lDefault) {
dTokenPos.get(nPos)["lMorph"] = lDefault;
}
return true;
}
function exclude (dTokenPos, nPos, sWord, sPattern, lDefault=null) {
if (!sWord) {
return true;
}
if (!dTokenPos.has(nPos)) {
console.log("Error. There should be a token at this position: ", nPos);
return true;
}
let lMorph = _oSpellChecker.getMorph(sWord);
if (lMorph.length === 0 || lMorph.length === 1) {
return true;
}
let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) === -1 );
if (lSelect.length > 0) {
if (lSelect.length != lMorph.length) {
dTokenPos.get(nPos)["lMorph"] = lSelect;
}
} else if (lDefault) {
dTokenPos.get(nPos)["lMorph"] = lDefault;
}
return true;
}
function define (dTokenPos, nPos, lMorph) {
dTokenPos.get(nPos)["lMorph"] = lMorph;
return true;
}
//// Disambiguation for graph rules
function g_select (dToken, sPattern, lDefault=null) {
// select morphologies for <dToken> according to <sPattern>, always return true
let lMorph = (dToken.hasOwnProperty("lMorph")) ? dToken["lMorph"] : _oSpellChecker.getMorph(dToken["sValue"]);
if (lMorph.length === 0 || lMorph.length === 1) {
if (lDefault) {
dToken["lMorph"] = lDefault;
}
return true;
}
let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) !== -1 );
if (lSelect.length > 0) {
if (lSelect.length != lMorph.length) {
dToken["lMorph"] = lSelect;
}
} else if (lDefault) {
dToken["lMorph"] = lDefault;
}
return true;
}
function g_exclude (dToken, sPattern, lDefault=null) {
// select morphologies for <dToken> according to <sPattern>, always return true
let lMorph = (dToken.hasOwnProperty("lMorph")) ? dToken["lMorph"] : _oSpellChecker.getMorph(dToken["sValue"]);
if (lMorph.length === 0 || lMorph.length === 1) {
if (lDefault) {
dToken["lMorph"] = lDefault;
}
return true;
}
let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) === -1 );
if (lSelect.length > 0) {
if (lSelect.length != lMorph.length) {
dToken["lMorph"] = lSelect;
}
} else if (lDefault) {
dToken["lMorph"] = lDefault;
}
return true;
}
function g_define (dToken, lMorph) {
// set morphologies of <dToken>, always return true
dToken["lMorph"] = lMorph;
return true;
}
function g_define_from (dToken, nLeft=null, nRight=null) {
let sValue = dToken["sValue"];
if (nLeft !== null) {
sValue = (nRight !== null) ? sValue.slice(nLeft, nRight) : sValue.slice(nLeft);
}
dToken["lMorph"] = _oSpellChecker.getMorph(sValue);
return true;
}
//////// GRAMMAR CHECKER PLUGINS
${pluginsJS}
// generated code, do not edit
const oEvalFunc = {
// callables for regex rules
${callablesJS}
// callables for graph rules
${graph_callablesJS}
}
if (typeof(exports) !== 'undefined') {
exports.lang = gc_engine.lang;
exports.locales = gc_engine.locales;
exports.pkg = gc_engine.pkg;
exports.name = gc_engine.name;
exports.version = gc_engine.version;
exports.author = gc_engine.author;
// init
exports.load = gc_engine.load;
exports.parse = gc_engine.parse;
exports.getSpellChecker = gc_engine.getSpellChecker;
// sentence
exports._zEndOfSentence = gc_engine._zEndOfSentence;
exports._zBeginOfParagraph = gc_engine._zBeginOfParagraph;
exports._zEndOfParagraph = gc_engine._zEndOfParagraph;
exports.getSentenceBoundaries = gc_engine.getSentenceBoundaries;
// rules
exports.ignoreRule = gc_engine.ignoreRule;
exports.resetIgnoreRules = gc_engine.resetIgnoreRules;
exports.reactivateRule = gc_engine.reactivateRule;
exports.listRules = gc_engine.listRules;
exports.getRules = gc_engine.getRules;
// options
exports.setOption = gc_engine.setOption;
exports.setOptions = gc_engine.setOptions;
exports.getOptions = gc_engine.getOptions;
exports.getDefaultOptions = gc_engine.getDefaultOptions;
exports.resetOptions = gc_engine.resetOptions;
// other
exports.TextParser = TextParser;
}