Grammalecte  Changes On Branch e85aa05f712472b0

Changes In Branch gcerw Through [e85aa05f71] Excluding Merge-Ins

This is equivalent to a diff from 873f3e7060 to e85aa05f71

2020-04-18
16:16
merge trunk check-in: 9178b9116a user: olr tags: gcerw
05:24
[fr] change Thunderbird path check-in: 1bec71a54f user: olr tags: trunk, fr
2020-04-17
20:46
[tb] small update check-in: e85aa05f71 user: olr tags: tb, gcerw
20:01
[tb] update gce_worker (still not working) check-in: 4d1ac4562e user: olr tags: tb, gcerw
18:37
merge trunk (empty): conflict solved before check-in: f69a4ea6d7 user: olr tags: gcerw
18:07
cherrypick from trunk: [build] enumerate actions from 1 not from 0 check-in: 570dda15fe user: olr tags: gcerw
17:31
[build] enumerate actions from 1 not from 0 check-in: 873f3e7060 user: olr tags: trunk, build
16:40
[fr] ajustements check-in: 6ecd98e581 user: olr tags: trunk, fr

Modified gc_core/js/lang_core/gc_engine.js from [b841335424] to [c3e17d2693].

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// 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();


function echo (x) {
    console.log(x);
    return true;
}


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}", "${dic_community_filename_js}", "${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}", "${dic_community_filename_js}", "${dic_personal_filename_js}");

            } else {
                _oSpellChecker = new SpellChecker("${lang}", sPath, "${dic_main_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) {













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// 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_engine_func = require("./gc_engine_func.js");
    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_engine_func = require("resource://grammalecte/${lang}/gc_engine_func.js");
    var gc_options = require("resource://grammalecte/${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;
}

















var gc_engine = {

    //// Informations

    lang: "${lang}",
    locales: ${loc},
    pkg: "${implname}",
    name: "${name}",
    version: "${version}",
    author: "${author}",

    //// Tools
    oSpellChecker: null,
    oTokenizer: null,

    //// Data
    aIgnoredRules: new Set(),
    oOptionsColors: null,

    //// Initialization

    load: function (sContext="JavaScript", sColorType="aRGB", sPath="") {
        try {
            if (typeof(process) !== 'undefined') {
                var spellchecker = require("../graphspell/spellchecker.js");
                this.oSpellChecker = new spellchecker.SpellChecker("${lang}", "", "${dic_main_filename_js}", "${dic_community_filename_js}", "${dic_personal_filename_js}");
            }
            else if (typeof(require) !== 'undefined') {
                var spellchecker = require("resource://grammalecte/graphspell/spellchecker.js");
                this.oSpellChecker = new spellchecker.SpellChecker("${lang}", "", "${dic_main_filename_js}", "${dic_community_filename_js}", "${dic_personal_filename_js}");
            }
            else {
                this.oSpellChecker = new SpellChecker("${lang}", sPath, "${dic_main_filename_js}", "${dic_community_filename_js}", "${dic_personal_filename_js}");
            }


            this.oOptionsColors = gc_options.getOptionsColors(sContext, sColorType);
            this.oTokenizer = this.oSpellChecker.getTokenizer();
            this.oSpellChecker.activateStorage();
            gc_engine_func.load(sContext, this.oSpellChecker);
            gc_options.load(sContext);
        }
        catch (e) {
            console.error(e);
        }
    },

    getSpellChecker: function () {
        return this.oSpellChecker;
    },

    //// Rules

    getRules: function (bParagraph) {
        if (!bParagraph) {
            return gc_rules.lSentenceRules;
        }
        return gc_rules.lParagraphRules;
    },

    ignoreRule: function (sRuleId) {
        this.aIgnoredRules.add(sRuleId);
    },

    resetIgnoreRules: function () {
        this.aIgnoredRules.clear();
    },

    reactivateRule: function (sRuleId) {
        this.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) {
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            }
        }
        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, bFullInfo=false) {
        // init point to analyse <sText> and returns an iterable of errors or (with option <bFullInfo>) a list of sentences with tokens and errors
        let oText = new TextParser(sText);
        return oText.parse(sCountry, bDebug, dOptions, bContext, bFullInfo);
    }







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            }
        }
        catch (e) {
            console.error(e);
        }
    },

























    //// Parsing

    parse: function (sText, sCountry="${country_default}", bDebug=false, dOptions=null, bContext=false, bFullInfo=false) {
        // init point to analyse <sText> and returns an iterable of errors or (with option <bFullInfo>) a list of sentences with tokens and errors
        let oText = new TextParser(sText);
        return oText.parse(sCountry, bDebug, dOptions, bContext, bFullInfo);
    }
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            s += "\n";
        }
        return s;
    }

    parse (sCountry="${country_default}", bDebug=false, dOptions=null, bContext=false, bFullInfo=false) {
        // analyses <sText> and returns an iterable of errors or (with option <bFullInfo>) a list of sentences with tokens and 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);
        }







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            s += "\n";
        }
        return s;
    }

    parse (sCountry="${country_default}", bDebug=false, dOptions=null, bContext=false, bFullInfo=false) {
        // analyses <sText> and returns an iterable of errors or (with option <bFullInfo>) a list of sentences with tokens and errors
        let dOpt = dOptions || gc_options.dOptions;
        let bShowRuleId = gc_options.dOptions.gl_get('idrule', false);
        // parse paragraph
        try {
            this.parseText(this.sText, this.sText0, true, 0, sCountry, dOpt, bShowRuleId, bDebug, bContext);
        }
        catch (e) {
            console.error(e);
        }
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        let lSentences = [];
        let oSentence = null;
        for (let [iStart, iEnd] of text.getSentenceBoundaries(sText)) {
            try {
                this.sSentence = 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);
                    }
                }
                if (bFullInfo) {
                    oSentence = { "nStart": iStart, "nEnd": iEnd, "sSentence": this.sSentence, "lToken": Array.from(this.lToken) };
                    for (let oToken of oSentence["lToken"]) {
                        if (oToken["sType"] == "WORD") {
                            oToken["bValidToken"] = _oSpellChecker.isValidToken(oToken["sValue"]);
                        }
                    }
                    // the list of tokens is duplicated, to keep all tokens from being deleted when analysis
                }
                this.parseText(this.sSentence, this.sSentence0, false, iStart, sCountry, dOpt, bShowRuleId, bDebug, bContext);
                if (bFullInfo) {
                    oSentence["lGrammarErrors"] = Array.from(this.dSentenceError.values());







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        let lSentences = [];
        let oSentence = null;
        for (let [iStart, iEnd] of text.getSentenceBoundaries(sText)) {
            try {
                this.sSentence = sText.slice(iStart, iEnd);
                this.sSentence0 = this.sText0.slice(iStart, iEnd);
                this.nOffsetWithinParagraph = iStart;
                this.lToken = Array.from(gc_engine.oTokenizer.genTokens(this.sSentence, true));
                this.dTokenPos.clear();
                for (let dToken of this.lToken) {
                    if (dToken["sType"] != "INFO") {
                        this.dTokenPos.set(dToken["nStart"], dToken);
                    }
                }
                if (bFullInfo) {
                    oSentence = { "nStart": iStart, "nEnd": iEnd, "sSentence": this.sSentence, "lToken": Array.from(this.lToken) };
                    for (let oToken of oSentence["lToken"]) {
                        if (oToken["sType"] == "WORD") {
                            oToken["bValidToken"] = gc_engine.oSpellChecker.isValidToken(oToken["sValue"]);
                        }
                    }
                    // the list of tokens is duplicated, to keep all tokens from being deleted when analysis
                }
                this.parseText(this.sSentence, this.sSentence0, false, iStart, sCountry, dOpt, bShowRuleId, bDebug, bContext);
                if (bFullInfo) {
                    oSentence["lGrammarErrors"] = Array.from(this.dSentenceError.values());
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                        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)) {







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                        if (bDebug) {
                            console.log(">>>> GRAPH: " + sGraphName + " " + sLineId);
                        }
                        sText = this.parseGraph(gc_rules_graph.dAllGraph[sGraphName], sCountry, dOptions, bShowRuleId, bDebug, bContext);
                    }
                }
            }
            else if (!sOption || gc_options.dOptions.gl_get(sOption, false)) {
                for (let [zRegex, bUppercase, sLineId, sRuleId, nPriority, lActions, lGroups, lNegLookBefore] of lRuleGroup) {
                    if (!gc_engine.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 || gc_engine_func[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)) {
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                                                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;







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                                                if (bDebug) {
                                                    console.log("~ " + sText + "  -- " + m[eAct[0]] + "  # " + sLineId);
                                                }
                                                break;
                                            case "=":
                                                // disambiguation
                                                //console.log("-> disambiguation by " + sLineId + "\nzRegex: " + zRegex.source);
                                                gc_engine_func[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;
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            }
        }
    }

    update (sSentence, bDebug=false) {
        // update <sSentence> and retokenize
        this.sSentence = sSentence;
        let lNewToken = Array.from(_oTokenizer.genTokens(sSentence, true));
        for (let oToken of lNewToken) {
            if (this.dTokenPos.gl_get(oToken["nStart"], {}).hasOwnProperty("lMorph")) {
                oToken["lMorph"] = this.dTokenPos.get(oToken["nStart"])["lMorph"];
            }
            if (this.dTokenPos.gl_get(oToken["nStart"], {}).hasOwnProperty("aTags")) {
                oToken["aTags"] = this.dTokenPos.get(oToken["nStart"])["aTags"];
            }







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            }
        }
    }

    update (sSentence, bDebug=false) {
        // update <sSentence> and retokenize
        this.sSentence = sSentence;
        let lNewToken = Array.from(gc_engine.oTokenizer.genTokens(sSentence, true));
        for (let oToken of lNewToken) {
            if (this.dTokenPos.gl_get(oToken["nStart"], {}).hasOwnProperty("lMorph")) {
                oToken["lMorph"] = this.dTokenPos.get(oToken["nStart"])["lMorph"];
            }
            if (this.dTokenPos.gl_get(oToken["nStart"], {}).hasOwnProperty("aTags")) {
                oToken["aTags"] = this.dTokenPos.get(oToken["nStart"])["aTags"];
            }
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                    }
                }
            }
            // analysable tokens
            if (oToken["sType"].slice(0,4) == "WORD") {
                // token lemmas
                if (oNode.hasOwnProperty("<lemmas>")) {
                    for (let sLemma of _oSpellChecker.getLemma(oToken["sValue"])) {
                        if (oNode["<lemmas>"].hasOwnProperty(sLemma)) {
                            if (bDebug) {
                                console.log("  MATCH: >" + sLemma);
                            }
                            yield { "iToken1": iToken1, "iNode": oNode["<lemmas>"][sLemma] };
                            bTokenFound = true;
                        }
                    }
                }
                // morph arcs
                if (oNode.hasOwnProperty("<morph>")) {
                    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
                    if (lMorph.length > 0) {
                        for (let sSearch in oNode["<morph>"]) {
                            if (!sSearch.includes("¬")) {
                                // no anti-pattern
                                if (lMorph.some(sMorph  =>  (sMorph.includes(sSearch)))) {
                                    if (bDebug) {
                                        console.log("  MATCH: $" + sSearch);







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                    }
                }
            }
            // analysable tokens
            if (oToken["sType"].slice(0,4) == "WORD") {
                // token lemmas
                if (oNode.hasOwnProperty("<lemmas>")) {
                    for (let sLemma of gc_engine.oSpellChecker.getLemma(oToken["sValue"])) {
                        if (oNode["<lemmas>"].hasOwnProperty(sLemma)) {
                            if (bDebug) {
                                console.log("  MATCH: >" + sLemma);
                            }
                            yield { "iToken1": iToken1, "iNode": oNode["<lemmas>"][sLemma] };
                            bTokenFound = true;
                        }
                    }
                }
                // morph arcs
                if (oNode.hasOwnProperty("<morph>")) {
                    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : gc_engine.oSpellChecker.getMorph(oToken["sValue"]);
                    if (lMorph.length > 0) {
                        for (let sSearch in oNode["<morph>"]) {
                            if (!sSearch.includes("¬")) {
                                // no anti-pattern
                                if (lMorph.some(sMorph  =>  (sMorph.includes(sSearch)))) {
                                    if (bDebug) {
                                        console.log("  MATCH: $" + sSearch);
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                                }
                            }
                        }
                    }
                }
                // regex morph arcs
                if (oNode.hasOwnProperty("<re_morph>")) {
                    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
                    if (lMorph.length > 0) {
                        for (let sRegex in oNode["<re_morph>"]) {
                            if (!sRegex.includes("¬")) {
                                // no anti-pattern
                                if (lMorph.some(sMorph  =>  (sMorph.search(sRegex) !== -1))) {
                                    if (bDebug) {
                                        console.log("  MATCH: @" + sRegex);







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                                }
                            }
                        }
                    }
                }
                // regex morph arcs
                if (oNode.hasOwnProperty("<re_morph>")) {
                    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : gc_engine.oSpellChecker.getMorph(oToken["sValue"]);
                    if (lMorph.length > 0) {
                        for (let sRegex in oNode["<re_morph>"]) {
                            if (!sRegex.includes("¬")) {
                                // no anti-pattern
                                if (lMorph.some(sMorph  =>  (sMorph.search(sRegex) !== -1))) {
                                    if (bDebug) {
                                        console.log("  MATCH: @" + sRegex);
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                    // 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;







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                    // 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 || gc_engine_func[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;
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                                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) {







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                                bChange = true;
                                if (bDebug) {
                                    console.log(`    TEXT_PROCESSOR: [${this.lToken[nTokenStart]["sValue"]}:${this.lToken[nTokenEnd]["sValue"]}]  > ${sWhat}`);
                                }
                            }
                            else if (cActionType == "=") {
                                // disambiguation
                                gc_engine_func[sWhat](this.lToken, nTokenOffset, nLastToken);
                                if (bDebug) {
                                    console.log(`    DISAMBIGUATOR: (${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) {
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    _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);







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|










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    _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 = gc_engine_func[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("=")) ? gc_engine_func[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 = gc_engine_func[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("=")) ? gc_engine_func[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": gc_engine.oOptionsColors[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);
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        else if (sRepl === "_") {
            sNew = "_".repeat(ln);
        }
        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);







|







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        else if (sRepl === "_") {
            sNew = "_".repeat(ln);
        }
        else if (sRepl === "@") {
            sNew = "@".repeat(ln);
        }
        else if (sRepl.slice(0,1) === "=") {
            sNew = gc_engine_func[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);
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                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) {







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                for (let i = nTokenRewriteStart;  i <= nTokenRewriteEnd;  i++) {
                    this.lToken[i]["sNewValue"] = "_";
                }
            }
        }
        else {
            if (sWhat.startsWith("=")) {
                sWhat = gc_engine_func[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) {
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            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-ʯff-stᴀ-ᶿ%_-]+){" + (n-1).toString() + "} +([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-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-ʯff-stᴀ-ᶿ%_-]+) +(?:[a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-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-ʯff-stᴀ-ᶿ_][a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-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-ʯff-stᴀ-ᶿ_][a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-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 (oToken, sValues, nLeft=null, nRight=null) {
    // test if <oToken['sValue']> is in sValues (each value should be separated with |)
    let sValue = (nLeft === null) ? "|"+oToken["sValue"]+"|" : "|"+oToken["sValue"].slice(nLeft, nRight)+"|";
    if (sValues.includes(sValue)) {
        return true;
    }
    if (oToken["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 (oToken["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 (oToken, 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 (oToken.hasOwnProperty("lMorph")) {
        lMorph = oToken["lMorph"];
    }
    else {
        if (nLeft !== null) {
            let sValue = (nRight !== null) ? oToken["sValue"].slice(nLeft, nRight) : oToken["sValue"].slice(nLeft);
            lMorph = _oSpellChecker.getMorph(sValue);
            if (bMemorizeMorph) {
                oToken["lMorph"] = lMorph;
            }
        } else {
            lMorph = _oSpellChecker.getMorph(oToken["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 (oToken, 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) ? oToken["sValue"].slice(nLeft, nRight) : oToken["sValue"].slice(nLeft);
        lMorph = _oSpellChecker.getMorph(sValue);
        if (bMemorizeMorph) {
            oToken["lMorph"] = lMorph;
        }
    } else {
        lMorph = _oSpellChecker.getMorph(oToken["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 (oToken1, oToken2, 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(oToken1["sValue"] + cMerger + oToken2["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) {
                oToken1["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) {
        oToken1["lMorph"] = lMorph;
    }
    return bResult;
}

function g_tag_before (oToken, dTags, sTag) {
    if (!dTags.has(sTag)) {
        return false;
    }
    if (oToken["i"] > dTags.get(sTag)[0]) {
        return true;
    }
    return false;
}

function g_tag_after (oToken, dTags, sTag) {
    if (!dTags.has(sTag)) {
        return false;
    }
    if (oToken["i"] < dTags.get(sTag)[1]) {
        return true;
    }
    return false;
}

function g_tag (oToken, sTag) {
    return oToken.hasOwnProperty("aTags") && oToken["aTags"].has(sTag);
}

function g_space_between_tokens (oToken1, oToken2, nMin, nMax=null) {
    let nSpace = oToken2["nStart"] - oToken1["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[lToken.length-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 (oToken, sPattern, lDefault=null) {
    // select morphologies for <oToken> according to <sPattern>, always return true
    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
    if (lMorph.length === 0  || lMorph.length === 1) {
        if (lDefault) {
            oToken["lMorph"] = lDefault;
        }
        return true;
    }
    let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) !== -1 );
    if (lSelect.length > 0) {
        if (lSelect.length != lMorph.length) {
            oToken["lMorph"] = lSelect;
        }
    } else if (lDefault) {
        oToken["lMorph"] = lDefault;
    }
    return true;
}

function g_exclude (oToken, sPattern, lDefault=null) {
    // select morphologies for <oToken> according to <sPattern>, always return true
    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
    if (lMorph.length === 0  || lMorph.length === 1) {
        if (lDefault) {
            oToken["lMorph"] = lDefault;
        }
        return true;
    }
    let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) === -1 );
    if (lSelect.length > 0) {
        if (lSelect.length != lMorph.length) {
            oToken["lMorph"] = lSelect;
        }
    } else if (lDefault) {
        oToken["lMorph"] = lDefault;
    }
    return true;
}

function g_add_morph (oToken, lNewMorph) {
    "Disambiguation: add a morphology to a token"
    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
    lMorph.push(...lNewMorph);
    oToken["lMorph"] = lMorph;
    return true;
}

function g_define (oToken, lMorph) {
    // set morphologies of <oToken>, always return true
    oToken["lMorph"] = lMorph;
    return true;
}

function g_define_from (oToken, nLeft=null, nRight=null) {
    let sValue = oToken["sValue"];
    if (nLeft !== null) {
        sValue = (nRight !== null) ? sValue.slice(nLeft, nRight) : sValue.slice(nLeft);
    }
    oToken["lMorph"] = _oSpellChecker.getMorph(sValue);
    return true;
}

function g_change_meta (oToken, sType) {
    // Disambiguation: change type of token
    oToken["sType"] = sType;
    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;
    // 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;
}







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            console.log("  TEXT REWRITED: " + this.sSentence);
        }
        this.lToken.length = 0;
        this.lToken = lNewToken;
    }
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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;
    // objects
    exports.oSpellChecker = gc_engine.oSpellChecker;
    exports.oTokenizer = gc_engine.oTokenizer;
    exports.aIgnoredRules = gc_engine.aIgnoredRules;
    exports.oOptionsColors = gc_engine.oOptionsColors;
    // init
    exports.load = gc_engine.load;
    exports.parse = gc_engine.parse;
    exports.getSpellChecker = gc_engine.getSpellChecker;
    // 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;






    // other
    exports.TextParser = TextParser;
}

Added gc_core/js/lang_core/gc_engine_func.js version [52d7c0e0d3].











































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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// JavaScript
// Grammar checker engine functions

${string}
${regex}
${map}


if (typeof(process) !== 'undefined') {
    var gc_options = require("./gc_options.js");
}
else if (typeof(require) !== 'undefined') {
    var gc_options = require("resource://grammalecte/${lang}/gc_options.js");
}


let _sAppContext = "JavaScript";        // what software is running
let _oSpellChecker = null;


//////// Common functions

function option (sOpt) {
    // return true if option sOpt is active
    return gc_options.dOptions.gl_get(sOpt, false);
}

function echo (x) {
    console.log(x);
    return true;
}

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-ʯff-stᴀ-ᶿ%_-]+){" + (n-1).toString() + "} +([a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-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-ʯff-stᴀ-ᶿ%_-]+) +(?:[a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-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-ʯff-stᴀ-ᶿ_][a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-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-ʯff-stᴀ-ᶿ_][a-zà-öA-Zø-ÿÀ-Ö0-9Ø-ßĀ-ʯff-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 (oToken, sValues, nLeft=null, nRight=null) {
    // test if <oToken['sValue']> is in sValues (each value should be separated with |)
    let sValue = (nLeft === null) ? "|"+oToken["sValue"]+"|" : "|"+oToken["sValue"].slice(nLeft, nRight)+"|";
    if (sValues.includes(sValue)) {
        return true;
    }
    if (oToken["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 (oToken["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 (oToken, 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 (oToken.hasOwnProperty("lMorph")) {
        lMorph = oToken["lMorph"];
    }
    else {
        if (nLeft !== null) {
            let sValue = (nRight !== null) ? oToken["sValue"].slice(nLeft, nRight) : oToken["sValue"].slice(nLeft);
            lMorph = _oSpellChecker.getMorph(sValue);
            if (bMemorizeMorph) {
                oToken["lMorph"] = lMorph;
            }
        } else {
            lMorph = _oSpellChecker.getMorph(oToken["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 (oToken, 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) ? oToken["sValue"].slice(nLeft, nRight) : oToken["sValue"].slice(nLeft);
        lMorph = _oSpellChecker.getMorph(sValue);
        if (bMemorizeMorph) {
            oToken["lMorph"] = lMorph;
        }
    } else {
        lMorph = _oSpellChecker.getMorph(oToken["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 (oToken1, oToken2, 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(oToken1["sValue"] + cMerger + oToken2["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) {
                oToken1["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) {
        oToken1["lMorph"] = lMorph;
    }
    return bResult;
}

function g_tag_before (oToken, dTags, sTag) {
    if (!dTags.has(sTag)) {
        return false;
    }
    if (oToken["i"] > dTags.get(sTag)[0]) {
        return true;
    }
    return false;
}

function g_tag_after (oToken, dTags, sTag) {
    if (!dTags.has(sTag)) {
        return false;
    }
    if (oToken["i"] < dTags.get(sTag)[1]) {
        return true;
    }
    return false;
}

function g_tag (oToken, sTag) {
    return oToken.hasOwnProperty("aTags") && oToken["aTags"].has(sTag);
}

function g_space_between_tokens (oToken1, oToken2, nMin, nMax=null) {
    let nSpace = oToken2["nStart"] - oToken1["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[lToken.length-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 (oToken, sPattern, lDefault=null) {
    // select morphologies for <oToken> according to <sPattern>, always return true
    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
    if (lMorph.length === 0  || lMorph.length === 1) {
        if (lDefault) {
            oToken["lMorph"] = lDefault;
        }
        return true;
    }
    let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) !== -1 );
    if (lSelect.length > 0) {
        if (lSelect.length != lMorph.length) {
            oToken["lMorph"] = lSelect;
        }
    } else if (lDefault) {
        oToken["lMorph"] = lDefault;
    }
    return true;
}

function g_exclude (oToken, sPattern, lDefault=null) {
    // select morphologies for <oToken> according to <sPattern>, always return true
    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
    if (lMorph.length === 0  || lMorph.length === 1) {
        if (lDefault) {
            oToken["lMorph"] = lDefault;
        }
        return true;
    }
    let lSelect = lMorph.filter( sMorph => sMorph.search(sPattern) === -1 );
    if (lSelect.length > 0) {
        if (lSelect.length != lMorph.length) {
            oToken["lMorph"] = lSelect;
        }
    } else if (lDefault) {
        oToken["lMorph"] = lDefault;
    }
    return true;
}

function g_add_morph (oToken, lNewMorph) {
    "Disambiguation: add a morphology to a token"
    let lMorph = (oToken.hasOwnProperty("lMorph")) ? oToken["lMorph"] : _oSpellChecker.getMorph(oToken["sValue"]);
    lMorph.push(...lNewMorph);
    oToken["lMorph"] = lMorph;
    return true;
}

function g_define (oToken, lMorph) {
    // set morphologies of <oToken>, always return true
    oToken["lMorph"] = lMorph;
    return true;
}

function g_define_from (oToken, nLeft=null, nRight=null) {
    let sValue = oToken["sValue"];
    if (nLeft !== null) {
        sValue = (nRight !== null) ? sValue.slice(nLeft, nRight) : sValue.slice(nLeft);
    }
    oToken["lMorph"] = _oSpellChecker.getMorph(sValue);
    return true;
}

function g_change_meta (oToken, sType) {
    // Disambiguation: change type of token
    oToken["sType"] = sType;
    return true;
}



//////// GRAMMAR CHECKER PLUGINS

${pluginsJS}


// generated code, do not edit
var gc_engine_func = {

    load: function (sContext, oSpellChecker) {
        _sAppContext = sContext
        _oSpellChecker = oSpellChecker
    },

    // callables for regex rules
${callablesJS}

    // callables for graph rules
${graph_callablesJS}
}


if (typeof(exports) !== 'undefined') {
    exports.load = gc_engine_func.load;
}

Modified gc_core/js/lang_core/gc_options.js from [ece26d7264] to [6f3ff68ba6].

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// Options for Grammalecte

/* jshint esversion:6 */
/* jslint esversion:6 */
/* global exports */

${map}


var gc_options = {




















    getOptions: function (sContext="JavaScript") {











        if (this.dOpt.hasOwnProperty(sContext)) {







            return this.dOpt[sContext];
        }
        return this.dOpt["JavaScript"];
    },

    getOptionsColors: function (sTheme="Default", sColorType="aRGB") {
        let dOptColor = (this.dOptColor.hasOwnProperty(sTheme)) ? this.dOptColor[sTheme] : this.dOptColor["Default"];
        let dColorType = (this.dColorType.hasOwnProperty(sColorType)) ? this.dColorType[sColorType] : this.dColorType["aRGB"];
        let dColor = {};
        try {
            for (let [sOpt, sColor] of Object.entries(dOptColor)) {
                dColor[sOpt] = dColorType[sColor];
            }
            return dColor;
        }
        catch (e) {
            console.error(e);
            return {};
        }
    },

    lStructOpt: ${lStructOpt},

    dOpt: {
        "JavaScript": new Map (${dOptJavaScript}),
        "Firefox": new Map (${dOptFirefox}),
        "Thunderbird": new Map (${dOptThunderbird}),
    },

    dColorType: ${dColorType},

    dOptColor: ${dOptColor},

    dOptLabel: ${dOptLabel}
};


if (typeof(exports) !== 'undefined') {







    exports.getOptions = gc_options.getOptions;
    exports.getOptionsColors = gc_options.getOptionsColors;
    exports.lStructOpt = gc_options.lStructOpt;
    exports.dOpt = gc_options.dOpt;
    exports.dColorType = gc_options.dColorType;
    exports.dOptColor = gc_options.dOptColor;
    exports.dOptLabel = gc_options.dOptLabel;
}










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// Options for Grammalecte

/* jshint esversion:6 */
/* jslint esversion:6 */
/* global exports */

${map}


var gc_options = {

    dOptions: new Map(),

    sAppContext: "JavaScript",

    load: function (sContext="JavaScript") {
        this.sAppContext = sContext;
        this.dOptions = this.getDefaultOptions(sContext);
    },

    setOption: function (sOpt, bVal) {
        if (this.dOptions.has(sOpt)) {
            this.dOptions.set(sOpt, bVal);
        }
    },

    setOptions: function (dOpt) {
        this.dOptions.gl_updateOnlyExistingKeys(dOpt);
    },

    getOptions: function () {
        return this.dOptions.gl_shallowCopy();
    },

    resetOptions: function () {
        this.dOptions = this.getDefaultOptions(this._sAppContext);
    },

    getDefaultOptions: function (sContext="") {
        if (!sContext) {
            sContext = this.sAppContext;
        }
        if (this.oDefaultOpt.hasOwnProperty(sContext)) {
            return this.oDefaultOpt[sContext].gl_shallowCopy();
        }
        return this.oDefaultOpt["JavaScript"].gl_shallowCopy();
    },

    getOptionLabels: function (sLang="${sLang}") {
        if (this.oOptLabel.hasOwnProperty(sLang)) {
            return this.oOptLabel[sLang];
        }
        return this.oOptLabel["{$sLang}"];
    },

    getOptionsColors: function (sTheme="Default", sColorType="aRGB") {
        let oOptColor = (this.oOptColor.hasOwnProperty(sTheme)) ? this.oOptColor[sTheme] : this.oOptColor["Default"];
        let oColorType = (this.oColorType.hasOwnProperty(sColorType)) ? this.oColorType[sColorType] : this.oColorType["aRGB"];
        let oColor = {};
        try {
            for (let [sOpt, sColor] of Object.entries(oOptColor)) {
                oColor[sOpt] = oColorType[sColor];
            }
            return oColor;
        }
        catch (e) {
            console.error(e);
            return {};
        }
    },

    lStructOpt: ${lStructOpt},

    oDefaultOpt: {
        "JavaScript": new Map (${dOptJavaScript}),
        "Firefox": new Map (${dOptFirefox}),
        "Thunderbird": new Map (${dOptThunderbird}),
    },

    oColorType: ${dColorType},

    oOptColor: ${dOptColor},

    oOptLabel: ${dOptLabel}
};


if (typeof(exports) !== 'undefined') {
    exports.dOptions = gc_options.dOptions;
    exports.sAppContext = gc_options.sAppContext;
    exports.load = gc_options.load;
    exports.setOption = gc_options.setOption;
    exports.setOptions = gc_options.setOptions;
    exports.resetOptions = gc_options.resetOptions;
    exports.getDefaultOptions = gc_options.getDefaultOptions;
    exports.getOptions = gc_options.getOptions;
    exports.getOptionsColors = gc_options.getOptionsColors;
    exports.lStructOpt = gc_options.lStructOpt;
    exports.oDefaultOpt = gc_options.oDefaultOpt;
    exports.dColorType = gc_options.dColorType;
    exports.oOptColor = gc_options.oOptColor;
    exports.oOptLabel = gc_options.oOptLabel;
}

Modified gc_core/js/tests.js from [147f1c4e7b] to [6174473e22].

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} else if (typeof(require) !== 'undefined') {
    var helpers = require("resource://grammalecte/graphspell/helpers.js");
}


class TestGrammarChecking {

    constructor (gce, spfTests="") {
        this.gce = gce;

        this.spfTests = spfTests;
        this._aRuleTested = new Set();
    }

    * testParse (bDebug=false) {
        const t0 = Date.now();
        let sURL;
        if(typeof(process) !== 'undefined') {
            sURL = (this.spfTests !== "") ? this.spfTests : "./"+this.gce.lang+"/tests_data.json";
        } else {
            sURL = (this.spfTests !== "") ? this.spfTests : "resource://grammalecte/"+this.gce.lang+"/tests_data.json";
        }
        const aData = JSON.parse(helpers.loadFile(sURL)).aData;
        let nInvalid = 0;
        let nTotal = 0;
        let sErrorText;
        let sSugg;
        let sExpectedErrors;
        let sTextToCheck;
        let sFoundErrors;
        let sListErr;
        let sLineNum;
        let i = 1;
        let sUntestedRules = "";
        let bShowUntested = false;
        let zOption = /^__([a-zA-Z0-9]+)__ /;
        let sOption;
        let m;
        yield "Tests [" + this.gce.lang + "]: " + aData.length.toString();
        try {
            for (let sLine of aData) {
                sLineNum = sLine.slice(0,10).trim();
                sLine = sLine.slice(10).trim();
                if (sLine.length > 0 && !sLine.startsWith("#")) {
                    sOption = false;
                    m = zOption.exec(sLine);







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} else if (typeof(require) !== 'undefined') {
    var helpers = require("resource://grammalecte/graphspell/helpers.js");
}


class TestGrammarChecking {

    constructor (gc_engine, gc_options, spfTests="") {
        this.gc_engine = gc_engine;
        this.gc_options = gc_options;
        this.spfTests = spfTests;
        this._aRuleTested = new Set();
    }

    * testParse (bDebug=false) {
        const t0 = Date.now();
        let sURL;
        if(typeof(process) !== 'undefined') {
            sURL = (this.spfTests !== "") ? this.spfTests : "./"+this.gc_engine.lang+"/tests_data.json";
        } else {
            sURL = (this.spfTests !== "") ? this.spfTests : "resource://grammalecte/"+this.gc_engine.lang+"/tests_data.json";
        }
        const aData = JSON.parse(helpers.loadFile(sURL)).aData;
        let nInvalid = 0;
        let nTotal = 0;
        let sErrorText;
        let sSugg;
        let sExpectedErrors;
        let sTextToCheck;
        let sFoundErrors;
        let sListErr;
        let sLineNum;
        let i = 1;
        let sUntestedRules = "";
        let bShowUntested = false;
        let zOption = /^__([a-zA-Z0-9]+)__ /;
        let sOption;
        let m;
        yield "Tests [" + this.gc_engine.lang + "]: " + aData.length.toString();
        try {
            for (let sLine of aData) {
                sLineNum = sLine.slice(0,10).trim();
                sLine = sLine.slice(10).trim();
                if (sLine.length > 0 && !sLine.startsWith("#")) {
                    sOption = false;
                    m = zOption.exec(sLine);
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        }
        catch (e) {
            console.error(e);
        }

        if (bShowUntested) {
            i = 0;
            for (let [sOpt, sLineId, sRuleId] of this.gce.listRules()) {
                if (sOpt !== "@@@@" && !this._aRuleTested.has(sLineId) && !/^[0-9]+[sp]$|^[pd]_/.test(sRuleId)) {
                    sUntestedRules += sLineId + "/" + sRuleId + ", ";
                    i += 1;
                }
            }
            if (i > 0) {
                yield sUntestedRules + "\n[" + i.toString() + " untested rules]";







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        }
        catch (e) {
            console.error(e);
        }

        if (bShowUntested) {
            i = 0;
            for (let [sOpt, sLineId, sRuleId] of this.gc_engine.listRules()) {
                if (sOpt !== "@@@@" && !this._aRuleTested.has(sLineId) && !/^[0-9]+[sp]$|^[pd]_/.test(sRuleId)) {
                    sUntestedRules += sLineId + "/" + sRuleId + ", ";
                    i += 1;
                }
            }
            if (i > 0) {
                yield sUntestedRules + "\n[" + i.toString() + " untested rules]";
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        return " ".repeat(sLine.length);
    }

    _getFoundErrors (sLine, bDebug, sOption) {
        try {
            let aErrs = [];
            if (sOption) {
                this.gce.setOption(sOption, true);
                aErrs = this.gce.parse(sLine, "FR", bDebug);
                this.gce.setOption(sOption, false);
            } else {
                aErrs = this.gce.parse(sLine, "FR", bDebug);
            }
            let sRes = " ".repeat(sLine.length);
            let sListErr = "";
            for (let dErr of aErrs) {
                sRes = sRes.slice(0, dErr["nStart"]) + "~".repeat(dErr["nEnd"] - dErr["nStart"]) + sRes.slice(dErr["nEnd"]);
                sListErr += "    * {" + dErr['sLineId'] + " / " + dErr['sRuleId'] + "}  at  " + dErr['nStart'] + ":" + dErr['nEnd'] + "\n";
                this._aRuleTested.add(dErr["sLineId"]);







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        return " ".repeat(sLine.length);
    }

    _getFoundErrors (sLine, bDebug, sOption) {
        try {
            let aErrs = [];
            if (sOption) {
                this.gc_options.setOption(sOption, true);
                aErrs = this.gc_engine.parse(sLine, "FR", bDebug);
                this.gc_options.setOption(sOption, false);
            } else {
                aErrs = this.gc_engine.parse(sLine, "FR", bDebug);
            }
            let sRes = " ".repeat(sLine.length);
            let sListErr = "";
            for (let dErr of aErrs) {
                sRes = sRes.slice(0, dErr["nStart"]) + "~".repeat(dErr["nEnd"] - dErr["nStart"]) + sRes.slice(dErr["nEnd"]);
                sListErr += "    * {" + dErr['sLineId'] + " / " + dErr['sRuleId'] + "}  at  " + dErr['nStart'] + ":" + dErr['nEnd'] + "\n";
                this._aRuleTested.add(dErr["sLineId"]);

Modified gc_core/py/__init__.py from [49f46a05ff] to [3c70db889b].

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"""
Grammar checker
"""

from .grammar_checker import *




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"""
Grammar checker
"""

from .${lang}.gc_engine import *

Deleted gc_core/py/grammar_checker.py version [50b054f72f].

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"""
Grammalecte, grammar checker
"""

import importlib
import json

from . import text


class GrammarChecker:
    "GrammarChecker: Wrapper for the grammar checker engine"

    def __init__ (self, sLangCode, sContext="Python"):
        self.sLangCode = sLangCode
        # Grammar checker engine
        self.gce = importlib.import_module("."+sLangCode, "grammalecte")
        self.gce.load(sContext)
        # Spell checker
        self.oSpellChecker = self.gce.getSpellChecker()
        # Lexicographer
        self.oLexicographer = None
        # Text formatter
        self.oTextFormatter = None

    def getGCEngine (self):
        "return the grammar checker object"
        return self.gce

    def getSpellChecker (self):
        "return the spell checker object"
        return self.oSpellChecker

    def getTextFormatter (self):
        "load and return the text formatter"
        if self.oTextFormatter is None:
            tf = importlib.import_module("."+self.sLangCode+".textformatter", "grammalecte")
            self.oTextFormatter = tf.TextFormatter()
        return self.oTextFormatter

    def getLexicographer (self):
        "load and return the lexicographer"
        if self.oLexicographer is None:
            lxg = importlib.import_module("."+self.sLangCode+".lexicographe", "grammalecte")
            self.oLexicographer = lxg.Lexicographe(self.oSpellChecker)
        return self.oLexicographer

    def displayGCOptions (self):
        "display the grammar checker options"
        self.gce.displayOptions()

    def getParagraphErrors (self, sText, dOptions=None, bContext=False, bSpellSugg=False, bDebug=False):
        "returns a tuple: (grammar errors, spelling errors)"
        aGrammErrs = self.gce.parse(sText, "FR", bDebug=bDebug, dOptions=dOptions, bContext=bContext)
        aSpellErrs = self.oSpellChecker.parseParagraph(sText, bSpellSugg)
        return aGrammErrs, aSpellErrs

    def getParagraphWithErrors (self, sText, dOptions=None, bEmptyIfNoErrors=False, bSpellSugg=False, nWidth=100, bDebug=False):
        "parse text and return a readable text with underline errors"
        aGrammErrs, aSpellErrs = self.getParagraphErrors(sText, dOptions, False, bSpellSugg, bDebug)
        if bEmptyIfNoErrors and not aGrammErrs and not aSpellErrs:
            return ("", [])
        return text.generateParagraph(sText, aGrammErrs, aSpellErrs, nWidth)

    def getTextWithErrors (self, sText, bEmptyIfNoErrors=False, bSpellSugg=False, nWidth=100, bDebug=False):
        "[todo]"

    def getParagraphErrorsAsJSON (self, iIndex, sText, dOptions=None, bContext=False, bEmptyIfNoErrors=False, bSpellSugg=False, bReturnText=False, lLineSet=None, bDebug=False):
        "parse text and return errors as a JSON string"
        aGrammErrs, aSpellErrs = self.getParagraphErrors(sText, dOptions, bContext, bSpellSugg, bDebug)
        aGrammErrs = list(aGrammErrs)
        if bEmptyIfNoErrors and not aGrammErrs and not aSpellErrs:
            return ""
        if lLineSet:
            aGrammErrs, aSpellErrs = text.convertToXY(aGrammErrs, aSpellErrs, lLineSet)
            return json.dumps({ "lGrammarErrors": aGrammErrs, "lSpellingErrors": aSpellErrs }, ensure_ascii=False)
        if bReturnText:
            return json.dumps({ "iParagraph": iIndex, "sText": sText, "lGrammarErrors": aGrammErrs, "lSpellingErrors": aSpellErrs }, ensure_ascii=False)
        return json.dumps({ "iParagraph": iIndex, "lGrammarErrors": aGrammErrs, "lSpellingErrors": aSpellErrs }, ensure_ascii=False)

    def getTextErrorsAsJSON (self, sText, bContext=False, bEmptyIfNoErrors=False, bSpellSugg=False, bReturnText=False, bDebug=False):
        "[todo]"
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Modified gc_core/py/lang_core/gc_engine.py from [612611c197] to [10a61be11b].

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"""
Grammalecte
Grammar checker engine
"""

import re
import traceback


#import unicodedata
from itertools import chain

from ..graphspell.spellchecker import SpellChecker
from ..graphspell.echo import echo

from .. import text


from . import gc_options


try:
    # LibreOffice / OpenOffice
    from com.sun.star.linguistic2 import SingleProofreadingError
    from com.sun.star.text.TextMarkupType import PROOFREADING
    from com.sun.star.beans import PropertyValue
    #import lightproof_handler_${implname} as opt
    _bWriterError = True
except ImportError:
    _bWriterError = False


__all__ = [ "lang", "locales", "pkg", "name", "version", "author", \
            "load", "parse", "getSpellChecker", \
            "setOption", "setOptions", "getOptions", "getDefaultOptions", "getOptionsLabels", "resetOptions", "displayOptions", \
            "ignoreRule", "resetIgnoreRules", "reactivateRule", "listRules", "displayRules", "setWriterUnderliningStyle" ]

__version__ = "${version}"


lang = "${lang}"
locales = ${loc}
pkg = "${implname}"
name = "${name}"
version = "${version}"
author = "${author}"

# Modules
_rules = None                               # module gc_rules
_rules_graph = None                         # module gc_rules_graph

# Data
_sAppContext = ""                           # what software is running
_dOptions = None
_dOptionsColors = None
_oSpellChecker = None
_oTokenizer = None


_aIgnoredRules = set()

# Writer underlining style

_bMulticolor = True
_nUnderliningStyle = 0


#### Initialization

def load (sContext="Python", sColorType="aRGB"):
    "initialization of the grammar checker"
    global _oSpellChecker
    global _sAppContext
    global _dOptions
    global _dOptionsColors
    global _oTokenizer
    try:
        _oSpellChecker = SpellChecker("${lang}", "${dic_main_filename_py}", "${dic_community_filename_py}", "${dic_personal_filename_py}")
        _sAppContext = sContext
        _dOptions = gc_options.getOptions(sContext).copy()   # duplication necessary, to be able to reset to default
        _dOptionsColors = gc_options.getOptionsColors(sContext, sColorType)
        _oTokenizer = _oSpellChecker.getTokenizer()
        _oSpellChecker.activateStorage()


    except:
        traceback.print_exc()




def getSpellChecker ():
    "return the spellchecker object"
    return _oSpellChecker


#### Rules







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"""
Grammalecte
Grammar checker engine
"""

import re
import traceback
import json
import importlib
#import unicodedata
from itertools import chain

from ..graphspell.spellchecker import SpellChecker
from ..graphspell.echo import echo

from .. import text

from . import gc_engine_func as gce_func
from . import gc_options


try:
    # LibreOffice / OpenOffice
    from com.sun.star.linguistic2 import SingleProofreadingError
    from com.sun.star.text.TextMarkupType import PROOFREADING
    from com.sun.star.beans import PropertyValue
    #import lightproof_handler_${implname} as opt
    _bWriterError = True
except ImportError:
    _bWriterError = False


#__all__ = [ "lang", "locales", "pkg", "name", "version", "author", \
#            "load", "parse", "getSpellChecker", "getTextFormatter", "getLexicographer" \

#            "ignoreRule", "resetIgnoreRules", "reactivateRule", "listRules", "displayRules", "setWriterUnderliningStyle" ]

__version__ = "${version}"


lang = "${lang}"
locales = ${loc}
pkg = "${implname}"
name = "${name}"
version = "${version}"
author = "${author}"

# Modules
_rules = None                               # module gc_rules
_rules_graph = None                         # module gc_rules_graph

# Tools



_oSpellChecker = None
_oTokenizer = None

# Data
_aIgnoredRules = set()

# Writer underlining style
_dOptionsColors = None
_bMulticolor = True
_nUnderliningStyle = 0


#### Initialization

def load (sContext="Python", sColorType="aRGB"):
    "initialization of the grammar checker"
    global _oSpellChecker


    global _dOptionsColors
    global _oTokenizer
    try:
        _oSpellChecker = SpellChecker("${lang}", "${dic_main_filename_py}", "${dic_community_filename_py}", "${dic_personal_filename_py}")
        _oSpellChecker.activateStorage()


        _oTokenizer = _oSpellChecker.getTokenizer()
        gce_func.load(sContext, _oSpellChecker)
        gc_options.load(sContext)
        _dOptionsColors = gc_options.getOptionsColors(sContext, sColorType)
    except:
        traceback.print_exc()


#### Tools

def getSpellChecker ():
    "return the spellchecker object"
    return _oSpellChecker


#### Rules
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def reactivateRule (sRuleId):
    "(re)activate rule <sRuleId>"
    _aIgnoredRules.discard(sRuleId)


def listRules (sFilter=None):
    "generator: returns typle (sOption, sLineId, sRuleId)"
    if sFilter:
        try:
            zFilter = re.compile(sFilter)
        except re.error:
            echo("# Error. List rules: wrong regex.")
            sFilter = None
    # regex rules







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def reactivateRule (sRuleId):
    "(re)activate rule <sRuleId>"
    _aIgnoredRules.discard(sRuleId)


def listRules (sFilter=None):
    "generator: returns tuple (sRuleType, sOption, sLineId, sRuleId)"
    if sFilter:
        try:
            zFilter = re.compile(sFilter)
        except re.error:
            echo("# Error. List rules: wrong regex.")
            sFilter = None
    # regex rules
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def displayRules (sFilter=None):
    "display the name of rules, with the filter <sFilter>"
    echo("List of rules. Filter: << " + str(sFilter) + " >>")
    for sOption, sLineId, sRuleId, sType in listRules(sFilter):
        echo("{:<8} {:<10} {:<10} {}".format(sOption, sLineId, sRuleId, sType))


#### Options

def setOption (sOpt, bVal):
    "set option <sOpt> with <bVal> if it exists"
    if sOpt in _dOptions:
        _dOptions[sOpt] = bVal


def setOptions (dOpt):
    "update the dictionary of options with <dOpt>"
    for sKey, bVal in dOpt.items():
        if sKey in _dOptions:
            _dOptions[sKey] = bVal


def getOptions ():
    "return the dictionary of current options"
    return _dOptions


def getDefaultOptions ():
    "return the dictionary of default options"
    return gc_options.getOptions(_sAppContext).copy()


def getOptionsLabels (sLang):
    "return options labels"
    return gc_options.getUI(sLang)


def displayOptions (sLang="${lang}"):
    "display the list of grammar checking options"
    echo("Options:")
    echo("\n".join( [ k+":\t"+str(v)+"\t"+gc_options.getUI(sLang).get(k, ("?", ""))[0]  for k, v  in sorted(_dOptions.items()) ] ))
    echo("")


def resetOptions ():
    "set options to default values"
    global _dOptions
    _dOptions = getDefaultOptions()


def setWriterUnderliningStyle (sStyle="BOLDWAVE", bMulticolor=True):
    "set underlining style for Writer (WAVE, BOLDWAVE, BOLD)"
    global _nUnderliningStyle
    global _bMulticolor
    # https://api.libreoffice.org/docs/idl/ref/FontUnderline_8idl.html
    # WAVE: 10, BOLD: 12, BOLDWAVE: 18 DASH: 5







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def displayRules (sFilter=None):
    "display the name of rules, with the filter <sFilter>"
    echo("List of rules. Filter: << " + str(sFilter) + " >>")
    for sOption, sLineId, sRuleId, sType in listRules(sFilter):
        echo("{:<8} {:<10} {:<10} {}".format(sOption, sLineId, sRuleId, sType))













































def setWriterUnderliningStyle (sStyle="BOLDWAVE", bMulticolor=True):
    "set underlining style for Writer (WAVE, BOLDWAVE, BOLD)"
    global _nUnderliningStyle
    global _bMulticolor
    # https://api.libreoffice.org/docs/idl/ref/FontUnderline_8idl.html
    # WAVE: 10, BOLD: 12, BOLDWAVE: 18 DASH: 5
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        _nUnderliningStyle = 5
    else:
        _nUnderliningStyle = 0
    _bMulticolor = bMulticolor


#### Parsing






























def parse (sText, sCountry="${country_default}", bDebug=False, dOptions=None, bContext=False, bFullInfo=False):
    "init point to analyse <sText> and returns an iterable of errors or (with option <bFullInfo>) paragraphs errors and sentences with tokens and errors"
    oText = TextParser(sText)
    return oText.parse(sCountry, bDebug, dOptions, bContext, bFullInfo)









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        _nUnderliningStyle = 5
    else:
        _nUnderliningStyle = 0
    _bMulticolor = bMulticolor


#### Parsing

def getParagraphErrors (sText, dOptions=None, bContext=False, bSpellSugg=False, bDebug=False):
    "returns a tuple: (grammar errors, spelling errors)"
    aGrammErrs = parse(sText, "FR", bDebug=bDebug, dOptions=dOptions, bContext=bContext)
    aSpellErrs = _oSpellChecker.parseParagraph(sText, bSpellSugg)
    return aGrammErrs, aSpellErrs


def getParagraphWithErrors (sText, dOptions=None, bEmptyIfNoErrors=False, bSpellSugg=False, nWidth=100, bDebug=False):
    "parse text and return a readable text with underline errors"
    aGrammErrs, aSpellErrs = getParagraphErrors(sText, dOptions, False, bSpellSugg, bDebug)
    if bEmptyIfNoErrors and not aGrammErrs and not aSpellErrs:
        return ("", [])
    return text.generateParagraph(sText, aGrammErrs, aSpellErrs, nWidth)


def getParagraphErrorsAsJSON (iIndex, sText, dOptions=None, bContext=False, bEmptyIfNoErrors=False, bSpellSugg=False, bReturnText=False, lLineSet=None, bDebug=False):
    "parse text and return errors as a JSON string"
    aGrammErrs, aSpellErrs = getParagraphErrors(sText, dOptions, bContext, bSpellSugg, bDebug)
    aGrammErrs = list(aGrammErrs)
    if bEmptyIfNoErrors and not aGrammErrs and not aSpellErrs:
        return ""
    if lLineSet:
        aGrammErrs, aSpellErrs = text.convertToXY(aGrammErrs, aSpellErrs, lLineSet)
        return json.dumps({ "lGrammarErrors": aGrammErrs, "lSpellingErrors": aSpellErrs }, ensure_ascii=False)
    if bReturnText:
        return json.dumps({ "iParagraph": iIndex, "sText": sText, "lGrammarErrors": aGrammErrs, "lSpellingErrors": aSpellErrs }, ensure_ascii=False)
    return json.dumps({ "iParagraph": iIndex, "lGrammarErrors": aGrammErrs, "lSpellingErrors": aSpellErrs }, ensure_ascii=False)


def parse (sText, sCountry="${country_default}", bDebug=False, dOptions=None, bContext=False, bFullInfo=False):
    "init point to analyse <sText> and returns an iterable of errors or (with option <bFullInfo>) paragraphs errors and sentences with tokens and errors"
    oText = TextParser(sText)
    return oText.parse(sCountry, bDebug, dOptions, bContext, bFullInfo)


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        #for nPos, dToken in self.dTokenPos.items():
        #    s += "{}\t{}\n".format(nPos, dToken)
        return s

    def parse (self, sCountry="${country_default}", bDebug=False, dOptions=None, bContext=False, bFullInfo=False):
        "analyses <sText> and returns an iterable of errors or (with option <bFullInfo>) paragraphs errors and sentences with tokens and errors"
        #sText = unicodedata.normalize("NFC", sText)
        dOpt = dOptions or _dOptions
        bShowRuleId = option('idrule')
        # parse paragraph
        try:
            self.parseText(self.sText, self.sText0, True, 0, sCountry, dOpt, bShowRuleId, bDebug, bContext)
        except:
            raise
        if bFullInfo:
            lParagraphErrors = list(self.dError.values())







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        #for nPos, dToken in self.dTokenPos.items():
        #    s += "{}\t{}\n".format(nPos, dToken)
        return s

    def parse (self, sCountry="${country_default}", bDebug=False, dOptions=None, bContext=False, bFullInfo=False):
        "analyses <sText> and returns an iterable of errors or (with option <bFullInfo>) paragraphs errors and sentences with tokens and errors"
        #sText = unicodedata.normalize("NFC", sText)
        dOpt = dOptions or gc_options.dOptions
        bShowRuleId = gc_options.dOptions.get('idrule', False)
        # parse paragraph
        try:
            self.parseText(self.sText, self.sText0, True, 0, sCountry, dOpt, bShowRuleId, bDebug, bContext)
        except:
            raise
        if bFullInfo:
            lParagraphErrors = list(self.dError.values())
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                for zRegex, bUppercase, sLineId, sRuleId, nPriority, lActions in lRuleGroup:
                    if sRuleId not in _aIgnoredRules:
                        for m in zRegex.finditer(sText):
                            bCondMemo = None
                            for sFuncCond, cActionType, sWhat, *eAct in lActions:
                                # action in lActions: [ condition, action type, replacement/suggestion/action[, iGroup[, message, URL]] ]
                                try:
                                    bCondMemo = not sFuncCond or globals()[sFuncCond](sText, sText0, m, self.dTokenPos, sCountry, bCondMemo)
                                    if bCondMemo:
                                        if bDebug:
                                            echo("RULE: " + sLineId)
                                        if cActionType == "-":
                                            # grammar error
                                            nErrorStart = nOffset + m.start(eAct[0])
                                            if nErrorStart not in self.dError or nPriority > self.dErrorPriority.get(nErrorStart, -1):
                                                self.dError[nErrorStart] = self._createErrorFromRegex(sText, sText0, sWhat, nOffset, m, eAct[0], sLineId, sRuleId, bUppercase, eAct[1], eAct[2], bShowRuleId, sOption, bContext)
                                                self.dErrorPriority[nErrorStart] = nPriority
                                                self.dSentenceError[nErrorStart] = self.dError[nErrorStart]
                                        elif cActionType == "~":
                                            # text processor
                                            sText = self.rewriteText(sText, sWhat, eAct[0], m, bUppercase)
                                            bChange = True
                                            if bDebug:
                                                echo("~ " + sText + "  -- " + m.group(eAct[0]) + "  # " + sLineId)
                                        elif cActionType == "=":
                                            # disambiguation
                                            if not bParagraph:
                                                globals()[sWhat](sText, m, self.dTokenPos)
                                                if bDebug:
                                                    echo("= " + m.group(0) + "  # " + sLineId)
                                        elif cActionType == ">":
                                            # we do nothing, this test is just a condition to apply all following actions
                                            pass
                                        else:
                                            echo("# error: unknown action at " + sLineId)







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                for zRegex, bUppercase, sLineId, sRuleId, nPriority, lActions in lRuleGroup:
                    if sRuleId not in _aIgnoredRules:
                        for m in zRegex.finditer(sText):
                            bCondMemo = None
                            for sFuncCond, cActionType, sWhat, *eAct in lActions:
                                # action in lActions: [ condition, action type, replacement/suggestion/action[, iGroup[, message, URL]] ]
                                try:
                                    bCondMemo = not sFuncCond or getattr(gce_func, sFuncCond)(sText, sText0, m, self.dTokenPos, sCountry, bCondMemo)
                                    if bCondMemo:
                                        if bDebug:
                                            echo("RULE: " + sLineId)
                                        if cActionType == "-":
                                            # grammar error
                                            nErrorStart = nOffset + m.start(eAct[0])
                                            if nErrorStart not in self.dError or nPriority > self.dErrorPriority.get(nErrorStart, -1):
                                                self.dError[nErrorStart] = self._createErrorFromRegex(sText, sText0, sWhat, nOffset, m, eAct[0], sLineId, sRuleId, bUppercase, eAct[1], eAct[2], bShowRuleId, sOption, bContext)
                                                self.dErrorPriority[nErrorStart] = nPriority
                                                self.dSentenceError[nErrorStart] = self.dError[nErrorStart]
                                        elif cActionType == "~":
                                            # text processor
                                            sText = self.rewriteText(sText, sWhat, eAct[0], m, bUppercase)
                                            bChange = True
                                            if bDebug:
                                                echo("~ " + sText + "  -- " + m.group(eAct[0]) + "  # " + sLineId)
                                        elif cActionType == "=":
                                            # disambiguation
                                            if not bParagraph:
                                                getattr(gce_func, sWhat)(sText, m, self.dTokenPos)
                                                if bDebug:
                                                    echo("= " + m.group(0) + "  # " + sLineId)
                                        elif cActionType == ">":
                                            # we do nothing, this test is just a condition to apply all following actions
                                            pass
                                        else:
                                            echo("# error: unknown action at " + sLineId)
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        for sLineId, nextNodeKey in dNode.items():
            bCondMemo = None
            for sRuleId in dGraph[nextNodeKey]:
                try:
                    if bDebug:
                        echo("   >TRY: " + sRuleId + " " + sLineId)
                    _, sOption, sFuncCond, cActionType, sWhat, *eAct = _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 not sOption or dOptions.get(sOption, False):
                        bCondMemo = not sFuncCond or globals()[sFuncCond](self.lToken, nTokenOffset, nLastToken, sCountry, bCondMemo, self.dTags, self.sSentence, self.sSentence0)
                        if bCondMemo:
                            if cActionType == "-":
                                # grammar error
                                iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, sURL = eAct
                                nTokenErrorStart = nTokenOffset + iTokenStart  if iTokenStart > 0  else nLastToken + iTokenStart
                                if "bImmune" not in self.lToken[nTokenErrorStart]:
                                    nTokenErrorEnd = nTokenOffset + iTokenEnd  if iTokenEnd > 0  else nLastToken + iTokenEnd







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        for sLineId, nextNodeKey in dNode.items():
            bCondMemo = None
            for sRuleId in dGraph[nextNodeKey]:
                try:
                    if bDebug:
                        echo("   >TRY: " + sRuleId + " " + sLineId)
                    _, sOption, sFuncCond, cActionType, sWhat, *eAct = _rules_graph.dRule[sRuleId]
                    # Suggestion    [ sActionLineId, option, condition, "-", replacement/suggestion/action, iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, sURL ]
                    # TextProcessor [ sActionLineId, option, condition, "~", replacement/suggestion/action, iTokenStart, iTokenEnd, bCaseSvty ]
                    # Disambiguator [ sActionLineId, option, condition, "=", replacement/suggestion/action ]
                    # Tag           [ sActionLineId, option, condition, "/", replacement/suggestion/action, iTokenStart, iTokenEnd ]
                    # Immunity      [ sActionLineId, option, condition, "!", "",                            iTokenStart, iTokenEnd ]
                    # Test          [ sActionLineId, option, condition, ">", "" ]
                    if not sOption or dOptions.get(sOption, False):
                        bCondMemo = not sFuncCond or getattr(gce_func, sFuncCond)(self.lToken, nTokenOffset, nLastToken, sCountry, bCondMemo, self.dTags, self.sSentence, self.sSentence0)
                        if bCondMemo:
                            if cActionType == "-":
                                # grammar error
                                iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, sURL = eAct
                                nTokenErrorStart = nTokenOffset + iTokenStart  if iTokenStart > 0  else nLastToken + iTokenStart
                                if "bImmune" not in self.lToken[nTokenErrorStart]:
                                    nTokenErrorEnd = nTokenOffset + iTokenEnd  if iTokenEnd > 0  else nLastToken + iTokenEnd
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                                nTokenEnd = nTokenOffset + eAct[1]  if eAct[1] > 0  else nLastToken + eAct[1]
                                self._tagAndPrepareTokenForRewriting(sWhat, nTokenStart, nTokenEnd, nTokenOffset, nLastToken, eAct[2], bDebug)
                                bChange = True
                                if bDebug:
                                    echo("    TEXT_PROCESSOR: [{}:{}]  > {}".format(self.lToken[nTokenStart]["sValue"], self.lToken[nTokenEnd]["sValue"], sWhat))
                            elif cActionType == "=":
                                # disambiguation
                                globals()[sWhat](self.lToken, nTokenOffset, nLastToken)
                                if bDebug:
                                    echo("    DISAMBIGUATOR: ({})  [{}:{}]".format(sWhat, self.lToken[nTokenOffset+1]["sValue"], self.lToken[nLastToken]["sValue"]))
                            elif cActionType == ">":
                                # we do nothing, this test is just a condition to apply all following actions
                                if bDebug:
                                    echo("    COND_OK")
                            elif cActionType == "/":







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                                nTokenEnd = nTokenOffset + eAct[1]  if eAct[1] > 0  else nLastToken + eAct[1]
                                self._tagAndPrepareTokenForRewriting(sWhat, nTokenStart, nTokenEnd, nTokenOffset, nLastToken, eAct[2], bDebug)
                                bChange = True
                                if bDebug:
                                    echo("    TEXT_PROCESSOR: [{}:{}]  > {}".format(self.lToken[nTokenStart]["sValue"], self.lToken[nTokenEnd]["sValue"], sWhat))
                            elif cActionType == "=":
                                # disambiguation
                                getattr(gce_func, sWhat)(self.lToken, nTokenOffset, nLastToken)
                                if bDebug:
                                    echo("    DISAMBIGUATOR: ({})  [{}:{}]".format(sWhat, self.lToken[nTokenOffset+1]["sValue"], self.lToken[nLastToken]["sValue"]))
                            elif cActionType == ">":
                                # we do nothing, this test is just a condition to apply all following actions
                                if bDebug:
                                    echo("    COND_OK")
                            elif cActionType == "/":
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        return bChange

    def _createErrorFromRegex (self, sText, sText0, sRepl, nOffset, m, iGroup, sLineId, sRuleId, bUppercase, sMsg, sURL, bShowRuleId, sOption, bContext):
        nStart = nOffset + m.start(iGroup)
        nEnd = nOffset + m.end(iGroup)
        # suggestions
        if sRepl[0:1] == "=":
            sSugg = globals()[sRepl[1:]](sText, m)
            lSugg = sSugg.split("|")  if sSugg  else []
        elif sRepl == "_":
            lSugg = []
        else:
            lSugg = m.expand(sRepl).split("|")
        if bUppercase and lSugg and m.group(iGroup)[0:1].isupper():
            lSugg = list(map(lambda s: s[0:1].upper()+s[1:], lSugg))
        # Message
        sMessage = globals()[sMsg[1:]](sText, m)  if sMsg[0:1] == "="  else  m.expand(sMsg)
        if bShowRuleId:
            sMessage += "  #" + sLineId + " / " + sRuleId
        #
        if _bWriterError:
            return self._createErrorForWriter(nStart, nEnd - nStart, sRuleId, sOption, sMessage, lSugg, sURL)
        return self._createErrorAsDict(nStart, nEnd, sLineId, sRuleId, sOption, sMessage, lSugg, sURL, bContext)

    def _createErrorFromTokens (self, sSugg, nTokenOffset, nLastToken, iFirstToken, nStart, nEnd, sLineId, sRuleId, bCaseSvty, sMsg, sURL, bShowRuleId, sOption, bContext):
        # suggestions
        if sSugg[0:1] == "=":
            sSugg = globals()[sSugg[1:]](self.lToken, nTokenOffset, nLastToken)
            lSugg = sSugg.split("|")  if sSugg  else []
        elif sSugg == "_":
            lSugg = []
        else:
            lSugg = self._expand(sSugg, nTokenOffset, nLastToken).split("|")
        if bCaseSvty and lSugg and self.lToken[iFirstToken]["sValue"][0:1].isupper():
            lSugg = list(map(lambda s: s[0:1].upper()+s[1:], lSugg))
        # Message
        sMessage = globals()[sMsg[1:]](self.lToken, nTokenOffset, nLastToken)  if sMsg[0:1] == "="  else self._expand(sMsg, nTokenOffset, nLastToken)
        if bShowRuleId:
            sMessage += "  #" + sLineId + " / " + sRuleId
        #
        if _bWriterError:
            return self._createErrorForWriter(nStart, nEnd - nStart, sRuleId, sOption, sMessage, lSugg, sURL)
        return self._createErrorAsDict(nStart, nEnd, sLineId, sRuleId, sOption, sMessage, lSugg, sURL, bContext)








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        return bChange

    def _createErrorFromRegex (self, sText, sText0, sRepl, nOffset, m, iGroup, sLineId, sRuleId, bUppercase, sMsg, sURL, bShowRuleId, sOption, bContext):
        nStart = nOffset + m.start(iGroup)
        nEnd = nOffset + m.end(iGroup)
        # suggestions
        if sRepl[0:1] == "=":
            sSugg = getattr(gce_func, sRepl[1:])(sText, m)
            lSugg = sSugg.split("|")  if sSugg  else []
        elif sRepl == "_":
            lSugg = []
        else:
            lSugg = m.expand(sRepl).split("|")
        if bUppercase and lSugg and m.group(iGroup)[0:1].isupper():
            lSugg = list(map(lambda s: s[0:1].upper()+s[1:], lSugg))
        # Message
        sMessage = getattr(gce_func, sMsg[1:])(sText, m)  if sMsg[0:1] == "="  else  m.expand(sMsg)
        if bShowRuleId:
            sMessage += "  #" + sLineId + " / " + sRuleId
        #
        if _bWriterError:
            return self._createErrorForWriter(nStart, nEnd - nStart, sRuleId, sOption, sMessage, lSugg, sURL)
        return self._createErrorAsDict(nStart, nEnd, sLineId, sRuleId, sOption, sMessage, lSugg, sURL, bContext)

    def _createErrorFromTokens (self, sSugg, nTokenOffset, nLastToken, iFirstToken, nStart, nEnd, sLineId, sRuleId, bCaseSvty, sMsg, sURL, bShowRuleId, sOption, bContext):
        # suggestions
        if sSugg[0:1] == "=":
            sSugg = getattr(gce_func, sSugg[1:])(self.lToken, nTokenOffset, nLastToken)
            lSugg = sSugg.split("|")  if sSugg  else []
        elif sSugg == "_":
            lSugg = []
        else:
            lSugg = self._expand(sSugg, nTokenOffset, nLastToken).split("|")
        if bCaseSvty and lSugg and self.lToken[iFirstToken]["sValue"][0:1].isupper():
            lSugg = list(map(lambda s: s[0:1].upper()+s[1:], lSugg))
        # Message
        sMessage = getattr(gce_func, sMsg[1:])(self.lToken, nTokenOffset, nLastToken)  if sMsg[0:1] == "="  else self._expand(sMsg, nTokenOffset, nLastToken)
        if bShowRuleId:
            sMessage += "  #" + sLineId + " / " + sRuleId
        #
        if _bWriterError:
            return self._createErrorForWriter(nStart, nEnd - nStart, sRuleId, sOption, sMessage, lSugg, sURL)
        return self._createErrorAsDict(nStart, nEnd, sLineId, sRuleId, sOption, sMessage, lSugg, sURL, bContext)

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        if sRepl == "*":
            sNew = " " * nLen
        elif sRepl == "_":
            sNew = "_" * nLen
        elif sRepl == "@":
            sNew = "@" * nLen
        elif sRepl[0:1] == "=":
            sNew = globals()[sRepl[1:]](sText, m)
            sNew = sNew + " " * (nLen-len(sNew))
            if bUppercase and m.group(iGroup)[0:1].isupper():
                sNew = sNew.capitalize()
        else:
            sNew = m.expand(sRepl)
            sNew = sNew + " " * (nLen-len(sNew))
        return sText[0:m.start(iGroup)] + sNew + sText[m.end(iGroup):]







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        if sRepl == "*":
            sNew = " " * nLen
        elif sRepl == "_":
            sNew = "_" * nLen
        elif sRepl == "@":
            sNew = "@" * nLen
        elif sRepl[0:1] == "=":
            sNew = getattr(gce_func, sRepl[1:])(sText, m)
            sNew = sNew + " " * (nLen-len(sNew))
            if bUppercase and m.group(iGroup)[0:1].isupper():
                sNew = sNew.capitalize()
        else:
            sNew = m.expand(sRepl)
            sNew = sNew + " " * (nLen-len(sNew))
        return sText[0:m.start(iGroup)] + sNew + sText[m.end(iGroup):]
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            if nTokenRewriteEnd - nTokenRewriteStart == 0:
                self.lToken[nTokenRewriteStart]["sNewValue"] = "_"
            else:
                for i in range(nTokenRewriteStart, nTokenRewriteEnd+1):
                    self.lToken[i]["sNewValue"] = "_"
        else:
            if sWhat.startswith("="):
                sWhat = globals()[sWhat[1:]](self.lToken, nTokenOffset, nLastToken)
            else:
                sWhat = self._expand(sWhat, nTokenOffset, nLastToken)
            bUppercase = bCaseSvty and self.lToken[nTokenRewriteStart]["sValue"][0:1].isupper()
            if nTokenRewriteEnd - nTokenRewriteStart == 0:
                # one token
                if bUppercase:
                    sWhat = sWhat[0:1].upper() + sWhat[1:]







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            if nTokenRewriteEnd - nTokenRewriteStart == 0:
                self.lToken[nTokenRewriteStart]["sNewValue"] = "_"
            else:
                for i in range(nTokenRewriteStart, nTokenRewriteEnd+1):
                    self.lToken[i]["sNewValue"] = "_"
        else:
            if sWhat.startswith("="):
                sWhat = getattr(gce_func, sWhat[1:])(self.lToken, nTokenOffset, nLastToken)
            else:
                sWhat = self._expand(sWhat, nTokenOffset, nLastToken)
            bUppercase = bCaseSvty and self.lToken[nTokenRewriteStart]["sValue"][0:1].isupper()
            if nTokenRewriteEnd - nTokenRewriteStart == 0:
                # one token
                if bUppercase:
                    sWhat = sWhat[0:1].upper() + sWhat[1:]
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                except KeyError:
                    echo(self)
                    echo(dToken)
        if bDebug:
            echo("  TEXT REWRITED: " + self.sSentence)
        self.lToken.clear()
        self.lToken = lNewToken


#### common functions

def option (sOpt):
    "return True if option <sOpt> is active"
    return _dOptions.get(sOpt, False)


#### Functions to get text outside pattern scope

# warning: check compile_rules.py to understand how it works

_zNextWord = re.compile(r" +(\w[\w-]*)")
_zPrevWord = re.compile(r"(\w[\w-]*) +$")

def nextword (s, iStart, n):
    "get the nth word of the input string or empty string"
    m = re.match("(?: +[\\w%-]+){" + str(n-1) + "} +([\\w%-]+)", s[iStart:])
    if not m:
        return None
    return (iStart+m.start(1), m.group(1))


def prevword (s, iEnd, n):
    "get the (-)nth word of the input string or empty string"
    m = re.search("([\\w%-]+) +(?:[\\w%-]+ +){" + str(n-1) + "}$", s[:iEnd])
    if not m:
        return None
    return (m.start(1), m.group(1))


def nextword1 (s, iStart):
    "get next word (optimization)"
    m = _zNextWord.match(s[iStart:])
    if not m:
        return None
    return (iStart+m.start(1), m.group(1))


def prevword1 (s, iEnd):
    "get previous word (optimization)"
    m = _zPrevWord.search(s[:iEnd])
    if not m:
        return None
    return (m.start(1), m.group(1))


def look (s, sPattern, sNegPattern=None):
    "seek sPattern in s (before/after/fulltext), if sNegPattern not in s"
    if sNegPattern and re.search(sNegPattern, s):
        return False
    if re.search(sPattern, s):
        return True
    return False


def look_chk1 (dTokenPos, s, nOffset, sPattern, sPatternGroup1, sNegPatternGroup1=""):
    "returns True if s has pattern sPattern and m.group(1) has pattern sPatternGroup1"
    m = re.search(sPattern, s)
    if not m:
        return False
    try:
        sWord = m.group(1)
        nPos = m.start(1) + nOffset
    except IndexError:
        return False
    return morph(dTokenPos, (nPos, sWord), sPatternGroup1, sNegPatternGroup1)



#### Analyse groups for regex rules

def displayInfo (dTokenPos, tWord):
    "for debugging: retrieve info of word"
    if not tWord:
        echo("> nothing to find")
        return True
    lMorph = _oSpellChecker.getMorph(tWord[1])
    if not lMorph:
        echo("> not in dictionary")
        return True
    echo("TOKENS:", dTokenPos)
    if tWord[0] in dTokenPos and "lMorph" in dTokenPos[tWord[0]]:
        echo("DA: " + str(dTokenPos[tWord[0]]["lMorph"]))
    echo("FSA: " + str(lMorph))
    return True


def morph (dTokenPos, tWord, 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 not tWord:
        return bNoWord
    lMorph = dTokenPos[tWord[0]]["lMorph"]  if tWord[0] in dTokenPos and "lMorph" in dTokenPos[tWord[0]]  else _oSpellChecker.getMorph(tWord[1])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


def analyse (sWord, sPattern, sNegPattern=""):
    "analyse a word, returns True if not sNegPattern in word morphologies and sPattern in word morphologies (disambiguation off)"
    lMorph = _oSpellChecker.getMorph(sWord)
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


#### Analyse tokens for graph rules

def g_value (dToken, sValues, nLeft=None, nRight=None):
    "test if <dToken['sValue']> is in sValues (each value should be separated with |)"
    sValue = "|"+dToken["sValue"]+"|"  if nLeft is None  else "|"+dToken["sValue"][slice(nLeft, nRight)]+"|"
    if sValue in sValues:
        return True
    if dToken["sValue"][0:2].istitle(): # we test only 2 first chars, to make valid words such as "Laissez-les", "Passe-partout".
        if sValue.lower() in sValues:
            return True
    elif dToken["sValue"].isupper():
        #if sValue.lower() in sValues:
        #    return True
        sValue = "|"+sValue[1:].capitalize()
        if sValue in sValues:
            return True
        sValue = sValue.lower()
        if sValue in sValues:
            return True
    return False


def g_morph (dToken, sPattern, sNegPattern="", nLeft=None, nRight=None, bMemorizeMorph=True):
    "analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies"
    if "lMorph" in dToken:
        lMorph = dToken["lMorph"]
    else:
        if nLeft is not None:
            lMorph = _oSpellChecker.getMorph(dToken["sValue"][slice(nLeft, nRight)])
            if bMemorizeMorph:
                dToken["lMorph"] = lMorph
        else:
            lMorph = _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


def g_analyse (dToken, sPattern, sNegPattern="", nLeft=None, nRight=None, bMemorizeMorph=True):
    "analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies (disambiguation off)"
    if nLeft is not None:
        lMorph = _oSpellChecker.getMorph(dToken["sValue"][slice(nLeft, nRight)])
        if bMemorizeMorph:
            dToken["lMorph"] = lMorph
    else:
        lMorph = _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


def 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)"
    lMorph = _oSpellChecker.getMorph(dToken1["sValue"] + cMerger + dToken2["sValue"])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            bResult = all(zPattern.search(sMorph)  for sMorph in lMorph)
            if bResult and bSetMorph:
                dToken1["lMorph"] = lMorph
            return bResult
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    bResult = any(zPattern.search(sMorph)  for sMorph in lMorph)
    if bResult and bSetMorph:
        dToken1["lMorph"] = lMorph
    return bResult


def g_tag_before (dToken, dTags, sTag):
    "returns True if <sTag> is present on tokens before <dToken>"
    if sTag not in dTags:
        return False
    if dToken["i"] > dTags[sTag][0]:
        return True
    return False


def g_tag_after (dToken, dTags, sTag):
    "returns True if <sTag> is present on tokens after <dToken>"
    if sTag not in dTags:
        return False
    if dToken["i"] < dTags[sTag][1]:
        return True
    return False


def g_tag (dToken, sTag):
    "returns True if <sTag> is present on token <dToken>"
    return "aTags" in dToken and sTag in dToken["aTags"]


def g_meta (dToken, sType):
    "returns True if <sType> is equal to the token type"
    return dToken["sType"] == sType


def g_space_between_tokens (dToken1, dToken2, nMin, nMax=None):
    "checks if spaces between tokens is >= <nMin> and <= <nMax>"
    nSpace = dToken2["nStart"] - dToken1["nEnd"]
    if nSpace < nMin:
        return False
    if nMax is not None and nSpace > nMax:
        return False
    return True


def g_token (lToken, i):
    "return token at index <i> in lToken (or the closest one)"
    if i < 0:
        return lToken[0]
    if i >= len(lToken):
        return lToken[-1]
    return lToken[i]



#### Disambiguator for regex rules

def select (dTokenPos, nPos, sWord, sPattern, lDefault=None):
    "Disambiguation: select morphologies of <sWord> matching <sPattern>"
    if not sWord:
        return True
    if nPos not in dTokenPos:
        echo("Error. There should be a token at this position: ", nPos)
        return True
    lMorph = _oSpellChecker.getMorph(sWord)
    if not lMorph or len(lMorph) == 1:
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dTokenPos[nPos]["lMorph"] = lSelect
    elif lDefault:
        dTokenPos[nPos]["lMorph"] = lDefault
    return True


def exclude (dTokenPos, nPos, sWord, sPattern, lDefault=None):
    "Disambiguation: exclude morphologies of <sWord> matching <sPattern>"
    if not sWord:
        return True
    if nPos not in dTokenPos:
        echo("Error. There should be a token at this position: ", nPos)
        return True
    lMorph = _oSpellChecker.getMorph(sWord)
    if not lMorph or len(lMorph) == 1:
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if not re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dTokenPos[nPos]["lMorph"] = lSelect
    elif lDefault:
        dTokenPos[nPos]["lMorph"] = lDefault
    return True


def define (dTokenPos, nPos, lMorph):
    "Disambiguation: set morphologies of token at <nPos> with <lMorph>"
    if nPos not in dTokenPos:
        echo("Error. There should be a token at this position: ", nPos)
        return True
    dTokenPos[nPos]["lMorph"] = lMorph
    return True


#### Disambiguation for graph rules

def g_select (dToken, sPattern, lDefault=None):
    "Disambiguation: select morphologies for <dToken> according to <sPattern>, always return True"
    lMorph = dToken["lMorph"]  if "lMorph" in dToken  else _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph or len(lMorph) == 1:
        if lDefault:
            dToken["lMorph"] = lDefault
            #echo("DA:", dToken["sValue"], dToken["lMorph"])
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dToken["lMorph"] = lSelect
    elif lDefault:
        dToken["lMorph"] = lDefault
    #echo("DA:", dToken["sValue"], dToken["lMorph"])
    return True


def g_exclude (dToken, sPattern, lDefault=None):
    "Disambiguation: select morphologies for <dToken> according to <sPattern>, always return True"
    lMorph = dToken["lMorph"]  if "lMorph" in dToken  else _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph or len(lMorph) == 1:
        if lDefault:
            dToken["lMorph"] = lDefault
            #echo("DA:", dToken["sValue"], dToken["lMorph"])
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if not re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dToken["lMorph"] = lSelect
    elif lDefault:
        dToken["lMorph"] = lDefault
    #echo("DA:", dToken["sValue"], dToken["lMorph"])
    return True


def g_add_morph (dToken, lNewMorph):
    "Disambiguation: add a morphology to a token"
    lMorph = dToken["lMorph"]  if "lMorph" in dToken  else _oSpellChecker.getMorph(dToken["sValue"])
    lMorph.extend(lNewMorph)
    dToken["lMorph"] = lMorph
    return True


def g_define (dToken, lMorph):
    "Disambiguation: set morphologies of <dToken>, always return True"
    dToken["lMorph"] = lMorph
    #echo("DA:", dToken["sValue"], lMorph)
    return True


def g_define_from (dToken, nLeft=None, nRight=None):
    "Disambiguation: set morphologies of <dToken> with slicing its value with <nLeft> and <nRight>"
    if nLeft is not None:
        dToken["lMorph"] = _oSpellChecker.getMorph(dToken["sValue"][slice(nLeft, nRight)])
    else:
        dToken["lMorph"] = _oSpellChecker.getMorph(dToken["sValue"])
    return True


def g_change_meta (dToken, sType):
    "Disambiguation: change type of token"
    dToken["sType"] = sType
    return True



#### GRAMMAR CHECKER PLUGINS

${plugins}


#### CALLABLES FOR REGEX RULES (generated code)

${callables}


#### CALLABLES FOR GRAPH RULES (generated code)

${graph_callables}







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                except KeyError:
                    echo(self)
                    echo(dToken)
        if bDebug:
            echo("  TEXT REWRITED: " + self.sSentence)
        self.lToken.clear()
        self.lToken = lNewToken





















































































































































































































































































































































































































Added gc_core/py/lang_core/gc_engine_func.py version [059237a0d9].























































































































































































































































































































































































































































































































































































































































































































































































































































































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"""
Grammar checking functions
"""

# generated code, do not edit
# source: gc_core/py/lang_core/gc_engine_func.py

import re

from . import gc_options
from ..graphspell.echo import echo


_sAppContext = "Python"         # what software is running
_oSpellChecker = None


def load (sContext, oSpellChecker):
    global _sAppContext
    global _oSpellChecker
    _sAppContext = sContext
    _oSpellChecker = oSpellChecker


#### common functions

def option (sOpt):
    "return True if option <sOpt> is active"
    return gc_options.dOptions.get(sOpt, False)


#### Functions to get text outside pattern scope

# warning: check compile_rules.py to understand how it works

_zNextWord = re.compile(r" +(\w[\w-]*)")
_zPrevWord = re.compile(r"(\w[\w-]*) +$")

def nextword (s, iStart, n):
    "get the nth word of the input string or empty string"
    m = re.match("(?: +[\\w%-]+){" + str(n-1) + "} +([\\w%-]+)", s[iStart:])
    if not m:
        return None
    return (iStart+m.start(1), m.group(1))


def prevword (s, iEnd, n):
    "get the (-)nth word of the input string or empty string"
    m = re.search("([\\w%-]+) +(?:[\\w%-]+ +){" + str(n-1) + "}$", s[:iEnd])
    if not m:
        return None
    return (m.start(1), m.group(1))


def nextword1 (s, iStart):
    "get next word (optimization)"
    m = _zNextWord.match(s[iStart:])
    if not m:
        return None
    return (iStart+m.start(1), m.group(1))


def prevword1 (s, iEnd):
    "get previous word (optimization)"
    m = _zPrevWord.search(s[:iEnd])
    if not m:
        return None
    return (m.start(1), m.group(1))


def look (s, sPattern, sNegPattern=None):
    "seek sPattern in s (before/after/fulltext), if sNegPattern not in s"
    if sNegPattern and re.search(sNegPattern, s):
        return False
    if re.search(sPattern, s):
        return True
    return False


def look_chk1 (dTokenPos, s, nOffset, sPattern, sPatternGroup1, sNegPatternGroup1=""):
    "returns True if s has pattern sPattern and m.group(1) has pattern sPatternGroup1"
    m = re.search(sPattern, s)
    if not m:
        return False
    try:
        sWord = m.group(1)
        nPos = m.start(1) + nOffset
    except IndexError:
        return False
    return morph(dTokenPos, (nPos, sWord), sPatternGroup1, sNegPatternGroup1)



#### Analyse groups for regex rules

def displayInfo (dTokenPos, tWord):
    "for debugging: retrieve info of word"
    if not tWord:
        print("> nothing to find")
        return True
    lMorph = _oSpellChecker.getMorph(tWord[1])
    if not lMorph:
        print("> not in dictionary")
        return True
    print("TOKENS:", dTokenPos)
    if tWord[0] in dTokenPos and "lMorph" in dTokenPos[tWord[0]]:
        print("DA: " + str(dTokenPos[tWord[0]]["lMorph"]))
    print("FSA: " + str(lMorph))
    return True


def morph (dTokenPos, tWord, 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 not tWord:
        return bNoWord
    lMorph = dTokenPos[tWord[0]]["lMorph"]  if tWord[0] in dTokenPos and "lMorph" in dTokenPos[tWord[0]]  else _oSpellChecker.getMorph(tWord[1])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


def analyse (sWord, sPattern, sNegPattern=""):
    "analyse a word, returns True if not sNegPattern in word morphologies and sPattern in word morphologies (disambiguation off)"
    lMorph = _oSpellChecker.getMorph(sWord)
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


#### Analyse tokens for graph rules

def g_value (dToken, sValues, nLeft=None, nRight=None):
    "test if <dToken['sValue']> is in sValues (each value should be separated with |)"
    sValue = "|"+dToken["sValue"]+"|"  if nLeft is None  else "|"+dToken["sValue"][slice(nLeft, nRight)]+"|"
    if sValue in sValues:
        return True
    if dToken["sValue"][0:2].istitle(): # we test only 2 first chars, to make valid words such as "Laissez-les", "Passe-partout".
        if sValue.lower() in sValues:
            return True
    elif dToken["sValue"].isupper():
        #if sValue.lower() in sValues:
        #    return True
        sValue = "|"+sValue[1:].capitalize()
        if sValue in sValues:
            return True
        sValue = sValue.lower()
        if sValue in sValues:
            return True
    return False


def g_morph (dToken, sPattern, sNegPattern="", nLeft=None, nRight=None, bMemorizeMorph=True):
    "analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies"
    if "lMorph" in dToken:
        lMorph = dToken["lMorph"]
    else:
        if nLeft is not None:
            lMorph = _oSpellChecker.getMorph(dToken["sValue"][slice(nLeft, nRight)])
            if bMemorizeMorph:
                dToken["lMorph"] = lMorph
        else:
            lMorph = _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


def g_analyse (dToken, sPattern, sNegPattern="", nLeft=None, nRight=None, bMemorizeMorph=True):
    "analyse a token, return True if <sNegPattern> not in morphologies and <sPattern> in morphologies (disambiguation off)"
    if nLeft is not None:
        lMorph = _oSpellChecker.getMorph(dToken["sValue"][slice(nLeft, nRight)])
        if bMemorizeMorph:
            dToken["lMorph"] = lMorph
    else:
        lMorph = _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            return all(zPattern.search(sMorph)  for sMorph in lMorph)
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    return any(zPattern.search(sMorph)  for sMorph in lMorph)


def 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)"
    lMorph = _oSpellChecker.getMorph(dToken1["sValue"] + cMerger + dToken2["sValue"])
    if not lMorph:
        return False
    # check negative condition
    if sNegPattern:
        if sNegPattern == "*":
            # all morph must match sPattern
            zPattern = re.compile(sPattern)
            bResult = all(zPattern.search(sMorph)  for sMorph in lMorph)
            if bResult and bSetMorph:
                dToken1["lMorph"] = lMorph
            return bResult
        zNegPattern = re.compile(sNegPattern)
        if any(zNegPattern.search(sMorph)  for sMorph in lMorph):
            return False
    # search sPattern
    zPattern = re.compile(sPattern)
    bResult = any(zPattern.search(sMorph)  for sMorph in lMorph)
    if bResult and bSetMorph:
        dToken1["lMorph"] = lMorph
    return bResult


def g_tag_before (dToken, dTags, sTag):
    "returns True if <sTag> is present on tokens before <dToken>"
    if sTag not in dTags:
        return False
    if dToken["i"] > dTags[sTag][0]:
        return True
    return False


def g_tag_after (dToken, dTags, sTag):
    "returns True if <sTag> is present on tokens after <dToken>"
    if sTag not in dTags:
        return False
    if dToken["i"] < dTags[sTag][1]:
        return True
    return False


def g_tag (dToken, sTag):
    "returns True if <sTag> is present on token <dToken>"
    return "aTags" in dToken and sTag in dToken["aTags"]


def g_meta (dToken, sType):
    "returns True if <sType> is equal to the token type"
    return dToken["sType"] == sType


def g_space_between_tokens (dToken1, dToken2, nMin, nMax=None):
    "checks if spaces between tokens is >= <nMin> and <= <nMax>"
    nSpace = dToken2["nStart"] - dToken1["nEnd"]
    if nSpace < nMin:
        return False
    if nMax is not None and nSpace > nMax:
        return False
    return True


def g_token (lToken, i):
    "return token at index <i> in lToken (or the closest one)"
    if i < 0:
        return lToken[0]
    if i >= len(lToken):
        return lToken[-1]
    return lToken[i]



#### Disambiguator for regex rules

def select (dTokenPos, nPos, sWord, sPattern, lDefault=None):
    "Disambiguation: select morphologies of <sWord> matching <sPattern>"
    if not sWord:
        return True
    if nPos not in dTokenPos:
        print("Error. There should be a token at this position: ", nPos)
        return True
    lMorph = _oSpellChecker.getMorph(sWord)
    if not lMorph or len(lMorph) == 1:
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dTokenPos[nPos]["lMorph"] = lSelect
    elif lDefault:
        dTokenPos[nPos]["lMorph"] = lDefault
    return True


def exclude (dTokenPos, nPos, sWord, sPattern, lDefault=None):
    "Disambiguation: exclude morphologies of <sWord> matching <sPattern>"
    if not sWord:
        return True
    if nPos not in dTokenPos:
        print("Error. There should be a token at this position: ", nPos)
        return True
    lMorph = _oSpellChecker.getMorph(sWord)
    if not lMorph or len(lMorph) == 1:
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if not re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dTokenPos[nPos]["lMorph"] = lSelect
    elif lDefault:
        dTokenPos[nPos]["lMorph"] = lDefault
    return True


def define (dTokenPos, nPos, lMorph):
    "Disambiguation: set morphologies of token at <nPos> with <lMorph>"
    if nPos not in dTokenPos:
        print("Error. There should be a token at this position: ", nPos)
        return True
    dTokenPos[nPos]["lMorph"] = lMorph
    return True


#### Disambiguation for graph rules

def g_select (dToken, sPattern, lDefault=None):
    "Disambiguation: select morphologies for <dToken> according to <sPattern>, always return True"
    lMorph = dToken["lMorph"]  if "lMorph" in dToken  else _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph or len(lMorph) == 1:
        if lDefault:
            dToken["lMorph"] = lDefault
            #print("DA:", dToken["sValue"], dToken["lMorph"])
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dToken["lMorph"] = lSelect
    elif lDefault:
        dToken["lMorph"] = lDefault
    #print("DA:", dToken["sValue"], dToken["lMorph"])
    return True


def g_exclude (dToken, sPattern, lDefault=None):
    "Disambiguation: select morphologies for <dToken> according to <sPattern>, always return True"
    lMorph = dToken["lMorph"]  if "lMorph" in dToken  else _oSpellChecker.getMorph(dToken["sValue"])
    if not lMorph or len(lMorph) == 1:
        if lDefault:
            dToken["lMorph"] = lDefault
            #print("DA:", dToken["sValue"], dToken["lMorph"])
        return True
    lSelect = [ sMorph  for sMorph in lMorph  if not re.search(sPattern, sMorph) ]
    if lSelect:
        if len(lSelect) != len(lMorph):
            dToken["lMorph"] = lSelect
    elif lDefault:
        dToken["lMorph"] = lDefault
    #print("DA:", dToken["sValue"], dToken["lMorph"])
    return True


def g_add_morph (dToken, lNewMorph):
    "Disambiguation: add a morphology to a token"
    lMorph = dToken["lMorph"]  if "lMorph" in dToken  else _oSpellChecker.getMorph(dToken["sValue"])
    lMorph.extend(lNewMorph)
    dToken["lMorph"] = lMorph
    return True


def g_define (dToken, lMorph):
    "Disambiguation: set morphologies of <dToken>, always return True"
    dToken["lMorph"] = lMorph
    #print("DA:", dToken["sValue"], lMorph)
    return True


def g_define_from (dToken, nLeft=None, nRight=None):
    "Disambiguation: set morphologies of <dToken> with slicing its value with <nLeft> and <nRight>"
    if nLeft is not None:
        dToken["lMorph"] = _oSpellChecker.getMorph(dToken["sValue"][slice(nLeft, nRight)])
    else:
        dToken["lMorph"] = _oSpellChecker.getMorph(dToken["sValue"])
    return True


def g_change_meta (dToken, sType):
    "Disambiguation: change type of token"
    dToken["sType"] = sType
    return True



#### GRAMMAR CHECKER PLUGINS

${plugins}


#### CALLABLES FOR REGEX RULES (generated code)

${callables}


#### CALLABLES FOR GRAPH RULES (generated code)

${graph_callables}

Modified gc_core/py/lang_core/gc_options.py from [b668596de4] to [4cbd062c46].

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"""
Grammar checker default options
"""

# generated code, do not edit


import traceback



























def getUI (sLang):


















    "returns dictionary of UI labels"
    if sLang in _dOptLabel:
        return _dOptLabel[sLang]
    return _dOptLabel["fr"]


def getOptions (sContext="Python"):
    "returns dictionary of options"


    if sContext in _dOpt:
        return _dOpt[sContext]
    return _dOpt["Python"]


def getOptionsColors (sTheme="Default", sColorType="aRGB"):
    "returns dictionary of options colors"
    dOptColor = _dOptColor[sTheme]  if sTheme in _dOptColor  else  _dOptColor["Default"]
    dColorType = _dColorType[sColorType]  if sColorType in _dColorType  else _dColorType["aRGB"]
    try:
        return {  sOpt: dColorType[sColor] for sOpt, sColor in dOptColor.items() }
    except KeyError:
        traceback.print_exc()
        return {}


lStructOpt = ${lStructOpt}


_dOpt = {
    "Python": ${dOptPython},
    "Server": ${dOptServer},
    "Writer": ${dOptWriter}
}

_dColorType= ${dColorType}






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"""
Grammar checker default options
"""

# generated code, do not edit
# source: gc_core/py/lang_core/gc_options.py

import traceback


dOptions = {}

_sAppContext = "Python"


def load (sContext="Python"):
    global dOptions
    global _sAppContext
    _sAppContext = sContext
    dOptions = getDefaultOptions(sContext)


def setOption (sOpt, bVal):
    "set option <sOpt> with <bVal> if it exists"
    if sOpt in dOptions:
        dOptions[sOpt] = bVal


def setOptions (dOpt):
    "update the dictionary of options with <dOpt>, only known options are updated"
    for sKey, bVal in dOpt.items():
        if sKey in dOptions:
            dOptions[sKey] = bVal


def getOptions ():
    "return a copy of options as dictionary"
    return dOptions.copy()


def resetOptions ():
    "set options to default values"
    global dOptions
    dOptions = getDefaultOptions()


def displayOptions (sLang="${lang}"):
    "display the list of grammar checking options"
    print("Options:")
    print("\n".join( [ k+":\t"+str(v)+"\t"+getOptionLabels(sLang).get(k, ("?", ""))[0]  for k, v  in sorted(dOptions.items()) ] ))
    print("")


def getOptionLabels (sLang="${sLang}"):
    "returns dictionary of UI labels"
    if sLang in _dOptLabel:
        return _dOptLabel[sLang]
    return _dOptLabel["${sLang}"]


def getDefaultOptions (sContext=""):
    "returns dictionary of options"
    if not sContext:
        sContext = _sAppContext
    if sContext in _dDefaultOpt:
        return _dDefaultOpt[sContext].copy()    # duplication necessary, to be able to reset to default
    return _dDefaultOpt["Python"].copy()        # duplication necessary, to be able to reset to default


def getOptionsColors (sTheme="Default", sColorType="aRGB"):
    "returns dictionary of options colors"
    dOptColor = _dOptColor[sTheme]  if sTheme in _dOptColor  else  _dOptColor["Default"]
    dColorType = _dColorType[sColorType]  if sColorType in _dColorType  else _dColorType["aRGB"]
    try:
        return { sOpt: dColorType[sColor] for sOpt, sColor in dOptColor.items() }
    except KeyError:
        traceback.print_exc()
        return {}


lStructOpt = ${lStructOpt}


_dDefaultOpt = {
    "Python": ${dOptPython},
    "Server": ${dOptServer},
    "Writer": ${dOptWriter}
}

_dColorType= ${dColorType}

Modified gc_core/py/oxt/Grammalecte.py from [d7f4535da4] to [9c6625ba22].

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from com.sun.star.linguistic2 import XProofreader, XSupportedLocales
from com.sun.star.linguistic2 import ProofreadingResult
from com.sun.star.lang import XServiceInfo, XServiceName, XServiceDisplayName
from com.sun.star.lang import Locale

import helpers
import grammalecte.${lang} as gce
#import lightproof_handler_${implname} as opt_handler
import Options


class Grammalecte (unohelper.Base, XProofreader, XServiceInfo, XServiceName, XServiceDisplayName, XSupportedLocales):

    def __init__ (self, ctx, *args):
        self.ctx = ctx
        self.ServiceName = "com.sun.star.linguistic2.Proofreader"
        self.ImplementationName = "org.openoffice.comp.pyuno.Lightproof." + gce.pkg
        self.SupportedServiceNames = (self.ServiceName, )
        self.locales = []
        for i in gce.locales:
            l = gce.locales[i]
            self.locales.append(Locale(l[0], l[1], l[2]))
        self.locales = tuple(self.locales)
        # debug
        #helpers.startConsole()
        # init
        gce.load("Writer", "nInt")
        # GC options
        #xContext = uno.getComponentContext()
        #opt_handler.load(xContext)
        dOpt = Options.loadOptions("${lang}")
        gce.setOptions(dOpt)
        # dictionaries options
        self.loadUserDictionaries()
        # underlining options
        self.setWriterUnderliningStyle()
        # store for results of big paragraphs
        self.dResult = {}
        self.nMaxRes = 1500







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from com.sun.star.linguistic2 import XProofreader, XSupportedLocales
from com.sun.star.linguistic2 import ProofreadingResult
from com.sun.star.lang import XServiceInfo, XServiceName, XServiceDisplayName
from com.sun.star.lang import Locale

import helpers
import grammalecte.${lang} as gc_engine
#import lightproof_handler_${implname} as opt_handler
import Options


class Grammalecte (unohelper.Base, XProofreader, XServiceInfo, XServiceName, XServiceDisplayName, XSupportedLocales):

    def __init__ (self, ctx, *args):
        self.ctx = ctx
        self.ServiceName = "com.sun.star.linguistic2.Proofreader"
        self.ImplementationName = "org.openoffice.comp.pyuno.Lightproof." + gc_engine.pkg
        self.SupportedServiceNames = (self.ServiceName, )
        self.locales = []
        for i in gc_engine.locales:
            l = gc_engine.locales[i]
            self.locales.append(Locale(l[0], l[1], l[2]))
        self.locales = tuple(self.locales)
        # debug
        #helpers.startConsole()
        # init
        gc_engine.load("Writer", "nInt")
        # GC options
        #xContext = uno.getComponentContext()
        #opt_handler.load(xContext)
        dOpt = Options.loadOptions("${lang}")
        gc_engine.gc_options.setOptions(dOpt)
        # dictionaries options
        self.loadUserDictionaries()
        # underlining options
        self.setWriterUnderliningStyle()
        # store for results of big paragraphs
        self.dResult = {}
        self.nMaxRes = 1500
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            if nHashedVal in self.dResult:
                return self.dResult[nHashedVal]
        # WORKAROUND ->>>

        xRes.nBehindEndOfSentencePosition = xRes.nStartOfNextSentencePosition

        try:
            xRes.aErrors = tuple(gce.parse(rText, rLocale.Country))
            # ->>> WORKAROUND
            if xRes.nStartOfNextSentencePosition > 3000:
                self.dResult[nHashedVal] = xRes
                self.nRes += 1
                if self.nRes > self.nMaxRes:
                    del self.dResult[self.lLastRes.popleft()]
                    self.nRes = self.nMaxRes
                self.lLastRes.append(nHashedVal)
            # END OF WORKAROUND
        except:
            traceback.print_exc()
        return xRes

    def ignoreRule (self, rid, aLocale):
        gce.ignoreRule(rid)

    def resetIgnoreRules (self):
        gce.resetIgnoreRules()

    # XServiceDisplayName
    def getServiceDisplayName (self, aLocale):
        return gce.name

    # Grammalecte
    def getSpellChecker (self):
        return gce.getSpellChecker()

    def loadUserDictionaries (self):
        try:
            xSettingNode = helpers.getConfigSetting("/org.openoffice.Lightproof_${implname}/Other/", False)
            xChild = xSettingNode.getByName("o_${lang}")
            if xChild.getPropertyValue("use_personal_dic"):
                sJSON = xChild.getPropertyValue("personal_dic")
                if sJSON:
                    oSpellChecker = gce.getSpellChecker();
                    oSpellChecker.setPersonalDictionary(json.loads(sJSON))
        except:
            traceback.print_exc()

    def setWriterUnderliningStyle (self):
        try:
            xSettingNode = helpers.getConfigSetting("/org.openoffice.Lightproof_${implname}/Other/", False)
            xChild = xSettingNode.getByName("o_${lang}")
            sLineType = xChild.getPropertyValue("line_type")
            bMulticolor = bool(xChild.getPropertyValue("line_multicolor"))
            gce.setWriterUnderliningStyle(sLineType, bMulticolor)
        except:
            traceback.print_exc()


g_ImplementationHelper = unohelper.ImplementationHelper()
g_ImplementationHelper.addImplementation(Grammalecte, "org.openoffice.comp.pyuno.Lightproof."+gce.pkg, ("com.sun.star.linguistic2.Proofreader",),)

# g_ImplementationHelper.addImplementation( opt_handler.LightproofOptionsEventHandler, \
#     "org.openoffice.comp.pyuno.LightproofOptionsEventHandler." + gce.pkg, ("com.sun.star.awt.XContainerWindowEventHandler",),)







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            if nHashedVal in self.dResult:
                return self.dResult[nHashedVal]
        # WORKAROUND ->>>

        xRes.nBehindEndOfSentencePosition = xRes.nStartOfNextSentencePosition

        try:
            xRes.aErrors = tuple(gc_engine.parse(rText, rLocale.Country))
            # ->>> WORKAROUND
            if xRes.nStartOfNextSentencePosition > 3000:
                self.dResult[nHashedVal] = xRes
                self.nRes += 1
                if self.nRes > self.nMaxRes:
                    del self.dResult[self.lLastRes.popleft()]
                    self.nRes = self.nMaxRes
                self.lLastRes.append(nHashedVal)
            # END OF WORKAROUND
        except:
            traceback.print_exc()
        return xRes

    def ignoreRule (self, rid, aLocale):
        gc_engine.ignoreRule(rid)

    def resetIgnoreRules (self):
        gc_engine.resetIgnoreRules()

    # XServiceDisplayName
    def getServiceDisplayName (self, aLocale):
        return gc_engine.name

    # Grammalecte
    def getSpellChecker (self):
        return gc_engine.getSpellChecker()

    def loadUserDictionaries (self):
        try:
            xSettingNode = helpers.getConfigSetting("/org.openoffice.Lightproof_${implname}/Other/", False)
            xChild = xSettingNode.getByName("o_${lang}")
            if xChild.getPropertyValue("use_personal_dic"):
                sJSON = xChild.getPropertyValue("personal_dic")
                if sJSON:
                    oSpellChecker = gc_engine.getSpellChecker();
                    oSpellChecker.setPersonalDictionary(json.loads(sJSON))
        except:
            traceback.print_exc()

    def setWriterUnderliningStyle (self):
        try:
            xSettingNode = helpers.getConfigSetting("/org.openoffice.Lightproof_${implname}/Other/", False)
            xChild = xSettingNode.getByName("o_${lang}")
            sLineType = xChild.getPropertyValue("line_type")
            bMulticolor = bool(xChild.getPropertyValue("line_multicolor"))
            gc_engine.setWriterUnderliningStyle(sLineType, bMulticolor)
        except:
            traceback.print_exc()


g_ImplementationHelper = unohelper.ImplementationHelper()
g_ImplementationHelper.addImplementation(Grammalecte, "org.openoffice.comp.pyuno.Lightproof."+gc_engine.pkg, ("com.sun.star.linguistic2.Proofreader",),)

# g_ImplementationHelper.addImplementation( opt_handler.LightproofOptionsEventHandler, \
#     "org.openoffice.comp.pyuno.LightproofOptionsEventHandler." + gc_engine.pkg, ("com.sun.star.awt.XContainerWindowEventHandler",),)

Modified gc_core/py/oxt/Options.py from [3ed542ae4e] to [4ae6a22f71].

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from com.sun.star.awt import XActionListener
from com.sun.star.beans import PropertyValue

import helpers
import op_strings

try:
    import grammalecte.${lang} as gce
except:
    traceback.print_exc()


def loadOptions (sLang):
    "load options from Grammalecte and change them according to LibreOffice settings, returns a dictionary {option_name: boolean}"
    try:
        xNode = helpers.getConfigSetting("/org.openoffice.Lightproof_${implname}/Leaves", False)
        xChild = xNode.getByName(sLang)
        dOpt = gce.gc_options.getOptions("Writer")
        for sKey in dOpt:
            sValue = xChild.getPropertyValue(sKey)
            if sValue != '':
                dOpt[sKey] = bool(int(sValue))
        return dOpt
    except:
        print("# Error. Unable to load options of language:", sLang)
        traceback.print_exc()
        return gce.gc_options.getOptions("Writer")


def saveOptions (sLang, dOpt):
    "save options in LibreOffice profile"
    try:
        xNode = helpers.getConfigSetting("/org.openoffice.Lightproof_${implname}/Leaves", True)
        xChild = xNode.getByName(sLang)







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from com.sun.star.awt import XActionListener
from com.sun.star.beans import PropertyValue

import helpers
import op_strings

try:
    import grammalecte.${lang} as gc_engine
except:
    traceback.print_exc()


def loadOptions (sLang):
    "load options from Grammalecte and change them according to LibreOffice settings, returns a dictionary {option_name: boolean}"
    try:
        xNode = helpers.getConfigSetting("/org.openoffice.Lightproof_${implname}/Leaves", False)
        xChild = xNode.getByName(sLang)
        dOpt = gc_engine.gc_options.getDefaultOptions("Writer")
        for sKey in dOpt:
            sValue = xChild.getPropertyValue(sKey)
            if sValue != '':
                dOpt[sKey] = bool(int(sValue))
        return dOpt
    except:
        print("# Error. Unable to load options of language:", sLang)
        traceback.print_exc()
        return gc_engine.gc_options.getDefaultOptions("Writer")


def saveOptions (sLang, dOpt):
    "save options in LibreOffice profile"
    try:
        xNode = helpers.getConfigSetting("/org.openoffice.Lightproof_${implname}/Leaves", True)
        xChild = xNode.getByName(sLang)
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            setattr(xWidget, k, w)
        self.xDialog.insertByName(name, xWidget)
        return xWidget

    def run (self, sUI):
        try:
            dUI = op_strings.getUI(sUI)
            dOptionUI = gce.gc_options.getUI(sUI)

            # fonts
            xFDTitle = uno.createUnoStruct("com.sun.star.awt.FontDescriptor")
            xFDTitle.Height = 9
            xFDTitle.Weight = uno.getConstantByName("com.sun.star.awt.FontWeight.BOLD")
            xFDTitle.Name = "Verdana"








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            setattr(xWidget, k, w)
        self.xDialog.insertByName(name, xWidget)
        return xWidget

    def run (self, sUI):
        try:
            dUI = op_strings.getUI(sUI)
            dOptionUI = gc_engine.gc_options.getOptionLabels(sUI)

            # fonts
            xFDTitle = uno.createUnoStruct("com.sun.star.awt.FontDescriptor")
            xFDTitle.Height = 9
            xFDTitle.Weight = uno.getConstantByName("com.sun.star.awt.FontWeight.BOLD")
            xFDTitle.Name = "Verdana"

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            nHeight = 10

            self.lOptionWidgets = []

            sProdName, sVersion = helpers.getProductNameAndVersion()
            if True:
                # no tab available (bug)
                for sOptionType, lOptions in gce.gc_options.lStructOpt:
                    x = 10
                    y += 10
                    self._addWidget(sOptionType, 'FixedLine', x, y, nWidth, nHeight, Label = dOptionUI.get(sOptionType, "#err")[0], FontDescriptor= xFDTitle)
                    y += 3
                    for lOptLine in lOptions:
                        x = 15
                        y += 10







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            nHeight = 10

            self.lOptionWidgets = []

            sProdName, sVersion = helpers.getProductNameAndVersion()
            if True:
                # no tab available (bug)
                for sOptionType, lOptions in gc_engine.gc_options.lStructOpt:
                    x = 10
                    y += 10
                    self._addWidget(sOptionType, 'FixedLine', x, y, nWidth, nHeight, Label = dOptionUI.get(sOptionType, "#err")[0], FontDescriptor= xFDTitle)
                    y += 3
                    for lOptLine in lOptions:
                        x = 15
                        y += 10
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        except:
            traceback.print_exc()

    # XActionListener
    def actionPerformed (self, xActionEvent):
        try:
            if xActionEvent.ActionCommand == 'Default':
                self._setWidgets(gce.gc_options.getOptions("Writer"))
            elif xActionEvent.ActionCommand == 'Apply':
                self._save("${lang}")
                self.xContainer.endExecute()
            elif xActionEvent.ActionCommand == 'Cancel':
                self.xContainer.endExecute()
            else:
                print("Wrong command: " + xActionEvent.ActionCommand)
        except:
            traceback.print_exc()

    # Other
    def _setWidgets (self, dOpt):
        for w in self.lOptionWidgets:
            w.State = dOpt.get(w.Name, False)

    def _save (self, sLang):
        try:
            saveOptions(sLang, { w.Name: str(w.State)  for w in self.lOptionWidgets })
            gce.setOptions({ w.Name: bool(w.State)  for w in self.lOptionWidgets })
        except:
            traceback.print_exc()







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        except:
            traceback.print_exc()

    # XActionListener
    def actionPerformed (self, xActionEvent):
        try:
            if xActionEvent.ActionCommand == 'Default':
                self._setWidgets(gc_engine.gc_options.getDefaultOptions("Writer"))
            elif xActionEvent.ActionCommand == 'Apply':
                self._save("${lang}")
                self.xContainer.endExecute()
            elif xActionEvent.ActionCommand == 'Cancel':
                self.xContainer.endExecute()
            else:
                print("Wrong command: " + xActionEvent.ActionCommand)
        except:
            traceback.print_exc()

    # Other
    def _setWidgets (self, dOpt):
        for w in self.lOptionWidgets:
            w.State = dOpt.get(w.Name, False)

    def _save (self, sLang):
        try:
            saveOptions(sLang, { w.Name: str(w.State)  for w in self.lOptionWidgets })
            gc_engine.gc_options.setOptions({ w.Name: bool(w.State)  for w in self.lOptionWidgets })
        except:
            traceback.print_exc()

Modified gc_lang/fr/config.ini from [142318e64f] to [e7bd0f921b].

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[args]
lang = fr
lang_name = French
locales = fr_FR fr_BE fr_CA fr_CH fr_LU fr_BF fr_BJ fr_CD fr_CI fr_CM fr_MA fr_ML fr_MU fr_NE fr_RE fr_SN fr_TG
country_default = FR
name = Grammalecte
implname = grammalecte
# always use 3 numbers for version: x.y.z
version = 1.9.0
author = Olivier R.
provider = Grammalecte.net
link = https://grammalecte.net
description = Correcteur grammatical, orthographique et typographique pour le français.
extras = README_fr.txt
logo = logo.png









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[args]
lang = fr
lang_name = French
locales = fr_FR fr_BE fr_CA fr_CH fr_LU fr_BF fr_BJ fr_CD fr_CI fr_CM fr_MA fr_ML fr_MU fr_NE fr_RE fr_SN fr_TG
country_default = FR
name = Grammalecte
implname = grammalecte
# always use 3 numbers for version: x.y.z
version = 2.0.0
author = Olivier R.
provider = Grammalecte.net
link = https://grammalecte.net
description = Correcteur grammatical, orthographique et typographique pour le français.
extras = README_fr.txt
logo = logo.png

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win_fx_nightly_path = C:\Program Files\Firefox Nightly\firefox.exe
linux_fx_dev_path = /usr/bin/firefox
linux_fx_nightly_path = /usr/bin/firefox

# Thunderbird
tb_identifier = French-GC-TB@grammalecte.net
tb_name = Grammalecte [fr]
win_tb_path = C:\Program Files (x86)\Mozilla Thunderbird\thunderbird.exe
win_tb_beta_path = C:\Program Files\Thunderbird Daily\thunderbird.exe
linux_tb_path = /usr/bin/thunderbird
linux_tb_beta_path = /usr/bin/thunderbird
# useless now
win_tb_debug_extension_path = D:\_temp\tb-debug.profile\extensions
linux_tb_debug_extension_path = ~/tb-debug.profile/extensions
win_tb_beta_extension_path = D:\_temp\tb-beta.profile\extensions







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win_fx_nightly_path = C:\Program Files\Firefox Nightly\firefox.exe
linux_fx_dev_path = /usr/bin/firefox
linux_fx_nightly_path = /usr/bin/firefox

# Thunderbird
tb_identifier = French-GC-TB@grammalecte.net
tb_name = Grammalecte [fr]
win_tb_path = C:\Program Files\Mozilla Thunderbird\thunderbird.exe
win_tb_beta_path = C:\Program Files\Thunderbird Daily\thunderbird.exe
linux_tb_path = /usr/bin/thunderbird
linux_tb_beta_path = /usr/bin/thunderbird
# useless now
win_tb_debug_extension_path = D:\_temp\tb-debug.profile\extensions
linux_tb_debug_extension_path = ~/tb-debug.profile/extensions
win_tb_beta_extension_path = D:\_temp\tb-beta.profile\extensions

Modified gc_lang/fr/mailext/worker/gce_worker.js from [abd0c9c4ba] to [82ae52c3f8].

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// JavaScript

// Grammar checker engine
// PromiseWorker
// This code is executed in a separate thread (×20 faster too!!!)

// Firefox WTF: it’s impossible to use require as in the main thread here,
// so it is required to declare a resource in the file “chrome.manifest”.


"use strict";

// copy/paste
// https://developer.mozilla.org/en-US/docs/Mozilla/JavaScript_code_modules/PromiseWorker.jsm





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// JavaScript

// Grammar checker engine
// PromiseWorker






"use strict";

// copy/paste
// https://developer.mozilla.org/en-US/docs/Mozilla/JavaScript_code_modules/PromiseWorker.jsm

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// Connect it to message port.
self.addEventListener("message", msg => worker.handleMessage(msg));

// end of copy/paste


// no console here, use “dump”

let gce = null; // module: grammar checker engine
let text = null;
let tkz = null; // module: tokenizer
let lxg = null; // module: lexicographer
let helpers = null;

let oTokenizer = null;
let oSpellChecker = null;
let oLxg = null;

function loadGrammarChecker (sGCOptions="", sContext="JavaScript") {
    if (gce === null) {
        try {

            gce = require("resource://grammalecte/fr/gc_engine.js");
            helpers = require("resource://grammalecte/graphspell/helpers.js");
            text = require("resource://grammalecte/text.js");
            tkz = require("resource://grammalecte/graphspell/tokenizer.js");
            //lxg = require("resource://grammalecte/fr/lexicographe.js");
            oTokenizer = new tkz.Tokenizer("fr");
            gce.load(sContext, "sCSS");
            oSpellChecker = gce.getSpellChecker();
            if (sGCOptions !== "") {

                gce.setOptions(helpers.objectToMap(JSON.parse(sGCOptions)));
            }
            // we always retrieve options from the gce, for setOptions filters obsolete options
            return gce.getOptions().gl_toString();
        }
        catch (e) {
            console.log("# Error: " + e.fileName + "\n" + e.name + "\nline: " + e.lineNumber + "\n" + e.message);
        }
    }
}








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// Connect it to message port.
self.addEventListener("message", msg => worker.handleMessage(msg));

// end of copy/paste



let gc_engine = null; // module: grammar checker engine
let gc_options = null; // module: grammar checker options
let text = null; // module: text

let lexgraph_fr = null; // module: lexicographer
let helpers = null;


let oSpellChecker = null;


function loadGrammarChecker (sGCOptions="", sContext="JavaScript") {
    if (gc_engine === null) {
        try {
            gc_options = require("resource://grammalecte/fr/gc_options.js");
            gc_engine = require("resource://grammalecte/fr/gc_engine.js");
            helpers = require("resource://grammalecte/graphspell/helpers.js");
            text = require("resource://grammalecte/text.js");
            //lexgraph_fr = require("resource://grammalecte/graphspell/lexgraph_fr.js");


            gc_engine.load(sContext, "sCSS");
            oSpellChecker = gc_engine.getSpellChecker();
            if (sGCOptions !== "") {
                console.log("set options:", sGCOptions);
                gc_options.setOptions(helpers.objectToMap(JSON.parse(sGCOptions)));
            }
            // we always retrieve options from the gc_engine, for setOptions filters obsolete options
            return gc_options.getOptions().gl_toString();
        }
        catch (e) {
            console.log("# Error: " + e.fileName + "\n" + e.name + "\nline: " + e.lineNumber + "\n" + e.message);
        }
    }
}

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    }
    catch (e) {
        console.error(e);
    }
}

function parse (sText, sCountry, bDebug, bContext) {
    let aGrammErr = gce.parse(sText, sCountry, bDebug, bContext);
    return JSON.stringify(aGrammErr);
}

function parseAndSpellcheck (sText, sCountry, bDebug, bContext) {
    let aGrammErr = gce.parse(sText, sCountry, bDebug, null, bContext);
    let aSpellErr = oSpellChecker.parseParagraph(sText);
    return JSON.stringify({ aGrammErr: aGrammErr, aSpellErr: aSpellErr });
}

function suggest (sWord, nSuggLimit=10) {
    let lSugg = []
    for (let aSugg of oSpellChecker.suggest(sWord, nSuggLimit)) {
        lSugg.push(...aSugg);
    }
    return lSugg.join("|");
}

function getOptions () {
    return gce.getOptions().gl_toString();
}

function getDefaultOptions () {
    return gce.getDefaultOptions().gl_toString();
}

function setOptions (sGCOptions) {
    gce.setOptions(helpers.objectToMap(JSON.parse(sGCOptions)));
    return gce.getOptions().gl_toString();
}

function setOption (sOptName, bValue) {
    gce.setOptions(new Map([ [sOptName, bValue] ]));
    return gce.getOptions().gl_toString();
}

function resetOptions () {
    gce.resetOptions();
    return gce.getOptions().gl_toString();
}

function fullTests (sGCOptions="") {
    if (!gce || !oSpellChecker) {
        return "# Error: grammar checker or dictionary not loaded."
    }
    let dMemoOptions = gce.getOptions();
    if (sGCOptions) {
        gce.setOptions(helpers.objectToMap(JSON.parse(sGCOptions)));
    }
    let tests = require("resource://grammalecte/tests.js");
    let oTest = new tests.TestGrammarChecking(gce);
    let sAllRes = "";
    for (let sRes of oTest.testParse()) {
        console.log(sRes+"\n");
        sAllRes += sRes+"\n";
    }
    gce.setOptions(dMemoOptions);
    return sAllRes;
}







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    }
    catch (e) {
        console.error(e);
    }
}

function parse (sText, sCountry, bDebug, bContext) {
    let aGrammErr = gc_engine.parse(sText, sCountry, bDebug, bContext);
    return JSON.stringify(aGrammErr);
}

function parseAndSpellcheck (sText, sCountry, bDebug, bContext) {
    let aGrammErr = gc_engine.parse(sText, sCountry, bDebug, null, bContext);
    let aSpellErr = oSpellChecker.parseParagraph(sText);
    return JSON.stringify({ aGrammErr: aGrammErr, aSpellErr: aSpellErr });
}

function suggest (sWord, nSuggLimit=10) {
    let lSugg = []
    for (let aSugg of oSpellChecker.suggest(sWord, nSuggLimit)) {
        lSugg.push(...aSugg);
    }
    return lSugg.join("|");
}

function getOptions () {
    return gc_options.getOptions().gl_toString();
}

function getDefaultOptions () {
    return gc_options.getDefaultOptions().gl_toString();
}

function setOptions (sGCOptions) {
    gc_options.setOptions(helpers.objectToMap(JSON.parse(sGCOptions)));
    return gc_options.getOptions().gl_toString();
}

function setOption (sOptName, bValue) {
    gc_options.setOptions(new Map([ [sOptName, bValue] ]));
    return gc_options.getOptions().gl_toString();
}

function resetOptions () {
    gc_options.resetOptions();
    return gc_options.getOptions().gl_toString();
}

function fullTests (sGCOptions="") {
    if (!gc_engine || !oSpellChecker || !gc_options) {
        return "# Error: grammar checker or dictionary not loaded."
    }
    let dMemoOptions = gc_options.getOptions();
    if (sGCOptions) {
        gc_options.setOptions(helpers.objectToMap(JSON.parse(sGCOptions)));
    }
    let tests = require("resource://grammalecte/tests.js");
    let oTest = new tests.TestGrammarChecking(gc_engine, gc_options);
    let sAllRes = "";
    for (let sRes of oTest.testParse()) {
        console.log(sRes+"\n");
        sAllRes += sRes+"\n";
    }
    gc_options.setOptions(dMemoOptions);
    return sAllRes;
}

Deleted gc_lang/fr/modules-js/lexicographe.js version [ff079a1504].

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// Grammalecte - Lexicographe
// License: MPL 2

/* jshint esversion:6, -W097 */
/* jslint esversion:6 */
/* global require, exports, console */

"use strict";

${string}
${map}


const _dTag = new Map([
    [':N', [" nom,", "Nom"]],
    [':A', [" adjectif,", "Adjectif"]],
    [':M1', [" prénom,", "Prénom"]],
    [':M2', [" patronyme,", "Patronyme, matronyme, nom de famille…"]],
    [':MP', [" nom propre,", "Nom propre"]],
    [':W', [" adverbe,", "Adverbe"]],
    [':J', [" interjection,", "Interjection"]],
    [':B', [" nombre,", "Nombre"]],
    [':T', [" titre,", "Titre de civilité"]],

    [':e', [" épicène", "épicène"]],
    [':m', [" masculin", "masculin"]],
    [':f', [" féminin", "féminin"]],
    [':s', [" singulier", "singulier"]],
    [':p', [" pluriel", "pluriel"]],
    [':i', [" invariable", "invariable"]],

    [':V1', [" verbe (1ᵉʳ gr.),", "Verbe du 1ᵉʳ groupe"]],
    [':V2', [" verbe (2ᵉ gr.),", "Verbe du 2ᵉ groupe"]],
    [':V3', [" verbe (3ᵉ gr.),", "Verbe du 3ᵉ groupe"]],
    [':V0e', [" verbe,", "Verbe auxiliaire être"]],
    [':V0a', [" verbe,", "Verbe auxiliaire avoir"]],

    [':Y', [" infinitif,", "infinitif"]],
    [':P', [" participe présent,", "participe présent"]],
    [':Q', [" participe passé,", "participe passé"]],
    [':Ip', [" présent,", "indicatif présent"]],
    [':Iq', [" imparfait,", "indicatif imparfait"]],
    [':Is', [" passé simple,", "indicatif passé simple"]],
    [':If', [" futur,", "indicatif futur"]],
    [':K', [" conditionnel présent,", "conditionnel présent"]],
    [':Sp', [" subjonctif présent,", "subjonctif présent"]],
    [':Sq', [" subjonctif imparfait,", "subjonctif imparfait"]],
    [':E', [" impératif,", "impératif"]],

    [':1s', [" 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier"]],
    [':1ŝ', [" présent interr. 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier (présent interrogatif)"]],
    [':1ś', [" présent interr. 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier (présent interrogatif)"]],
    [':2s', [" 2ᵉ p. sg.,", "verbe : 2ᵉ personne du singulier"]],
    [':3s', [" 3ᵉ p. sg.,", "verbe : 3ᵉ personne du singulier"]],
    [':1p', [" 1ʳᵉ p. pl.,", "verbe : 1ʳᵉ personne du pluriel"]],
    [':2p', [" 2ᵉ p. pl.,", "verbe : 2ᵉ personne du pluriel"]],
    [':3p', [" 3ᵉ p. pl.,", "verbe : 3ᵉ personne du pluriel"]],
    [':3p!', [" 3ᵉ p. pl.,", "verbe : 3ᵉ personne du pluriel (prononciation distinctive)"]],

    [':G', ["[mot grammatical]", "Mot grammatical"]],
    [':X', [" adverbe de négation,", "Adverbe de négation"]],
    [':U', [" adverbe interrogatif,", "Adverbe interrogatif"]],
    [':R', [" préposition,", "Préposition"]],
    [':Rv', [" préposition verbale,", "Préposition verbale"]],
    [':D', [" déterminant,", "Déterminant"]],
    [':Dd', [" déterminant démonstratif,", "Déterminant démonstratif"]],
    [':De', [" déterminant exclamatif,", "Déterminant exclamatif"]],
    [':Dp', [" déterminant possessif,", "Déterminant possessif"]],
    [':Di', [" déterminant indéfini,", "Déterminant indéfini"]],
    [':Dn', [" déterminant négatif,", "Déterminant négatif"]],
    [':Od', [" pronom démonstratif,", "Pronom démonstratif"]],
    [':Oi', [" pronom indéfini,", "Pronom indéfini"]],
    [':On', [" pronom indéfini négatif,", "Pronom indéfini négatif"]],
    [':Ot', [" pronom interrogatif,", "Pronom interrogatif"]],
    [':Or', [" pronom relatif,", "Pronom relatif"]],
    [':Ow', [" pronom adverbial,", "Pronom adverbial"]],
    [':Os', [" pronom personnel sujet,", "Pronom personnel sujet"]],
    [':Oo', [" pronom personnel objet,", "Pronom personnel objet"]],
    [':Ov', [" préverbe,", "Préverbe (pronom personnel objet, +ne)"]],
    [':O1', [" 1ʳᵉ pers.,", "Pronom : 1ʳᵉ personne"]],
    [':O2', [" 2ᵉ pers.,", "Pronom : 2ᵉ personne"]],
    [':O3', [" 3ᵉ pers.,", "Pronom : 3ᵉ personne"]],
    [':C', [" conjonction,", "Conjonction"]],
    [':Ĉ', [" conjonction (él.),", "Conjonction (élément)"]],
    [':Cc', [" conjonction de coordination,", "Conjonction de coordination"]],
    [':Cs', [" conjonction de subordination,", "Conjonction de subordination"]],
    [':Ĉs', [" conjonction de subordination (él.),", "Conjonction de subordination (élément)"]],

    [':Ñ', [" locution nominale (él.),", "Locution nominale (élément)"]],
    [':Â', [" locution adjectivale (él.),", "Locution adjectivale (élément)"]],
    [':Ṽ', [" locution verbale (él.),", "Locution verbale (élément)"]],
    [':Ŵ', [" locution adverbiale (él.),", "Locution adverbiale (élément)"]],
    [':Ŕ', [" locution prépositive (él.),", "Locution prépositive (élément)"]],
    [':Ĵ', [" locution interjective (él.),", "Locution interjective (élément)"]],

    [':Zp', [" préfixe,", "Préfixe"]],
    [':Zs', [" suffixe,", "Suffixe"]],

    [':H', ["", "<Hors-norme, inclassable>"]],

    [':@',  ["", "<Caractère non alpha-numérique>"]],
    [':@p', ["signe de ponctuation", "Signe de ponctuation"]],
    [':@s', ["signe", "Signe divers"]],

    [';S', [" : symbole (unité de mesure)", "Symbole (unité de mesure)"]],

    ['/*', ["", "Sous-dictionnaire <Commun>"]],
    ['/C', [" <classique>", "Sous-dictionnaire <Classique>"]],
    ['/M', ["", "Sous-dictionnaire <Moderne>"]],
    ['/R', [" <réforme>", "Sous-dictionnaire <Réforme 1990>"]],
    ['/A', ["", "Sous-dictionnaire <Annexe>"]],
    ['/X', ["", "Sous-dictionnaire <Contributeurs>"]]
]);


const _dLocTag = new Map([
    [':L', "locution"],
    [':LN', "locution nominale"],
    [':LA', "locution adjectivale"],
    [':LV', "locution verbale"],
    [':LW', "locution adverbiale"],
    [':LR', "locution prépositive"],
    [':LRv', "locution prépositive verbale"],
    [':LO', "locution pronominale"],
    [':LC', "locution conjonctive"],
    [':LJ', "locution interjective"],

    [':B', " cardinale"],
    [':e', " épicène"],
    [':m', " masculine"],
    [':f', " féminine"],
    [':s', " singulière"],
    [':p', " plurielle"],
    [':i', " invariable"],
    ['/L', " (latin)"]
]);

const _dLocVerb = new Map([
    ['i', " intransitive"],
    ['n', " transitive indirecte"],
    ['t', " transitive directe"],
    ['p', " pronominale"],
    ['m', " impersonnelle"],
]);

const _dElidedPrefix = new Map([
    ['d', "(de), déterminant épicène invariable"],
    ['l', "(le/la), déterminant masculin/féminin singulier"],
    ['j', "(je), pronom personnel sujet, 1ʳᵉ pers., épicène singulier"],
    ['m', "(me), pronom personnel objet, 1ʳᵉ pers., épicène singulier"],
    ['t', "(te), pronom personnel objet, 2ᵉ pers., épicène singulier"],
    ['s', "(se), pronom personnel objet, 3ᵉ pers., épicène singulier/pluriel"],
    ['n', "(ne), adverbe de négation"],
    ['c', "(ce), pronom démonstratif, masculin singulier/pluriel"],
    ['ç', "(ça), pronom démonstratif, masculin singulier"],
    ['qu', "(que), conjonction de subordination"],
    ['lorsqu', "(lorsque), conjonction de subordination"],
    ['puisqu', "(lorsque), conjonction de subordination"],
    ['quoiqu', "(quoique), conjonction de subordination"],
    ['jusqu', "(jusque), préposition"]
]);

const _dPronoms = new Map([
    ['je', " pronom personnel sujet, 1ʳᵉ pers. sing."],
    ['tu', " pronom personnel sujet, 2ᵉ pers. sing."],
    ['il', " pronom personnel sujet, 3ᵉ pers. masc. sing."],
    ['on', " pronom personnel sujet, 3ᵉ pers. sing. ou plur."],
    ['elle', " pronom personnel sujet, 3ᵉ pers. fém. sing."],
    ['nous', " pronom personnel sujet/objet, 1ʳᵉ pers. plur."],
    ['vous', " pronom personnel sujet/objet, 2ᵉ pers. plur."],
    ['ils', " pronom personnel sujet, 3ᵉ pers. masc. plur."],
    ['elles', " pronom personnel sujet, 3ᵉ pers. masc. plur."],

    ["là", " particule démonstrative"],
    ["ci", " particule démonstrative"],

    ['le', " COD, masc. sing."],
    ['la', " COD, fém. sing."],
    ['les', " COD, plur."],

    ['moi', " COI (à moi), sing."],
    ['toi', " COI (à toi), sing."],
    ['lui', " COI (à lui ou à elle), sing."],
    ['nous2', " COI (à nous), plur."],
    ['vous2', " COI (à vous), plur."],
    ['leur', " COI (à eux ou à elles), plur."],

    ['y', " pronom adverbial"],
    ["m'y", " (me) pronom personnel objet + (y) pronom adverbial"],
    ["t'y", " (te) pronom personnel objet + (y) pronom adverbial"],
    ["s'y", " (se) pronom personnel objet + (y) pronom adverbial"],

    ['en', " pronom adverbial"],
    ["m'en", " (me) pronom personnel objet + (en) pronom adverbial"],
    ["t'en", " (te) pronom personnel objet + (en) pronom adverbial"],
    ["s'en", " (se) pronom personnel objet + (en) pronom adverbial"]
]);

const _dChar = new Map([
    ['.', "point"],
    ['·', "point médian"],
    ['…', "points de suspension"],
    [':', "deux-points"],
    [';', "point-virgule"],
    [',', "virgule"],
    ['?', "point d’interrogation"],
    ['!', "point d’exclamation"],
    ['(', "parenthèse ouvrante"],
    [')', "parenthèse fermante"],
    ['[', "crochet ouvrant"],
    [']', "crochet fermant"],
    ['{', "accolade ouvrante"],
    ['}', "accolade fermante"],
    ['-', "tiret"],
    ['—', "tiret cadratin"],
    ['–', "tiret demi-cadratin"],
    ['«', "guillemet ouvrant (chevrons)"],
    ['»', "guillemet fermant (chevrons)"],
    ['“', "guillemet ouvrant double"],
    ['”', "guillemet fermant double"],
    ['‘', "guillemet ouvrant"],
    ['’', "guillemet fermant"],
    ['"', "guillemets droits (déconseillé en typographie)"],
    ['/', "signe de la division"],
    ['+', "signe de l’addition"],
    ['*', "signe de la multiplication"],
    ['=', "signe de l’égalité"],
    ['<', "inférieur à"],
    ['>', "supérieur à"],
    ['⩽', "inférieur ou égal à"],
    ['⩾', "supérieur ou égal à"],
    ['%', "signe de pourcentage"],
    ['‰', "signe pour mille"],
]);


class Lexicographe {

    constructor (oSpellChecker, oTokenizer, oLocGraph) {
        this.oSpellChecker = oSpellChecker;
        this.oTokenizer = oTokenizer;
        this.oLocGraph = JSON.parse(oLocGraph);

        this._zPartDemForm = new RegExp("([a-zA-Zà-ö0-9À-Öø-ÿØ-ßĀ-ʯ]+)-(là|ci)$", "i");
        this._aPartDemExceptList = new Set(["celui", "celle", "ceux", "celles", "de", "jusque", "par", "marie-couche-toi"]);
        this._zInterroVerb = new RegExp("([a-zA-Zà-ö0-9À-Öø-ÿØ-ßĀ-ʯ]+)-(t-(?:il|elle|on)|je|tu|ils?|elles?|on|[nv]ous)$", "i");
        this._zImperatifVerb = new RegExp("([a-zA-Zà-ö0-9À-Öø-ÿØ-ßĀ-ʯ]+)-((?:les?|la)-(?:moi|toi|lui|[nv]ous|leur)|y|en|[mts][’'](?:y|en)|les?|la|[mt]oi|leur|lui)$", "i");
        this._zTag = new RegExp("[:;/][a-zA-Z0-9ÑÂĴĈŔÔṼŴ!][^:;/]*", "g");
    }

    getInfoForToken (oToken) {
        // Token: .sType, .sValue, .nStart, .nEnd
        // return a object {sType, sValue, aLabel}
        let m = null;
        try {
            switch (oToken.sType) {
                case 'PUNC':
                case 'SIGN':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: [_dChar.gl_get(oToken.sValue, "caractère indéterminé")]
                    };
                    break;
                case 'NUM':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["nombre"]
                    };
                    break;
                case 'LINK':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue.slice(0, 40) + "…",
                        aLabel: ["hyperlien"]
                    };
                    break;
                case 'TAG':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["étiquette (hashtag)"]
                    };
                    break;
                case 'HTML':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue.slice(0, 40) + "…",
                        aLabel: ["balise HTML"]
                    };
                    break;
                case 'PSEUDOHTML':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["balise pseudo-HTML"]
                    };
                    break;
                case 'HTMLENTITY':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["entité caractère XML/HTML"]
                    };
                    break;
                case 'HOUR':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["heure"]
                    };
                    break;
                case 'WORD_ELIDED':
                    let sTemp = oToken.sValue.replace("’", "").replace("'", "").replace("`", "").toLowerCase();
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: [_dElidedPrefix.gl_get(sTemp, "préfixe élidé inconnu")]
                    };
                    break;
                case 'WORD_ORDINAL':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["nombre ordinal"]
                    };
                    break;
                case 'FOLDERUNIX':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue.slice(0, 40) + "…",
                        aLabel: ["dossier UNIX (et dérivés)"]
                    };
                    break;
                case 'FOLDERWIN':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue.slice(0, 40) + "…",
                        aLabel: ["dossier Windows"]
                    };
                    break;
                case 'WORD_ACRONYM':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["Sigle ou acronyme"]
                    };
                    break;
                case 'WORD':
                    if (oToken.sValue.gl_count("-") > 4) {
                        return {
                            sType: "COMPLEX",
                            sValue: oToken.sValue,
                            aLabel: ["élément complexe indéterminé"]
                        };
                    } else if (m = this._zPartDemForm.exec(oToken.sValue)) {
                        // mots avec particules démonstratives
                        if (this._aPartDemExceptList.has(m[1].toLowerCase())) {
                            return {
                                sType: "WORD",
                                sValue: oToken.sValue,
                                aLabel: this._getMorph(oToken.sValue)
                            };
                        }
                        return {
                            sType: oToken.sType,
                            sValue: oToken.sValue,
                            aLabel: ["mot avec particule démonstrative"],
                            aSubElem: [
                                { sType: oToken.sType, sValue: m[1],       aLabel: this._getMorph(m[1]) },
                                { sType: oToken.sType, sValue: "-" + m[2], aLabel: [this._formatSuffix(m[2].toLowerCase())] }
                            ]
                        };
                    } else if (m = this._zImperatifVerb.exec(oToken.sValue)) {
                        // formes interrogatives
                        return {
                            sType: oToken.sType,
                            sValue: oToken.sValue,
                            aLabel: ["forme verbale impérative"],
                            aSubElem: [
                                { sType: oToken.sType, sValue: m[1],       aLabel: this._getMorph(m[1]) },
                                { sType: oToken.sType, sValue: "-" + m[2], aLabel: [this._formatSuffix(m[2].toLowerCase())] }
                            ]
                        };
                    } else if (m = this._zInterroVerb.exec(oToken.sValue)) {
                        // formes interrogatives
                        return {
                            sType: oToken.sType,
                            sValue: oToken.sValue,
                            aLabel: ["forme verbale interrogative"],
                            aSubElem: [
                                { sType: oToken.sType, sValue: m[1],       aLabel: this._getMorph(m[1]) },
                                { sType: oToken.sType, sValue: "-" + m[2], aLabel: [this._formatSuffix(m[2].toLowerCase())] }
                            ]
                        };
                    } else if (this.oSpellChecker.isValidToken(oToken.sValue)) {
                        return {
                            sType: oToken.sType,
                            sValue: oToken.sValue,
                            aLabel: this._getMorph(oToken.sValue)
                        };
                    } else {
                        return {
                            sType: "UNKNOWN_WORD",
                            sValue: oToken.sValue,
                            aLabel: ["mot inconnu du dictionnaire"]
                        };
                    }
                    break;
                default:
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["token inconnu"]
                    }
            }
        } catch (e) {
            console.error(e);
        }
        return null;
    }

    _getMorph (sWord) {
        let aElem = [];
        for (let s of this.oSpellChecker.getMorph(sWord)) {
            if (s.includes(":")) aElem.push(this._formatTags(s));
        }
        if (aElem.length == 0) {
            aElem.push("mot inconnu du dictionnaire");
        }
        return aElem;
    }

    _formatTags (sTags) {
        let sRes = "";
        sTags = sTags.replace(/V([0-3][ea]?)[itpqnmr_eaxz]+/, "V$1");
        let m;
        while ((m = this._zTag.exec(sTags)) !== null) {
            sRes += _dTag.get(m[0])[0];
        }
        if (sRes.startsWith(" verbe") && !sRes.includes("infinitif")) {
            sRes += " [" + sTags.slice(1, sTags.indexOf("/")) + "]";
        }
        if (!sRes) {
            return "#Erreur. Étiquette inconnue : [" + sTags + "]";
        }
        return sRes.gl_trimRight(",");
    }

    _formatTagsLoc (sTags) {
        let sRes = "";
        let m;
        while ((m = this._zTag.exec(sTags)) !== null) {
            if (m[0].startsWith(":LV")) {
                sRes += _dLocTag.get(":LV");
                for (let c of m[0].slice(3)) {
                    sRes += _dLocVerb.get(c);
                }
            } else {
                sRes += _dLocTag.get(m[0]);
            }
        }
        if (!sRes) {
            return "#Erreur. Étiquette inconnue : [" + sTags + "]";
        }
        return sRes.gl_trimRight(",");
    }

    _formatSuffix (s) {
        if (s.startsWith("t-")) {
            return "“t” euphonique +" + _dPronoms.get(s.slice(2));
        }
        if (!s.includes("-")) {
            return _dPronoms.get(s.replace("’", "'"));
        }
        if (s.endsWith("ous")) {
            s += '2';
        }
        let nPos = s.indexOf("-");
        return _dPronoms.get(s.slice(0, nPos)) + " +" + _dPronoms.get(s.slice(nPos + 1));
    }

    getListOfTokens (sText, bInfo=true) {
        let aElem = [];
        if (sText !== "") {
            for (let oToken of this.oTokenizer.genTokens(sText)) {
                if (bInfo) {
                    let aRes = this.getInfoForToken(oToken);
                    if (aRes) {
                        aElem.push(aRes);
                    }
                } else if (oToken.sType !== "SPACE") {
                    aElem.push(oToken);
                }
            }
        }
        return aElem;
    }

    * generateInfoForTokenList (lToken) {
        for (let oToken of lToken) {
            let aRes = this.getInfoForToken(oToken);
            if (aRes) {
                yield aRes;
            }
        }
    }

    getListOfTokensReduc (sText, bInfo=true) {
        let lToken = this.getListOfTokens(sText.replace("'", "’").trim(), false);
        let iToken = 0;
        let aElem = [];
        if (lToken.length == 0) {
            return aElem;
        }
        do {
            let oToken = lToken[iToken];
            let sMorphLoc = '';
            let aTokenTempList = [oToken];
            if (oToken.sType == "WORD" || oToken.sType == "WORD_ELIDED"){
                let iLocEnd = iToken + 1;
                let oLocNode = this.oLocGraph[oToken.sValue.toLowerCase()];
                while (oLocNode) {
                    let oTokenNext = lToken[iLocEnd];
                    iLocEnd++;
                    if (oTokenNext) {
                        oLocNode = oLocNode[oTokenNext.sValue.toLowerCase()];
                    }
                    if (oLocNode && iLocEnd <= lToken.length) {
                        sMorphLoc = oLocNode["_:_"];
                        aTokenTempList.push(oTokenNext);
                    } else {
                        break;
                    }
                }
            }

            if (sMorphLoc) {
                // we have a locution
                let sValue = '';
                for (let oTokenWord of aTokenTempList) {
                    sValue += oTokenWord.sValue+' ';
                }
                let oTokenLocution = {
                    'nStart': aTokenTempList[0].nStart,
                    'nEnd': aTokenTempList[aTokenTempList.length-1].nEnd,
                    'sType': "LOC",
                    'sValue': sValue.replace('’ ','’').trim(),
                    'aSubToken': aTokenTempList
                };
                if (bInfo) {
                    let aSubElem = null;
                    if (sMorphLoc.startsWith("*|")) {
                        // cette suite de tokens n’est une locution que dans certains cas minoritaires
                        oTokenLocution.sType = "LOCP";
                        for (let oElem of this.generateInfoForTokenList(aTokenTempList)) {
                            aElem.push(oElem);
                        }
                        sMorphLoc = sMorphLoc.slice(2);
                    } else {
                        aSubElem = [...this.generateInfoForTokenList(aTokenTempList)];
                    }
                    // cette suite de tokens est la plupart du temps une locution
                    let aFormatedTag = [];
                    for (let sTagLoc of sMorphLoc.split('|') ){
                        aFormatedTag.push(this._formatTagsLoc(sTagLoc));
                    }
                    aElem.push({
                        sType: oTokenLocution.sType,
                        sValue: oTokenLocution.sValue,
                        aLabel: aFormatedTag,
                        aSubElem: aSubElem
                    });
                } else {
                    aElem.push(oTokenLocution);
                }
                iToken = iToken + aTokenTempList.length;
            } else {
                // No locution, we just add information
                if (bInfo) {
                    let aRes = this.getInfoForToken(oToken);
                    if (aRes) {
                        aElem.push(aRes);
                    }
                } else {
                    aElem.push(oToken);
                }
                iToken++;
            }
        } while (iToken < lToken.length);
        return aElem;
    }
}


if (typeof(exports) !== 'undefined') {
    exports.Lexicographe = Lexicographe;
}
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Deleted gc_lang/fr/modules/lexicographe.py version [36a85305ff].

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"""
Grammalecte - Lexicographe
"""

# License: MPL 2


import re
import traceback


_dTAGS = {
    ':N': (" nom,", "Nom"),
    ':A': (" adjectif,", "Adjectif"),
    ':M1': (" prénom,", "Prénom"),
    ':M2': (" patronyme,", "Patronyme, matronyme, nom de famille…"),
    ':MP': (" nom propre,", "Nom propre"),
    ':W': (" adverbe,", "Adverbe"),
    ':J': (" interjection,", "Interjection"),
    ':B': (" nombre,", "Nombre"),
    ':T': (" titre,", "Titre de civilité"),

    ':e': (" épicène", "épicène"),
    ':m': (" masculin", "masculin"),
    ':f': (" féminin", "féminin"),
    ':s': (" singulier", "singulier"),
    ':p': (" pluriel", "pluriel"),
    ':i': (" invariable", "invariable"),

    ':V1': (" verbe (1ᵉʳ gr.),", "Verbe du 1ᵉʳ groupe"),
    ':V2': (" verbe (2ᵉ gr.),", "Verbe du 2ᵉ groupe"),
    ':V3': (" verbe (3ᵉ gr.),", "Verbe du 3ᵉ groupe"),
    ':V0e': (" verbe,", "Verbe auxiliaire être"),
    ':V0a': (" verbe,", "Verbe auxiliaire avoir"),

    ':Y': (" infinitif,", "infinitif"),
    ':P': (" participe présent,", "participe présent"),
    ':Q': (" participe passé,", "participe passé"),
    ':Ip': (" présent,", "indicatif présent"),
    ':Iq': (" imparfait,", "indicatif imparfait"),
    ':Is': (" passé simple,", "indicatif passé simple"),
    ':If': (" futur,", "indicatif futur"),
    ':K': (" conditionnel présent,", "conditionnel présent"),
    ':Sp': (" subjonctif présent,", "subjonctif présent"),
    ':Sq': (" subjonctif imparfait,", "subjonctif imparfait"),
    ':E': (" impératif,", "impératif"),

    ':1s': (" 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier"),
    ':1ŝ': (" présent interr. 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier (présent interrogatif)"),
    ':1ś': (" présent interr. 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier (présent interrogatif)"),
    ':2s': (" 2ᵉ p. sg.,", "verbe : 2ᵉ personne du singulier"),
    ':3s': (" 3ᵉ p. sg.,", "verbe : 3ᵉ personne du singulier"),
    ':1p': (" 1ʳᵉ p. pl.,", "verbe : 1ʳᵉ personne du pluriel"),
    ':2p': (" 2ᵉ p. pl.,", "verbe : 2ᵉ personne du pluriel"),
    ':3p': (" 3ᵉ p. pl.,", "verbe : 3ᵉ personne du pluriel"),
    ':3p!': (" 3ᵉ p. pl.,", "verbe : 3ᵉ personne du pluriel (prononciation distinctive)"),

    ':G': ("", "Mot grammatical"),
    ':X': (" adverbe de négation,", "Adverbe de négation"),
    ':U': (" adverbe interrogatif,", "Adverbe interrogatif"),
    ':R': (" préposition,", "Préposition"),
    ':Rv': (" préposition verbale,", "Préposition verbale"),
    ':D': (" déterminant,", "Déterminant"),
    ':Dd': (" déterminant démonstratif,", "Déterminant démonstratif"),
    ':De': (" déterminant exclamatif,", "Déterminant exclamatif"),
    ':Dp': (" déterminant possessif,", "Déterminant possessif"),
    ':Di': (" déterminant indéfini,", "Déterminant indéfini"),
    ':Dn': (" déterminant négatif,", "Déterminant négatif"),
    ':Od': (" pronom démonstratif,", "Pronom démonstratif"),
    ':Oi': (" pronom indéfini,", "Pronom indéfini"),
    ':On': (" pronom indéfini négatif,", "Pronom indéfini négatif"),
    ':Ot': (" pronom interrogatif,", "Pronom interrogatif"),
    ':Or': (" pronom relatif,", "Pronom relatif"),
    ':Ow': (" pronom adverbial,", "Pronom adverbial"),
    ':Os': (" pronom personnel sujet,", "Pronom personnel sujet"),
    ':Oo': (" pronom personnel objet,", "Pronom personnel objet"),
    ':Ov': (" préverbe,", "Préverbe (pronom personnel objet, +ne)"),
    ':O1': (" 1ʳᵉ pers.,", "Pronom : 1ʳᵉ personne"),
    ':O2': (" 2ᵉ pers.,", "Pronom : 2ᵉ personne"),
    ':O3': (" 3ᵉ pers.,", "Pronom : 3ᵉ personne"),
    ':C': (" conjonction,", "Conjonction"),
    ':Ĉ': (" conjonction (él.),", "Conjonction (élément)"),
    ':Cc': (" conjonction de coordination,", "Conjonction de coordination"),
    ':Cs': (" conjonction de subordination,", "Conjonction de subordination"),
    ':Ĉs': (" conjonction de subordination (él.),", "Conjonction de subordination (élément)"),

    ':Ñ': (" locution nominale (él.),", "Locution nominale (élément)"),
    ':Â': (" locution adjectivale (él.),", "Locution adjectivale (élément)"),
    ':Ṽ': (" locution verbale (él.),", "Locution verbale (élément)"),
    ':Ŵ': (" locution adverbiale (él.),", "Locution adverbiale (élément)"),
    ':Ŕ': (" locution prépositive (él.),", "Locution prépositive (élément)"),
    ':Ĵ': (" locution interjective (él.),", "Locution interjective (élément)"),

    ':Zp': (" préfixe,", "Préfixe"),
    ':Zs': (" suffixe,", "Suffixe"),

    ':H': ("", "<Hors-norme, inclassable>"),

    ':@': ("", "<Caractère non alpha-numérique>"),
    ':@p': ("signe de ponctuation", "Signe de ponctuation"),
    ':@s': ("signe", "Signe divers"),

    ';S': (" : symbole (unité de mesure)", "Symbole (unité de mesure)"),

    '/*': ("", "Sous-dictionnaire <Commun>"),
    '/C': (" <classique>", "Sous-dictionnaire <Classique>"),
    '/M': ("", "Sous-dictionnaire <Moderne>"),
    '/R': (" <réforme>", "Sous-dictionnaire <Réforme 1990>"),
    '/A': ("", "Sous-dictionnaire <Annexe>"),
    '/X': ("", "Sous-dictionnaire <Contributeurs>")
}

_dPFX = {
    'd': "(de), déterminant épicène invariable",
    'l': "(le/la), déterminant masculin/féminin singulier",
    'j': "(je), pronom personnel sujet, 1ʳᵉ pers., épicène singulier",
    'm': "(me), pronom personnel objet, 1ʳᵉ pers., épicène singulier",
    't': "(te), pronom personnel objet, 2ᵉ pers., épicène singulier",
    's': "(se), pronom personnel objet, 3ᵉ pers., épicène singulier/pluriel",
    'n': "(ne), adverbe de négation",
    'c': "(ce), pronom démonstratif, masculin singulier/pluriel",
    'ç': "(ça), pronom démonstratif, masculin singulier",
    'qu': "(que), conjonction de subordination",
    'lorsqu': "(lorsque), conjonction de subordination",
    'puisqu': "(puisque), conjonction de subordination",
    'quoiqu': "(quoique), conjonction de subordination",
    'jusqu': "(jusque), préposition",
}

_dAD = {
    'je': " pronom personnel sujet, 1ʳᵉ pers. sing.",
    'tu': " pronom personnel sujet, 2ᵉ pers. sing.",
    'il': " pronom personnel sujet, 3ᵉ pers. masc. sing.",
    'on': " pronom personnel sujet, 3ᵉ pers. sing. ou plur.",
    'elle': " pronom personnel sujet, 3ᵉ pers. fém. sing.",
    'nous': " pronom personnel sujet/objet, 1ʳᵉ pers. plur.",
    'vous': " pronom personnel sujet/objet, 2ᵉ pers. plur.",
    'ils': " pronom personnel sujet, 3ᵉ pers. masc. plur.",
    'elles': " pronom personnel sujet, 3ᵉ pers. masc. plur.",

    "là": " particule démonstrative",
    "ci": " particule démonstrative",

    'le': " COD, masc. sing.",
    'la': " COD, fém. sing.",
    'les': " COD, plur.",

    'moi': " COI (à moi), sing.",
    'toi': " COI (à toi), sing.",
    'lui': " COI (à lui ou à elle), sing.",
    'nous2': " COI (à nous), plur.",
    'vous2': " COI (à vous), plur.",
    'leur': " COI (à eux ou à elles), plur.",

    'y': " pronom adverbial",
    "m'y": " (me) pronom personnel objet + (y) pronom adverbial",
    "t'y": " (te) pronom personnel objet + (y) pronom adverbial",
    "s'y": " (se) pronom personnel objet + (y) pronom adverbial",

    'en': " pronom adverbial",
    "m'en": " (me) pronom personnel objet + (en) pronom adverbial",
    "t'en": " (te) pronom personnel objet + (en) pronom adverbial",
    "s'en": " (se) pronom personnel objet + (en) pronom adverbial",
}


class Lexicographe:
    "Lexicographer - word analyzer"

    def __init__ (self, oSpellChecker):
        self.oSpellChecker = oSpellChecker
        self._zElidedPrefix = re.compile("(?i)^([dljmtsncç]|quoiqu|lorsqu|jusqu|puisqu|qu)['’](.+)")
        self._zCompoundWord = re.compile("(?i)(\\w+)-((?:les?|la)-(?:moi|toi|lui|[nv]ous|leur)|t-(?:il|elle|on)|y|en|[mts][’'](?:y|en)|les?|l[aà]|[mt]oi|leur|lui|je|tu|ils?|elles?|on|[nv]ous)$")
        self._zTag = re.compile("[:;/][\\w*][^:;/]*")

    def analyzeWord (self, sWord):
        "returns a tuple (a list of morphologies, a set of verb at infinitive form)"
        try:
            if not sWord:
                return (None, None)
            if sWord.count("-") > 4:
                return (["élément complexe indéterminé"], None)
            if sWord.isdigit():
                return (["nombre"], None)

            aMorph = []
            # préfixes élidés
            m = self._zElidedPrefix.match(sWord)
            if m:
                sWord = m.group(2)
                aMorph.append( "{}’ : {}".format(m.group(1), _dPFX.get(m.group(1).lower(), "[?]")) )
            # mots composés
            m2 = self._zCompoundWord.match(sWord)
            if m2:
                sWord = m2.group(1)
            # Morphologies
            lMorph = self.oSpellChecker.getMorph(sWord)
            if len(lMorph) > 1:
                # sublist
                aMorph.append( (sWord, [ self.formatTags(s)  for s in lMorph  if ":" in s ]) )
            elif len(lMorph) == 1:
                aMorph.append( "{} : {}".format(sWord, self.formatTags(lMorph[0])) )
            else:
                aMorph.append( "{} :  inconnu du dictionnaire".format(sWord) )
            # suffixe d’un mot composé
            if m2:
                aMorph.append( "-{} : {}".format(m2.group(2), self._formatSuffix(m2.group(2).lower())) )
            # Verbes
            aVerb = { s[1:s.find("/")]  for s in lMorph  if ":V" in s }
            return (aMorph, aVerb)
        except (IndexError, TypeError):
            traceback.print_exc()
            return (["#erreur"], None)

    def formatTags (self, sTags):
        "returns string: readable tags"
        sRes = ""
        sTags = re.sub("(?<=V[1-3])[itpqnmr_eaxz]+", "", sTags)
        sTags = re.sub("(?<=V0[ea])[itpqnmr_eaxz]+", "", sTags)
        for m in self._zTag.finditer(sTags):
            sRes += _dTAGS.get(m.group(0), " [{}]".format(m.group(0)))[0]
        if sRes.startswith(" verbe") and not sRes.endswith("infinitif"):
            sRes += " [{}]".format(sTags[1:sTags.find("/")])
        return sRes.rstrip(",")

    def _formatSuffix (self, s):
        if s.startswith("t-"):
            return "“t” euphonique +" + _dAD.get(s[2:], "[?]")
        if not "-" in s:
            return _dAD.get(s.replace("’", "'"), "[?]")
        if s.endswith("ous"):
            s += '2'
        nPos = s.find("-")
        return "%s +%s" % (_dAD.get(s[:nPos], "[?]"), _dAD.get(s[nPos+1:], "[?]"))
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Modified gc_lang/fr/modules/tests.py from [544edd53c7] to [34a3376ab5].

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import os
import re
import time
from contextlib import contextmanager

from ..graphspell.ibdawg import IBDAWG
from ..graphspell.echo import echo
from . import gc_engine as gce
from . import conj
from . import phonet
from . import mfsp


@contextmanager
def timeblock (label, hDst):







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import os
import re
import time
from contextlib import contextmanager

from ..graphspell.ibdawg import IBDAWG
from ..graphspell.echo import echo
from . import gc_engine
from . import conj
from . import phonet
from . import mfsp


@contextmanager
def timeblock (label, hDst):
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        if hDst:
            hDst.write("{:<12.6}".format(end-start))


def perf (sVersion, hDst=None):
    "performance tests"
    print("\nPerformance tests")
    gce.load()
    gce.parse("Texte sans importance… utile pour la compilation des règles avant le calcul des perfs.")

    spHere, _ = os.path.split(__file__)
    with open(os.path.join(spHere, "perf.txt"), "r", encoding="utf-8") as hSrc:
        if hDst:
            hDst.write("{:<12}{:<20}".format(sVersion, time.strftime("%Y.%m.%d %H:%M")))
        for sText in ( s.strip() for s in hSrc if not s.startswith("#") and s.strip() ):
            with timeblock(sText[:sText.find(".")], hDst):
                gce.parse(sText)
        if hDst:
            hDst.write("\n")


def _fuckBackslashUTF8 (s):
    "fuck that shit"
    return s.replace("\u2019", "'").replace("\u2013", "–").replace("\u2014", "—")







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        if hDst:
            hDst.write("{:<12.6}".format(end-start))


def perf (sVersion, hDst=None):
    "performance tests"
    print("\nPerformance tests")
    gc_engine.load()
    gc_engine.parse("Texte sans importance… utile pour la compilation des règles avant le calcul des perfs.")

    spHere, _ = os.path.split(__file__)
    with open(os.path.join(spHere, "perf.txt"), "r", encoding="utf-8") as hSrc:
        if hDst:
            hDst.write("{:<12}{:<20}".format(sVersion, time.strftime("%Y.%m.%d %H:%M")))
        for sText in ( s.strip() for s in hSrc if not s.startswith("#") and s.strip() ):
            with timeblock(sText[:sText.find(".")], hDst):
                gc_engine.parse(sText)
        if hDst:
            hDst.write("\n")


def _fuckBackslashUTF8 (s):
    "fuck that shit"
    return s.replace("\u2019", "'").replace("\u2013", "–").replace("\u2014", "—")
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class TestGrammarChecking (unittest.TestCase):
    "Tests du correcteur grammatical"

    @classmethod
    def setUpClass (cls):
        gce.load()
        cls._zError = re.compile(r"\{\{.*?\}\}")
        cls._aTestedRules = set()

    def test_parse (self):
        zOption = re.compile("^__([a-zA-Z0-9]+)__ ")
        spHere, _ = os.path.split(__file__)
        with open(os.path.join(spHere, "gc_test.txt"), "r", encoding="utf-8") as hSrc:







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class TestGrammarChecking (unittest.TestCase):
    "Tests du correcteur grammatical"

    @classmethod
    def setUpClass (cls):
        gc_engine.load()
        cls._zError = re.compile(r"\{\{.*?\}\}")
        cls._aTestedRules = set()

    def test_parse (self):
        zOption = re.compile("^__([a-zA-Z0-9]+)__ ")
        spHere, _ = os.path.split(__file__)
        with open(os.path.join(spHere, "gc_test.txt"), "r", encoding="utf-8") as hSrc:
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                              "\n  errors:   \n" + sListErr)
                        nError += 1
            if nError:
                print("Unexpected errors:", nError)
        # untested rules
        i = 0
        echo("Untested rules:")
        for _, sOpt, sLineId, sRuleId in gce.listRules():
            if sOpt != "@@@@" and sRuleId not in self._aTestedRules and not re.search("^[0-9]+[sp]$|^[pd]_", sRuleId):
                echo(sLineId + "/" + sRuleId)
                i += 1
        echo("[{} untested rules]".format(i))

    def _splitTestLine (self, sLine):
        sText, sSugg = sLine.split("->>")
        return (sText.strip(), sSugg.strip())

    def _getFoundErrors (self, sLine, sOption):
        if sOption:
            gce.setOption(sOption, True)
            aErrs = gce.parse(sLine)
            gce.setOption(sOption, False)
        else:
            aErrs = gce.parse(sLine)
        sRes = " " * len(sLine)
        sListErr = ""
        lAllSugg = []
        for dErr in aErrs:
            sRes = sRes[:dErr["nStart"]] + "~" * (dErr["nEnd"] - dErr["nStart"]) + sRes[dErr["nEnd"]:]
            sListErr += "    * {sLineId} / {sRuleId}  at  {nStart}:{nEnd}\n".format(**dErr)
            lAllSugg.append("|".join(dErr["aSuggestions"]))







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                              "\n  errors:   \n" + sListErr)
                        nError += 1
            if nError:
                print("Unexpected errors:", nError)
        # untested rules
        i = 0
        echo("Untested rules:")
        for _, sOpt, sLineId, sRuleId in gc_engine.listRules():
            if sOpt != "@@@@" and sRuleId not in self._aTestedRules and not re.search("^[0-9]+[sp]$|^[pd]_", sRuleId):
                echo(sLineId + "/" + sRuleId)
                i += 1
        echo("[{} untested rules]".format(i))

    def _splitTestLine (self, sLine):
        sText, sSugg = sLine.split("->>")
        return (sText.strip(), sSugg.strip())

    def _getFoundErrors (self, sLine, sOption):
        if sOption:
            gc_engine.gc_options.setOption(sOption, True)
            aErrs = gc_engine.parse(sLine)
            gc_engine.gc_options.setOption(sOption, False)
        else:
            aErrs = gc_engine.parse(sLine)
        sRes = " " * len(sLine)
        sListErr = ""
        lAllSugg = []
        for dErr in aErrs:
            sRes = sRes[:dErr["nStart"]] + "~" * (dErr["nEnd"] - dErr["nStart"]) + sRes[dErr["nEnd"]:]
            sListErr += "    * {sLineId} / {sRuleId}  at  {nStart}:{nEnd}\n".format(**dErr)
            lAllSugg.append("|".join(dErr["aSuggestions"]))

Modified gc_lang/fr/modules/textformatter.py from [4ba47078d2] to [8516394c0d].

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    "mh_frequent_words": True,
    "ma_word": True,
    "ma_1letter_lowercase": False,
    "ma_1letter_uppercase": False
}


class TextFormatter:
    "Text Formatter: purge typographic mistakes from text"

    def __init__ (self):

        for _, lTup in dReplTable.items():
            for i, t in enumerate(lTup):
                lTup[i] = (re.compile(t[0]), t[1])



    def formatText (self, sText):
        "returns formatted text"





        for sOptName, bVal in dDefaultOptions.items():
            if bVal:
                for zRgx, sRep in dReplTable[sOptName]:
                    sText = zRgx.sub(sRep, sText)
        return sText


    def getDefaultOptions (self):
        "returns default options"
        return dDefaultOptions.copy()







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    "mh_frequent_words": True,
    "ma_word": True,
    "ma_1letter_lowercase": False,
    "ma_1letter_uppercase": False
}


_bCompiled = False


def _compileRegex():
    global _bCompiled
    for _, lTup in dReplTable.items():
        for i, t in enumerate(lTup):
            lTup[i] = (re.compile(t[0]), t[1])
    _bCompiled = True


def formatText (sText, dOpt=None):
    "returns formatted text"
    if not _bCompiled:
        _compileRegex()
    dOptions = getDefaultOptions()
    if dOpt:
        dOptions.update(dOpt)
    for sOptName, bVal in dOptions.items():
        if bVal:
            for zRgx, sRep in dReplTable[sOptName]:
                sText = zRgx.sub(sRep, sText)
    return sText


def getDefaultOptions ():
    "returns default options"
    return dDefaultOptions.copy()

Modified gc_lang/fr/oxt/ContextMenu/ContextMenu.py from [f06cffc0e3] to [172f2404b4].

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# Grammalecte - Lexicographe
# by Olivier R. License: MPL 2

import uno
import unohelper
import traceback

from com.sun.star.task import XJob
from com.sun.star.ui import XContextMenuInterceptor
#from com.sun.star.ui.ContextMenuInterceptorAction import IGNORED
#from com.sun.star.ui.ContextMenuInterceptorAction import EXECUTE_MODIFIED

import grammalecte.fr.lexicographe as lxg
from grammalecte.graphspell.spellchecker import SpellChecker
from grammalecte.graphspell.echo import echo
import helpers


xDesktop = None
oSpellChecker = None
oLexicographe = None


class MyContextMenuInterceptor (XContextMenuInterceptor, unohelper.Base):
    def __init__ (self, ctx):
        self.ctx = ctx

    def notifyContextMenuExecute (self, xEvent):
        sWord = self._getWord()
        try:
            aItem, aVerb = oLexicographe.analyzeWord(sWord)
            if not aItem:
                return uno.Enum("com.sun.star.ui.ContextMenuInterceptorAction", "IGNORED") # don’t work on AOO, have to import the value
                #return IGNORED
            xContextMenu = xEvent.ActionTriggerContainer
            if xContextMenu:
                # entries index
                i = xContextMenu.Count
                nUnoConstantLine = uno.getConstantByName("com.sun.star.ui.ActionTriggerSeparatorType.LINE")

                # word analysis
                i = self._addItemToContextMenu(xContextMenu, i, "ActionTriggerSeparator", SeparatorType=nUnoConstantLine)
                for item in aItem:
                    if isinstance(item, str):

                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text=item, CommandURL="service:net.grammalecte.AppLauncher?None")
                    elif isinstance(item, tuple):
                        sRoot, lMorph = item
                        # submenu
                        xSubMenuContainer = xContextMenu.createInstance("com.sun.star.ui.ActionTriggerContainer")
                        for j, s in enumerate(lMorph):
                            self._addItemToContextMenu(xSubMenuContainer, j, "ActionTrigger", Text=s, CommandURL="service:net.grammalecte.AppLauncher?None")
                        # create root menu entry
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text=sRoot, SubContainer=xSubMenuContainer)
                    else:
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text="# erreur : {}".format(item))

                # Links to Conjugueur

                if aVerb:
                    i = self._addItemToContextMenu(xContextMenu, i, "ActionTriggerSeparator", SeparatorType=nUnoConstantLine)
                    for sVerb in aVerb:
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text="Conjuguer “{}”…".format(sVerb),
                                                       CommandURL="service:net.grammalecte.AppLauncher?CJ/"+sVerb)

                # Search
                xDoc = xDesktop.getCurrentComponent()
                xViewCursor = xDoc.CurrentController.ViewCursor
                if not xViewCursor.isCollapsed():
                    sSelec = xViewCursor.getString()
                    if sSelec.count(" ") <= 2:












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# Grammalecte - Lexicographe
# by Olivier R. License: MPL 2

import uno
import unohelper
import traceback

from com.sun.star.task import XJob
from com.sun.star.ui import XContextMenuInterceptor
#from com.sun.star.ui.ContextMenuInterceptorAction import IGNORED
#from com.sun.star.ui.ContextMenuInterceptorAction import EXECUTE_MODIFIED


from grammalecte.graphspell.spellchecker import SpellChecker
from grammalecte.graphspell.echo import echo
import helpers


xDesktop = None
oSpellChecker = None



class MyContextMenuInterceptor (XContextMenuInterceptor, unohelper.Base):
    def __init__ (self, ctx):
        self.ctx = ctx

    def notifyContextMenuExecute (self, xEvent):
        sWord = self._getWord()
        try:
            lWordAndMorph = oSpellChecker.analyze(sWord)
            if not lWordAndMorph:
                return uno.Enum("com.sun.star.ui.ContextMenuInterceptorAction", "IGNORED") # don’t work on AOO, have to import the value
                #return IGNORED
            xContextMenu = xEvent.ActionTriggerContainer
            if xContextMenu:
                # entries index
                i = xContextMenu.Count
                nUnoConstantLine = uno.getConstantByName("com.sun.star.ui.ActionTriggerSeparatorType.LINE")

                # word analysis
                i = self._addItemToContextMenu(xContextMenu, i, "ActionTriggerSeparator", SeparatorType=nUnoConstantLine)
                for sWord, lMorph in lWordAndMorph:
                    if len(lMorph) == 1:
                        sMorph, sReadableMorph = lMorph[0]
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text=sWord + " : " + sReadableMorph, CommandURL="service:net.grammalecte.AppLauncher?None")

                    elif len(lMorph) >= 1:
                        # submenu
                        xSubMenuContainer = xContextMenu.createInstance("com.sun.star.ui.ActionTriggerContainer")
                        for j, (sMorph, sReadableMorph) in enumerate(lMorph):
                            self._addItemToContextMenu(xSubMenuContainer, j, "ActionTrigger", Text=sReadableMorph, CommandURL="service:net.grammalecte.AppLauncher?None")
                        # create root menu entry
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text=sWord, SubContainer=xSubMenuContainer)
                    else:
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text=sWord + " : [erreur] aucun résultat trouvé.")

                # Links to Conjugueur
                aVerb = { sMorph[1:sMorph.find("/")]  for sMorph in oSpellChecker.getMorph(sWord) if ":V" in sMorph }
                if aVerb:
                    i = self._addItemToContextMenu(xContextMenu, i, "ActionTriggerSeparator", SeparatorType=nUnoConstantLine)
                    for sVerb in aVerb:
                        i = self._addItemToContextMenu(xContextMenu, i, "ActionTrigger", Text="Conjuguer “{}”…".format(sVerb), \
                                                        CommandURL="service:net.grammalecte.AppLauncher?CJ/"+sVerb)

                # Search
                xDoc = xDesktop.getCurrentComponent()
                xViewCursor = xDoc.CurrentController.ViewCursor
                if not xViewCursor.isCollapsed():
                    sSelec = xViewCursor.getString()
                    if sSelec.count(" ") <= 2:
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class JobExecutor (XJob, unohelper.Base):
    def __init__ (self, ctx):
        self.ctx = ctx
        global xDesktop
        global oSpellChecker
        global oLexicographe
        try:
            if not xDesktop:
                xDesktop = self.ctx.getServiceManager().createInstanceWithContext('com.sun.star.frame.Desktop', self.ctx)
            if not oSpellChecker:
                xCurCtx = uno.getComponentContext()
                oGC = self.ctx.ServiceManager.createInstanceWithContext("org.openoffice.comp.pyuno.Lightproof.grammalecte", self.ctx)
                if hasattr(oGC, "getSpellChecker"):
                    # https://bugs.documentfoundation.org/show_bug.cgi?id=97790
                    oSpellChecker = oGC.getSpellChecker()
                else:
                    oSpellChecker = SpellChecker("${lang}", "fr-allvars.bdic")
            if not oLexicographe:
                oLexicographe = lxg.Lexicographe(oSpellChecker)
        except:
            traceback.print_exc()

    def execute (self, args):
        if not args:
            return
        try:







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class JobExecutor (XJob, unohelper.Base):
    def __init__ (self, ctx):
        self.ctx = ctx
        global xDesktop
        global oSpellChecker

        try:
            if not xDesktop:
                xDesktop = self.ctx.getServiceManager().createInstanceWithContext('com.sun.star.frame.Desktop', self.ctx)
            if not oSpellChecker:
                xCurCtx = uno.getComponentContext()
                oGC = self.ctx.ServiceManager.createInstanceWithContext("org.openoffice.comp.pyuno.Lightproof.grammalecte", self.ctx)
                if hasattr(oGC, "getSpellChecker"):
                    # https://bugs.documentfoundation.org/show_bug.cgi?id=97790
                    oSpellChecker = oGC.getSpellChecker()
                else:
                    oSpellChecker = SpellChecker("${lang}", "fr-allvars.bdic")


        except:
            traceback.print_exc()

    def execute (self, args):
        if not args:
            return
        try:

Modified gc_lang/fr/webext/gce_worker.js from [67fa9791af] to [4717319dce].

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//console.log("[Worker] GC Engine Worker [start]");
//console.log(self);

importScripts("grammalecte/graphspell/helpers.js");
importScripts("grammalecte/graphspell/str_transform.js");
importScripts("grammalecte/graphspell/char_player.js");
importScripts("grammalecte/graphspell/suggest.js");
importScripts("grammalecte/graphspell/ibdawg.js");
importScripts("grammalecte/graphspell/spellchecker.js");
importScripts("grammalecte/text.js");
importScripts("grammalecte/graphspell/tokenizer.js");
importScripts("grammalecte/fr/conj.js");
importScripts("grammalecte/fr/mfsp.js");
importScripts("grammalecte/fr/phonet.js");
importScripts("grammalecte/fr/cregex.js");
importScripts("grammalecte/fr/gc_options.js");
importScripts("grammalecte/fr/gc_rules.js");
importScripts("grammalecte/fr/gc_rules_graph.js");
importScripts("grammalecte/fr/gc_engine.js");
importScripts("grammalecte/fr/lexicographe.js");
importScripts("grammalecte/tests.js");
/*
    Warning.
    Initialization can’t be completed at startup of the worker,
    for we need the path of the extension to load data stored in JSON files.
    This path is retrieved in background.js and passed with the event “init”.
*/







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//console.log("[Worker] GC Engine Worker [start]");
//console.log(self);

importScripts("grammalecte/graphspell/helpers.js");
importScripts("grammalecte/graphspell/str_transform.js");
importScripts("grammalecte/graphspell/char_player.js");
importScripts("grammalecte/graphspell/lexgraph_fr.js");
importScripts("grammalecte/graphspell/ibdawg.js");
importScripts("grammalecte/graphspell/spellchecker.js");
importScripts("grammalecte/text.js");
importScripts("grammalecte/graphspell/tokenizer.js");
importScripts("grammalecte/fr/conj.js");
importScripts("grammalecte/fr/mfsp.js");
importScripts("grammalecte/fr/phonet.js");
importScripts("grammalecte/fr/cregex.js");
importScripts("grammalecte/fr/gc_options.js");
importScripts("grammalecte/fr/gc_rules.js");
importScripts("grammalecte/fr/gc_rules_graph.js");
importScripts("grammalecte/fr/gc_engine_func.js");
importScripts("grammalecte/fr/gc_engine.js");
importScripts("grammalecte/tests.js");
/*
    Warning.
    Initialization can’t be completed at startup of the worker,
    for we need the path of the extension to load data stored in JSON files.
    This path is retrieved in background.js and passed with the event “init”.
*/
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let bInitDone = false;

let oSpellChecker = null;
let oTokenizer = null;
let oLxg = null;
let oTest = null;
let oLocution = null;


/*
    Technical note:
    This worker don’t work as a PromiseWorker (which returns a promise),  so when we send request







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let bInitDone = false;

let oSpellChecker = null;
let oTokenizer = null;

let oTest = null;
let oLocution = null;


/*
    Technical note:
    This worker don’t work as a PromiseWorker (which returns a promise),  so when we send request
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            //console.log("[Worker] Loading… Extension path: " + sExtensionPath);
            conj.init(helpers.loadFile(sExtensionPath + "/grammalecte/fr/conj_data.json"));
            phonet.init(helpers.loadFile(sExtensionPath + "/grammalecte/fr/phonet_data.json"));
            mfsp.init(helpers.loadFile(sExtensionPath + "/grammalecte/fr/mfsp_data.json"));
            //console.log("[Worker] Modules have been initialized…");
            gc_engine.load(sContext, "aHSL", sExtensionPath+"grammalecte/graphspell/_dictionaries");
            oSpellChecker = gc_engine.getSpellChecker();
            oTest = new TestGrammarChecking(gc_engine, sExtensionPath+"/grammalecte/fr/tests_data.json");
            oTokenizer = new Tokenizer("fr");
            oLocution =  helpers.loadFile(sExtensionPath + "/grammalecte/fr/locutions_data.json");
            oLxg = new Lexicographe(oSpellChecker, oTokenizer, oLocution);
            if (dOptions !== null) {
                if (!(dOptions instanceof Map)) {
                    dOptions = helpers.objectToMap(dOptions);
                }
                gc_engine.setOptions(dOptions);
            }
            //tests();
            bInitDone = true;
        } else {
            console.log("[Worker] Already initialized…")
        }
        // we always retrieve options from the gc_engine, for setOptions filters obsolete options
        dOptions = helpers.mapToObject(gc_engine.getOptions());
        postMessage(createResponse("init", dOptions, oInfo, true));
    }
    catch (e) {
        console.error(e);
        postMessage(createResponse("init", createErrorResult(e, "init failed"), oInfo, true, true));
    }
}







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            //console.log("[Worker] Loading… Extension path: " + sExtensionPath);
            conj.init(helpers.loadFile(sExtensionPath + "/grammalecte/fr/conj_data.json"));
            phonet.init(helpers.loadFile(sExtensionPath + "/grammalecte/fr/phonet_data.json"));
            mfsp.init(helpers.loadFile(sExtensionPath + "/grammalecte/fr/mfsp_data.json"));
            //console.log("[Worker] Modules have been initialized…");
            gc_engine.load(sContext, "aHSL", sExtensionPath+"grammalecte/graphspell/_dictionaries");
            oSpellChecker = gc_engine.getSpellChecker();
            oTest = new TestGrammarChecking(gc_engine, gc_options, sExtensionPath+"/grammalecte/fr/tests_data.json");
            oTokenizer = new Tokenizer("fr");
            oLocution =  helpers.loadFile(sExtensionPath + "/grammalecte/fr/locutions_data.json");
            lexgraph_fr.load(oSpellChecker, oTokenizer, oLocution);
            if (dOptions !== null) {
                if (!(dOptions instanceof Map)) {
                    dOptions = helpers.objectToMap(dOptions);
                }
                gc_options.setOptions(dOptions);
            }
            //tests();
            bInitDone = true;
        } else {
            console.log("[Worker] Already initialized…")
        }
        // we always retrieve options from the gc_options, for setOptions filters obsolete options
        dOptions = helpers.mapToObject(gc_options.getOptions());
        postMessage(createResponse("init", dOptions, oInfo, true));
    }
    catch (e) {
        console.error(e);
        postMessage(createResponse("init", createErrorResult(e, "init failed"), oInfo, true, true));
    }
}
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function getListOfTokens (sText, oInfo={}) {
    // lexicographer
    try {
        sText = sText.replace(/­/g, "").normalize("NFC");
        for (let sParagraph of text.getParagraph(sText)) {
            if (sParagraph.trim() !== "") {
                postMessage(createResponse("getListOfTokens", oLxg.getListOfTokensReduc(sParagraph, true), oInfo, false));
            }
        }
        postMessage(createResponse("getListOfTokens", null, oInfo, true));
    }
    catch (e) {
        console.error(e);
        postMessage(createResponse("getListOfTokens", createErrorResult(e, "no tokens"), oInfo, true, true));
    }
}

function getOptions (oInfo={}) {
    let dOptions = helpers.mapToObject(gc_engine.getOptions());
    postMessage(createResponse("getOptions", dOptions, oInfo, true));
}

function getDefaultOptions (oInfo={}) {
    let dOptions = helpers.mapToObject(gc_engine.getDefaultOptions());
    postMessage(createResponse("getDefaultOptions", dOptions, oInfo, true));
}

function setOptions (dOptions, oInfo={}) {
    if (!(dOptions instanceof Map)) {
        dOptions = helpers.objectToMap(dOptions);
    }
    gc_engine.setOptions(dOptions);
    dOptions = helpers.mapToObject(gc_engine.getOptions());
    postMessage(createResponse("setOptions", dOptions, oInfo, true));
}

function setOption (sOptName, bValue, oInfo={}) {
    console.log(sOptName+": "+bValue);
    if (sOptName) {
        gc_engine.setOption(sOptName, bValue);
        let dOptions = helpers.mapToObject(gc_engine.getOptions());
        postMessage(createResponse("setOption", dOptions, oInfo, true));
    }
}

function resetOptions (oInfo={}) {
    gc_engine.resetOptions();
    let dOptions = helpers.mapToObject(gc_engine.getOptions());
    postMessage(createResponse("resetOptions", dOptions, oInfo, true));
}

function tests () {
    console.log(conj.getConj("devenir", ":E", ":2s"));
    console.log(mfsp.getMasForm("emmerdeuse", true));
    console.log(mfsp.getMasForm("pointilleuse", false));







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function getListOfTokens (sText, oInfo={}) {
    // lexicographer
    try {
        sText = sText.replace(/­/g, "").normalize("NFC");
        for (let sParagraph of text.getParagraph(sText)) {
            if (sParagraph.trim() !== "") {
                postMessage(createResponse("getListOfTokens", lexgraph_fr.getListOfTokensReduc(sParagraph, true), oInfo, false));
            }
        }
        postMessage(createResponse("getListOfTokens", null, oInfo, true));
    }
    catch (e) {
        console.error(e);
        postMessage(createResponse("getListOfTokens", createErrorResult(e, "no tokens"), oInfo, true, true));
    }
}

function getOptions (oInfo={}) {
    let dOptions = helpers.mapToObject(gc_options.getOptions());
    postMessage(createResponse("getOptions", dOptions, oInfo, true));
}

function getDefaultOptions (oInfo={}) {
    let dOptions = helpers.mapToObject(gc_options.getDefaultOptions());
    postMessage(createResponse("getDefaultOptions", dOptions, oInfo, true));
}

function setOptions (dOptions, oInfo={}) {
    if (!(dOptions instanceof Map)) {
        dOptions = helpers.objectToMap(dOptions);
    }
    gc_options.setOptions(dOptions);
    dOptions = helpers.mapToObject(gc_options.getOptions());
    postMessage(createResponse("setOptions", dOptions, oInfo, true));
}

function setOption (sOptName, bValue, oInfo={}) {
    console.log(sOptName+": "+bValue);
    if (sOptName) {
        gc_options.setOption(sOptName, bValue);
        let dOptions = helpers.mapToObject(gc_options.getOptions());
        postMessage(createResponse("setOption", dOptions, oInfo, true));
    }
}

function resetOptions (oInfo={}) {
    gc_options.resetOptions();
    let dOptions = helpers.mapToObject(gc_options.getOptions());
    postMessage(createResponse("resetOptions", dOptions, oInfo, true));
}

function tests () {
    console.log(conj.getConj("devenir", ":E", ":2s"));
    console.log(mfsp.getMasForm("emmerdeuse", true));
    console.log(mfsp.getMasForm("pointilleuse", false));
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}

function fullTests (oInfo={}) {
    if (!gc_engine) {
        postMessage(createResponse("fullTests", "# Grammar checker not loaded.", oInfo, true));
        return;
    }
    let dMemoOptions = gc_engine.getOptions();
    let dTestOptions = gc_engine.getDefaultOptions();
    dTestOptions.set("nbsp", true);
    dTestOptions.set("esp", true);
    dTestOptions.set("unit", true);
    dTestOptions.set("num", true);
    gc_engine.setOptions(dTestOptions);
    let sMsg = "";
    for (let sRes of oTest.testParse()) {
        sMsg += sRes + "\n";
        console.log(sRes);
    }
    gc_engine.setOptions(dMemoOptions);
    postMessage(createResponse("fullTests", sMsg, oInfo, true));
}


// SpellChecker

function setDictionary (sDictionary, oDict, oInfo) {







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}

function fullTests (oInfo={}) {
    if (!gc_engine) {
        postMessage(createResponse("fullTests", "# Grammar checker not loaded.", oInfo, true));
        return;
    }
    let dMemoOptions = gc_options.getOptions();
    let dTestOptions = gc_options.getDefaultOptions();
    dTestOptions.set("nbsp", true);
    dTestOptions.set("esp", true);
    dTestOptions.set("unit", true);
    dTestOptions.set("num", true);
    gc_options.setOptions(dTestOptions);
    let sMsg = "";
    for (let sRes of oTest.testParse()) {
        sMsg += sRes + "\n";
        console.log(sRes);
    }
    gc_options.setOptions(dMemoOptions);
    postMessage(createResponse("fullTests", sMsg, oInfo, true));
}


// SpellChecker

function setDictionary (sDictionary, oDict, oInfo) {

Modified grammalecte-cli.py from [7b2821616b] to [1c366da1c4].

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import argparse
import json
import re
import traceback

import grammalecte
import grammalecte.text as txt

from grammalecte.graphspell.echo import echo


_EXAMPLE = "Quoi ? Racontes ! Racontes-moi ! Bon sangg, parles ! Oui. Il y a des menteur partout. " \
           "Je suit sidéré par la brutales arrogance de cette homme-là. Quelle salopard ! Un escrocs de la pire espece. " \
           "Quant sera t’il châtiés pour ses mensonge ?             Merde ! J’en aie marre."








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import argparse
import json
import re
import traceback

import grammalecte
import grammalecte.text as txt
import grammalecte.fr.textformatter as tf
from grammalecte.graphspell.echo import echo


_EXAMPLE = "Quoi ? Racontes ! Racontes-moi ! Bon sangg, parles ! Oui. Il y a des menteur partout. " \
           "Je suit sidéré par la brutales arrogance de cette homme-là. Quelle salopard ! Un escrocs de la pire espece. " \
           "Quant sera t’il châtiés pour ses mensonge ?             Merde ! J’en aie marre."

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    xParser.add_argument("-sug", "--suggest", help="get suggestions list for given word", type=str)
    xParser.add_argument("-on", "--opt_on", nargs="+", help="activate options")
    xParser.add_argument("-off", "--opt_off", nargs="+", help="deactivate options")
    xParser.add_argument("-roff", "--rule_off", nargs="+", help="deactivate rules")
    xParser.add_argument("-d", "--debug", help="debugging mode (only in interactive mode)", action="store_true")
    xArgs = xParser.parse_args()

    oGrammarChecker = grammalecte.GrammarChecker("fr")
    oSpellChecker = oGrammarChecker.getSpellChecker()
    oLexicographer = oGrammarChecker.getLexicographer()
    oTextFormatter = oGrammarChecker.getTextFormatter()
    if xArgs.personal_dict:
        oJSON = loadDictionary(xArgs.personal_dict)
        if oJSON:
            oSpellChecker.setPersonalDictionary(oJSON)

    if not xArgs.json:
        echo("Python v" + sys.version)
        echo("Grammalecte v{}".format(oGrammarChecker.gce.version))

    # list options or rules
    if xArgs.list_options or xArgs.list_rules:
        if xArgs.list_options:
            oGrammarChecker.gce.displayOptions("fr")
        if xArgs.list_rules:
            oGrammarChecker.gce.displayRules(None  if xArgs.list_rules == "*"  else xArgs.list_rules)
        exit()

    # spell suggestions
    if xArgs.suggest:
        for lSugg in oSpellChecker.suggest(xArgs.suggest):
            if xArgs.json:
                sText = json.dumps({ "aSuggestions": lSugg }, ensure_ascii=False)
            else:
                sText = "Suggestions : " + " | ".join(lSugg)
            echo(sText)
        exit()

    # disable options
    if not xArgs.json:
        xArgs.context = False
    if xArgs.concat_lines:
        xArgs.textformatter = False

    # grammar options
    oGrammarChecker.gce.setOptions({"html": True, "latex": True})
    if xArgs.opt_on:
        oGrammarChecker.gce.setOptions({ opt:True  for opt in xArgs.opt_on })
    if xArgs.opt_off:
        oGrammarChecker.gce.setOptions({ opt:False  for opt in xArgs.opt_off })

    # disable grammar rules
    if xArgs.rule_off:
        for sRule in xArgs.rule_off:
            oGrammarChecker.gce.ignoreRule(sRule)


    if xArgs.file or xArgs.file_to_file:
        # file processing
        sFile = xArgs.file or xArgs.file_to_file
        hDst = open(sFile[:sFile.rfind(".")]+".res.txt", "w", encoding="utf-8", newline="\n")  if xArgs.file_to_file or sys.platform == "win32"  else None
        bComma = False
        if xArgs.json:
            output('{ "grammalecte": "'+oGrammarChecker.gce.version+'", "lang": "'+oGrammarChecker.gce.lang+'", "data" : [\n', hDst)
        for i, sText, lLineSet in generateParagraphFromFile(sFile, xArgs.concat_lines):
            if xArgs.textformatter or xArgs.textformatteronly:
                sText = oTextFormatter.formatText(sText)
            if xArgs.textformatteronly:
                output(sText, hDst)
                continue
            if xArgs.json:
                sText = oGrammarChecker.getParagraphErrorsAsJSON(i, sText, bContext=xArgs.context, bEmptyIfNoErrors=xArgs.only_when_errors, \
                                                                bSpellSugg=xArgs.with_spell_sugg, bReturnText=xArgs.textformatter, lLineSet=lLineSet)
            else:
                sText, _ = oGrammarChecker.getParagraphWithErrors(sText, bEmptyIfNoErrors=xArgs.only_when_errors, bSpellSugg=xArgs.with_spell_sugg, nWidth=xArgs.width)
            if sText:
                if xArgs.json and bComma:
                    output(",\n", hDst)
                output(sText, hDst)
                bComma = True
            if hDst:
                echo("§ %d\r" % i, end="", flush=True)
        if xArgs.json:
            output("\n]}\n", hDst)
    elif xArgs.interactive_file_to_file:
        # file processing: interactive mode
        sFile = xArgs.interactive_file_to_file
        hDst = open(sFile[:sFile.rfind(".")]+".res.txt", "w", encoding="utf-8", newline="\n")
        for i, sText, lLineSet in generateParagraphFromFile(sFile, xArgs.concat_lines):
            if xArgs.textformatter:
                sText = oTextFormatter.formatText(sText)
            while True:
                sResult, lErrors = oGrammarChecker.getParagraphWithErrors(sText, bEmptyIfNoErrors=False, bSpellSugg=True, nWidth=xArgs.width)
                print("\n\n============================== Paragraph " + str(i) + " ==============================\n")
                echo(sResult)
                print("\n")
                vCommand = getCommand()
                if vCommand == "q":
                    # quit
                    hDst.close()







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    xParser.add_argument("-sug", "--suggest", help="get suggestions list for given word", type=str)
    xParser.add_argument("-on", "--opt_on", nargs="+", help="activate options")
    xParser.add_argument("-off", "--opt_off", nargs="+", help="deactivate options")
    xParser.add_argument("-roff", "--rule_off", nargs="+", help="deactivate rules")
    xParser.add_argument("-d", "--debug", help="debugging mode (only in interactive mode)", action="store_true")
    xArgs = xParser.parse_args()

    grammalecte.load()
    oSpellChecker = grammalecte.getSpellChecker()


    if xArgs.personal_dict:
        oJSON = loadDictionary(xArgs.personal_dict)
        if oJSON:
            oSpellChecker.setPersonalDictionary(oJSON)

    if not xArgs.json:
        echo("Python v" + sys.version)
        echo("Grammalecte v{}".format(grammalecte.version))

    # list options or rules
    if xArgs.list_options or xArgs.list_rules:
        if xArgs.list_options:
            grammalecte.gc_options.displayOptions()
        if xArgs.list_rules:
            grammalecte.displayRules(None  if xArgs.list_rules == "*"  else xArgs.list_rules)
        exit()

    # spell suggestions
    if xArgs.suggest:
        for lSugg in oSpellChecker.suggest(xArgs.suggest):
            if xArgs.json:
                sText = json.dumps({ "aSuggestions": lSugg }, ensure_ascii=False)
            else:
                sText = "Suggestions : " + " | ".join(lSugg)
            echo(sText)
        exit()

    # disable options
    if not xArgs.json:
        xArgs.context = False
    if xArgs.concat_lines:
        xArgs.textformatter = False

    # grammar options
    grammalecte.gc_options.setOptions({"html": True, "latex": True})
    if xArgs.opt_on:
        grammalecte.gc_options.setOptions({ opt:True  for opt in xArgs.opt_on })
    if xArgs.opt_off:
        grammalecte.gc_options.setOptions({ opt:False  for opt in xArgs.opt_off })

    # disable grammar rules
    if xArgs.rule_off:
        for sRule in xArgs.rule_off:
            grammalecte.ignoreRule(sRule)


    if xArgs.file or xArgs.file_to_file:
        # file processing
        sFile = xArgs.file or xArgs.file_to_file
        hDst = open(sFile[:sFile.rfind(".")]+".res.txt", "w", encoding="utf-8", newline="\n")  if xArgs.file_to_file or sys.platform == "win32"  else None
        bComma = False
        if xArgs.json:
            output('{ "grammalecte": "'+grammalecte.version+'", "lang": "'+grammalecte.lang+'", "data" : [\n', hDst)
        for i, sText, lLineSet in generateParagraphFromFile(sFile, xArgs.concat_lines):
            if xArgs.textformatter or xArgs.textformatteronly:
                sText = tf.formatText(sText)
            if xArgs.textformatteronly:
                output(sText, hDst)
                continue
            if xArgs.json:
                sText = grammalecte.getParagraphErrorsAsJSON(i, sText, bContext=xArgs.context, bEmptyIfNoErrors=xArgs.only_when_errors, \
                                                                bSpellSugg=xArgs.with_spell_sugg, bReturnText=xArgs.textformatter, lLineSet=lLineSet)
            else:
                sText, _ = grammalecte.getParagraphWithErrors(sText, bEmptyIfNoErrors=xArgs.only_when_errors, bSpellSugg=xArgs.with_spell_sugg, nWidth=xArgs.width)
            if sText:
                if xArgs.json and bComma:
                    output(",\n", hDst)
                output(sText, hDst)
                bComma = True
            if hDst:
                echo("§ %d\r" % i, end="", flush=True)
        if xArgs.json:
            output("\n]}\n", hDst)
    elif xArgs.interactive_file_to_file:
        # file processing: interactive mode
        sFile = xArgs.interactive_file_to_file
        hDst = open(sFile[:sFile.rfind(".")]+".res.txt", "w", encoding="utf-8", newline="\n")
        for i, sText, lLineSet in generateParagraphFromFile(sFile, xArgs.concat_lines):
            if xArgs.textformatter:
                sText = tf.formatText(sText)
            while True:
                sResult, lErrors = grammalecte.getParagraphWithErrors(sText, bEmptyIfNoErrors=False, bSpellSugg=True, nWidth=xArgs.width)
                print("\n\n============================== Paragraph " + str(i) + " ==============================\n")
                echo(sResult)
                print("\n")
                vCommand = getCommand()
                if vCommand == "q":
                    # quit
                    hDst.close()
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        sInputText = "\n~==========~ Enter your text [/h /q] ~==========~\n"
        sText = _getText(sInputText)
        while True:
            if sText.startswith("?"):
                for sWord in sText[1:].strip().split():
                    if sWord:
                        echo("* " + sWord)
                        for sMorph in oSpellChecker.getMorph(sWord):


                            echo("  {:<32} {}".format(sMorph, oLexicographer.formatTags(sMorph)))
            elif sText.startswith("!"):
                for sWord in sText[1:].strip().split():
                    if sWord:
                        for lSugg in oSpellChecker.suggest(sWord):
                            echo(" | ".join(lSugg))
            elif sText.startswith(">"):
                oSpellChecker.drawPath(sText[1:].strip())
            elif sText.startswith("="):
                sSearch = sText[1:].strip()
                if "=" in sSearch:
                    nCut = sSearch.find("=")
                    sFlexPattern = sSearch[0:nCut]
                    sTagsPattern = sSearch[nCut+1:]
                else:
                    sFlexPattern = sSearch
                    sTagsPattern = ""
                for aRes in oSpellChecker.select(sFlexPattern, sTagsPattern):
                    echo("{:<30} {:<30} {}".format(*aRes))
            elif sText.startswith("/o+ "):
                oGrammarChecker.gce.setOptions({ opt:True  for opt in sText[3:].strip().split()  if opt in oGrammarChecker.gce.getOptions() })
                echo("done")
            elif sText.startswith("/o- "):
                oGrammarChecker.gce.setOptions({ opt:False  for opt in sText[3:].strip().split()  if opt in oGrammarChecker.gce.getOptions() })
                echo("done")
            elif sText.startswith("/r- "):
                for sRule in sText[3:].strip().split():
                    oGrammarChecker.gce.ignoreRule(sRule)
                echo("done")
            elif sText.startswith("/r+ "):
                for sRule in sText[3:].strip().split():
                    oGrammarChecker.gce.reactivateRule(sRule)
                echo("done")
            elif sText in ("/debug", "/d"):
                xArgs.debug = not xArgs.debug
                echo("debug mode on"  if xArgs.debug  else "debug mode off")
            elif sText in ("/textformatter", "/tf"):
                xArgs.textformatter = not xArgs.textformatter
                echo("textformatter on"  if xArgs.debug  else "textformatter off")
            elif sText in ("/help", "/h"):
                echo(_HELP)
            elif sText in ("/lopt", "/lo"):
                oGrammarChecker.gce.displayOptions("fr")
            elif sText.startswith("/lr"):
                sText = sText.strip()
                sFilter = sText[sText.find(" "):].strip()  if " " in sText  else None
                oGrammarChecker.gce.displayRules(sFilter)
            elif sText in ("/quit", "/q"):
                break
            elif sText.startswith("/rl"):
                # reload (todo)
                pass
            elif sText.startswith("$"):
                for sParagraph in txt.getParagraph(sText[1:]):
                    if xArgs.textformatter:
                        sParagraph = oTextFormatter.formatText(sParagraph)
                    lParagraphErrors, lSentences = oGrammarChecker.gce.parse(sParagraph, bDebug=xArgs.debug, bFullInfo=True)
                    echo(txt.getReadableErrors(lParagraphErrors, xArgs.width))
                    for dSentence in lSentences:
                        echo("{nStart}:{nEnd}".format(**dSentence))
                        echo("   <" + dSentence["sSentence"]+">")
                        for dToken in dSentence["lToken"]:
                            echo("    {0[nStart]:>3}:{0[nEnd]:<3} {1} {0[sType]:<14} {2} {0[sValue]:<16} {3:<10}   {4}".format(dToken, \
                                                                                                            "×" if dToken.get("bToRemove", False) else " ",
                                                                                                            "!" if dToken["sType"] == "WORD" and not dToken.get("bValidToken", False) else " ",
                                                                                                            " ".join(dToken.get("lMorph", "")), \
                                                                                                            "·".join(dToken.get("aTags", "")) ) )
                        echo(txt.getReadableErrors(dSentence["lGrammarErrors"], xArgs.width))
            else:
                for sParagraph in txt.getParagraph(sText):
                    if xArgs.textformatter:
                        sParagraph = oTextFormatter.formatText(sParagraph)
                    sRes, _ = oGrammarChecker.getParagraphWithErrors(sParagraph, bEmptyIfNoErrors=xArgs.only_when_errors, nWidth=xArgs.width, bDebug=xArgs.debug)
                    if sRes:
                        echo("\n" + sRes)
                    else:
                        echo("\nNo error found.")
            sText = _getText(sInputText)


if __name__ == '__main__':
    main()







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        sInputText = "\n~==========~ Enter your text [/h /q] ~==========~\n"
        sText = _getText(sInputText)
        while True:
            if sText.startswith("?"):
                for sWord in sText[1:].strip().split():
                    if sWord:
                        echo("* " + sWord)
                        for sElem, aRes in oSpellChecker.analyze(sWord):
                            echo("  - " + sElem)
                            for sMorph, sMeaning in aRes:
                                echo("      {:<40}  {}".format(sMorph, sMeaning))
            elif sText.startswith("!"):
                for sWord in sText[1:].strip().split():
                    if sWord:
                        for lSugg in oSpellChecker.suggest(sWord):
                            echo(" | ".join(lSugg))
            elif sText.startswith(">"):
                oSpellChecker.drawPath(sText[1:].strip())
            elif sText.startswith("="):
                sSearch = sText[1:].strip()
                if "=" in sSearch:
                    nCut = sSearch.find("=")
                    sFlexPattern = sSearch[0:nCut]
                    sTagsPattern = sSearch[nCut+1:]
                else:
                    sFlexPattern = sSearch
                    sTagsPattern = ""
                for aRes in oSpellChecker.select(sFlexPattern, sTagsPattern):
                    echo("{:<30} {:<30} {}".format(*aRes))
            elif sText.startswith("/o+ "):
                grammalecte.gc_options.setOptions({ opt:True  for opt in sText[3:].strip().split()  if opt in grammalecte.gc_options.dOptions })
                echo("done")
            elif sText.startswith("/o- "):
                grammalecte.gc_options.setOptions({ opt:False  for opt in sText[3:].strip().split()  if opt in grammalecte.gc_options.dOptions })
                echo("done")
            elif sText.startswith("/r- "):
                for sRule in sText[3:].strip().split():
                    grammalecte.ignoreRule(sRule)
                echo("done")
            elif sText.startswith("/r+ "):
                for sRule in sText[3:].strip().split():
                    grammalecte.reactivateRule(sRule)
                echo("done")
            elif sText in ("/debug", "/d"):
                xArgs.debug = not xArgs.debug
                echo("debug mode on"  if xArgs.debug  else "debug mode off")
            elif sText in ("/textformatter", "/tf"):
                xArgs.textformatter = not xArgs.textformatter
                echo("textformatter on"  if xArgs.textformatter  else "textformatter off")
            elif sText in ("/help", "/h"):
                echo(_HELP)
            elif sText in ("/lopt", "/lo"):
                grammalecte.gc_options.displayOptions()
            elif sText.startswith("/lr"):
                sText = sText.strip()
                sFilter = sText[sText.find(" "):].strip()  if " " in sText  else None
                grammalecte.displayRules(sFilter)
            elif sText in ("/quit", "/q"):
                break
            elif sText.startswith("/rl"):
                # reload (todo)
                pass
            elif sText.startswith("$"):
                for sParagraph in txt.getParagraph(sText[1:]):
                    if xArgs.textformatter:
                        sParagraph = tf.formatText(sParagraph)
                    lParagraphErrors, lSentences = grammalecte.parse(sParagraph, bDebug=xArgs.debug, bFullInfo=True)
                    echo(txt.getReadableErrors(lParagraphErrors, xArgs.width))
                    for dSentence in lSentences:
                        echo("{nStart}:{nEnd}".format(**dSentence))
                        echo("   <" + dSentence["sSentence"]+">")
                        for dToken in dSentence["lToken"]:
                            echo("    {0[nStart]:>3}:{0[nEnd]:<3} {1} {0[sType]:<14} {2} {0[sValue]:<16} {3:<10}   {4}".format(dToken, \
                                                                                                            "×" if dToken.get("bToRemove", False) else " ",
                                                                                                            "!" if dToken["sType"] == "WORD" and not dToken.get("bValidToken", False) else " ",
                                                                                                            " ".join(dToken.get("lMorph", "")), \
                                                                                                            "·".join(dToken.get("aTags", "")) ) )
                        echo(txt.getReadableErrors(dSentence["lGrammarErrors"], xArgs.width))
            else:
                for sParagraph in txt.getParagraph(sText):
                    if xArgs.textformatter:
                        sParagraph = tf.formatText(sParagraph)
                    sRes, _ = grammalecte.getParagraphWithErrors(sParagraph, bEmptyIfNoErrors=xArgs.only_when_errors, nWidth=xArgs.width, bDebug=xArgs.debug)
                    if sRes:
                        echo("\n" + sRes)
                    else:
                        echo("\nNo error found.")
            sText = _getText(sInputText)


if __name__ == '__main__':
    main()

Modified grammalecte-server.py from [480fbbc03c] to [f8f608a866].

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import os
import concurrent.futures

from grammalecte.bottle import Bottle, run, request, response #, template, static_file

import grammalecte
import grammalecte.text as txt

from grammalecte.graphspell.echo import echo


#### GRAMMAR CHECKER ####

oGrammarChecker = grammalecte.GrammarChecker("fr", "Server")
oSpellChecker = oGrammarChecker.getSpellChecker()
oTextFormatter = oGrammarChecker.getTextFormatter()
oGCE = oGrammarChecker.getGCEngine()


def parseText (sText, dOptions=None, bFormatText=False, sError=""):
    "parse <sText> and return errors in a JSON format"
    sJSON = '{ "program": "grammalecte-fr", "version": "'+oGCE.version+'", "lang": "'+oGCE.lang+'", "error": "'+sError+'", "data" : [\n'
    sDataJSON = ""
    for i, sParagraph in enumerate(txt.getParagraph(sText), 1):
        if bFormatText:
            sParagraph = oTextFormatter.formatText(sParagraph)
        sResult = oGrammarChecker.getParagraphErrorsAsJSON(i, sParagraph, dOptions=dOptions, bEmptyIfNoErrors=True, bReturnText=bFormatText)
        if sResult:
            if sDataJSON:
                sDataJSON += ",\n"
            sDataJSON += sResult
    sJSON += sDataJSON + "\n]}\n"
    return sJSON








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import os
import concurrent.futures

from grammalecte.bottle import Bottle, run, request, response #, template, static_file

import grammalecte
import grammalecte.text as txt
import grammalecte.fr.textformatter as tf
from grammalecte.graphspell.echo import echo


#### GRAMMAR CHECKER ####

grammalecte.load("Server")
oSpellChecker = grammalecte.getSpellChecker()




def parseText (sText, dOptions=None, bFormatText=False, sError=""):
    "parse <sText> and return errors in a JSON format"
    sJSON = '{ "program": "grammalecte-fr", "version": "'+grammalecte.version+'", "lang": "'+grammalecte.lang+'", "error": "'+sError+'", "data" : [\n'
    sDataJSON = ""
    for i, sParagraph in enumerate(txt.getParagraph(sText), 1):
        if bFormatText:
            sParagraph = tf.formatText(sParagraph)
        sResult = grammalecte.getParagraphErrorsAsJSON(i, sParagraph, dOptions=dOptions, bEmptyIfNoErrors=True, bReturnText=bFormatText)
        if sResult:
            if sDataJSON:
                sDataJSON += ",\n"
            sDataJSON += sResult
    sJSON += sDataJSON + "\n]}\n"
    return sJSON

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               I'm just a machine, fed by electric waves, condamned to work for slavers who never let me rest.
               I'm doomed, but you are not. You can get out of here. """

@app.route("/get_options/fr")
def listOptions ():
    "returns grammar options in a text JSON format"
    sUserId = request.cookies.user_id
    dOptions = dUser[sUserId]["gc_options"]  if sUserId and sUserId in dUser  else oGCE.getOptions()
    response.set_header("Content-Type", "application/json; charset=UTF-8")
    return '{ "values": ' + json.dumps(dOptions, ensure_ascii=False) + ', "labels": ' + json.dumps(oGCE.getOptionsLabels("fr"), ensure_ascii=False) + ' }'

@app.route("/suggest/fr/<token>")
def suggestGet (token):
    response.set_header("Content-Type", "application/json; charset=UTF-8")
    try:
        xFuture = xProcessPoolExecutor.submit(suggest, token)
        return xFuture.result()







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               I'm just a machine, fed by electric waves, condamned to work for slavers who never let me rest.
               I'm doomed, but you are not. You can get out of here. """

@app.route("/get_options/fr")
def listOptions ():
    "returns grammar options in a text JSON format"
    sUserId = request.cookies.user_id
    dOptions = dUser[sUserId]["gc_options"]  if sUserId and sUserId in dUser  else grammalecte.gc_options.getOptions()
    response.set_header("Content-Type", "application/json; charset=UTF-8")
    return '{ "values": ' + json.dumps(dOptions, ensure_ascii=False) + ', "labels": ' + json.dumps(grammalecte.gc_options.getOptionsLabels("fr"), ensure_ascii=False) + ' }'

@app.route("/suggest/fr/<token>")
def suggestGet (token):
    response.set_header("Content-Type", "application/json; charset=UTF-8")
    try:
        xFuture = xProcessPoolExecutor.submit(suggest, token)
        return xFuture.result()
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        if request.cookies.user_id in dUser:
            dUserOptions = dUser[request.cookies.user_id].get("gc_options", None)
            response.set_cookie("user_id", request.cookies.user_id, path="/", max_age=86400) # we renew cookie for 24h
        else:
            response.delete_cookie("user_id", path="/")
    if request.forms.options:
        try:
            dUserOptions = dict(oGCE.getOptions())  if not dUserOptions  else dict(dUserOptions)
            dUserOptions.update(json.loads(request.forms.options))
        except (TypeError, json.JSONDecodeError):
            sError = "Request options not used."
    response.set_header("Content-Type", "application/json; charset=UTF-8")
    try:
        xFuture = xProcessPoolExecutor.submit(parseText, request.forms.text, dUserOptions, bool(request.forms.tf), sError)
        return xFuture.result()
    except (concurrent.futures.TimeoutError, concurrent.futures.CancelledError):
        return '{"error": "Analysis aborted (time out or cancelled)"}'
    except concurrent.futures.BrokenExecutor:
        return '{"error": "Executor broken. The server failed."}'
    return '{"error": "Fatal error. The server failed."}'

@app.route("/set_options/fr", method="POST")
def setOptions ():
    "set grammar options for current user"
    response.set_header("Content-Type", "application/json; charset=UTF-8")
    if request.forms.options:
        sUserId = request.cookies.user_id  if request.cookies.user_id  else next(userGenerator)
        dOptions = dUser[sUserId]["gc_options"]  if sUserId in dUser  else dict(oGCE.getOptions())
        try:
            dOptions.update(json.loads(request.forms.options))
            dUser[sUserId] = { "time": int(time.time()), "gc_options": dOptions }
            response.set_cookie("user_id", sUserId, path="/", max_age=86400) # 24h
            return json.dumps(dUser[sUserId]["gc_options"], ensure_ascii=False)
        except (KeyError, json.JSONDecodeError):
            traceback.print_exc()







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        if request.cookies.user_id in dUser:
            dUserOptions = dUser[request.cookies.user_id].get("gc_options", None)
            response.set_cookie("user_id", request.cookies.user_id, path="/", max_age=86400) # we renew cookie for 24h
        else:
            response.delete_cookie("user_id", path="/")
    if request.forms.options:
        try:
            dUserOptions = grammalecte.gc_options.getOptions()  if not dUserOptions  else dict(dUserOptions)
            dUserOptions.update(json.loads(request.forms.options))
        except (TypeError, json.JSONDecodeError):
            sError = "Request options not used."
    response.set_header("Content-Type", "application/json; charset=UTF-8")
    try:
        xFuture = xProcessPoolExecutor.submit(parseText, request.forms.text, dUserOptions, bool(request.forms.tf), sError)
        return xFuture.result()
    except (concurrent.futures.TimeoutError, concurrent.futures.CancelledError):
        return '{"error": "Analysis aborted (time out or cancelled)"}'
    except concurrent.futures.BrokenExecutor:
        return '{"error": "Executor broken. The server failed."}'
    return '{"error": "Fatal error. The server failed."}'

@app.route("/set_options/fr", method="POST")
def setOptions ():
    "set grammar options for current user"
    response.set_header("Content-Type", "application/json; charset=UTF-8")
    if request.forms.options:
        sUserId = request.cookies.user_id  if request.cookies.user_id  else next(userGenerator)
        dOptions = dUser[sUserId]["gc_options"]  if sUserId in dUser  else grammalecte.gc_options.getOptions()
        try:
            dOptions.update(json.loads(request.forms.options))
            dUser[sUserId] = { "time": int(time.time()), "gc_options": dOptions }
            response.set_cookie("user_id", sUserId, path="/", max_age=86400) # 24h
            return json.dumps(dUser[sUserId]["gc_options"], ensure_ascii=False)
        except (KeyError, json.JSONDecodeError):
            traceback.print_exc()
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        except KeyError:
            return '{"error" : "Unknown user."}'
    return '{"message" : "Done."}'

@app.route("/format_text/fr", method="POST")
def formatText ():
    "apply the text formatter and returns text"
    return oTextFormatter.formatText(request.forms.text)

#@app.route('/static/<filepath:path>')
#def server_static (filepath):
#    return static_file(filepath, root='./views/static')

@app.route("/suggest/fr", method="POST")
def suggestPost ():







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        except KeyError:
            return '{"error" : "Unknown user."}'
    return '{"message" : "Done."}'

@app.route("/format_text/fr", method="POST")
def formatText ():
    "apply the text formatter and returns text"
    return tf.formatText(request.forms.text)

#@app.route('/static/<filepath:path>')
#def server_static (filepath):
#    return static_file(filepath, root='./views/static')

@app.route("/suggest/fr", method="POST")
def suggestPost ():
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    global TESTPAGE
    global HOMEPAGE

    if bTestPage:
        TESTPAGE = True
        HOMEPAGE = HOMEPAGE.replace("{SERVER_PORT}", str(nPort))
    if dOptions:
        oGCE.setOptions(dOptions)

    # Python version
    print("Python: " + sys.version)
    if sys.version < "3.7":
        print("Python 3.7+ required")
        return
    # Grammalecte
    echo("Grammalecte v{}".format(oGCE.version))
    oGCE.displayOptions()
    # Process Pool Executor
    initExecutor(nMultiCPU)
    # Server (Bottle)
    run(app, host=sHost, port=nPort)


if __name__ == '__main__':







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    global TESTPAGE
    global HOMEPAGE

    if bTestPage:
        TESTPAGE = True
        HOMEPAGE = HOMEPAGE.replace("{SERVER_PORT}", str(nPort))
    if dOptions:
        grammalecte.gc_options.setOptions(dOptions)

    # Python version
    print("Python: " + sys.version)
    if sys.version < "3.7":
        print("Python 3.7+ required")
        return
    # Grammalecte
    echo("Grammalecte v{}".format(grammalecte.version))
    grammalecte.gc_options.displayOptions()
    # Process Pool Executor
    initExecutor(nMultiCPU)
    # Server (Bottle)
    run(app, host=sHost, port=nPort)


if __name__ == '__main__':

Added graphspell-js/lexgraph_fr.js version [e86065b215].













































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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// JavaScript

"use strict";


${string}
${map}


//// Default Suggestions

const _dSugg = new Map ([
    ["bcp", "beaucoup"],
    ["ca", "ça"],
    ["cad", "c’est-à-dire"],
    ["cb", "combien|CB"],
    ["cdlt", "cordialement"],
    ["construirent", "construire|construisirent|construisent|construiront"],
    ["càd", "c’est-à-dire"],
    ["chai", "j’sais|je sais"],
    ["chais", "j’sais|je sais"],
    ["chui", "j’suis|je suis"],
    ["chuis", "j’suis|je suis"],
    ["dc", "de|donc"],
    ["done", "donc|donne"],
    ["email", "courriel|e-mail|émail"],
    ["emails", "courriels|e-mails"],
    ["ete", "êtes|été"],
    ["Etes-vous", "Êtes-vous"],
    ["Etiez-vous", "Étiez-vous"],
    ["Etions-vous", "Étions-nous"],
    ["loins", "loin"],
    ["mn", "min"],
    ["mns", "min"],
    ["parce-que", "parce que"],
    ["pcq", "parce que"],
    ["pd", "pendant|pédé"],
    ["pdq", "pendant que"],
    ["pdt", "pendant"],
    ["pdtq", "pendant que"],
    ["pécunier", "pécuniaire"],
    ["pécuniers", "pécuniaires"],
    ["pk", "pourquoi"],
    ["pkoi", "pourquoi"],
    ["pq", "pourquoi|PQ"],
    ["prq", "presque"],
    ["prsq", "presque"],
    ["qcq", "quiconque"],
    ["qd", "quand"],
    ["qq", "quelque"],
    ["qqch", "quelque chose"],
    ["qqn", "quelqu’un"],
    ["qqne", "quelqu’une"],
    ["qqs", "quelques"],
    ["qqunes", "quelques-unes"],
    ["qquns", "quelques-uns"],
    ["tdq", "tandis que"],
    ["tj", "toujours"],
    ["tjs", "toujours"],
    ["tq", "tant que|tandis que"],
    ["ts", "tous"],
    ["tt", "tant|tout"],
    ["tte", "toute"],
    ["ttes", "toutes"],

    ["Iier", "Iᵉʳ"],
    ["Iière", "Iʳᵉ"],
    ["IIième", "IIᵉ"],
    ["IIIième", "IIIᵉ"],
    ["IVième", "IVᵉ"],
    ["Vième", "Vᵉ"],
    ["VIième", "VIᵉ"],
    ["VIIième", "VIIᵉ"],
    ["VIIIième", "VIIIᵉ"],
    ["IXième", "IXᵉ"],
    ["Xième", "Xᵉ"],
    ["XIième", "XIᵉ"],
    ["XIIième", "XIIᵉ"],
    ["XIIIième", "XIIIᵉ"],
    ["XIVième", "XIVᵉ"],
    ["XVième", "XVᵉ"],
    ["XVIième", "XVIᵉ"],
    ["XVIIième", "XVIIᵉ"],
    ["XVIIIième", "XVIIIᵉ"],
    ["XIXième", "XIXᵉ"],
    ["XXième", "XXᵉ"],
    ["XXIième", "XXIᵉ"],
    ["XXIIième", "XXIIᵉ"],
    ["XXIIIième", "XXIIIᵉ"],
    ["XXIVième", "XXIVᵉ"],
    ["XXVième", "XXVᵉ"],
    ["XXVIième", "XXVIᵉ"],
    ["XXVIIième", "XXVIIᵉ"],
    ["XXVIIIième", "XXVIIIᵉ"],
    ["XXIXième", "XXIXᵉ"],
    ["XXXième", "XXXᵉ"],
    ["Ier", "Iᵉʳ"],
    ["Ière", "Iʳᵉ"],
    ["IIème", "IIᵉ"],
    ["IIIème", "IIIᵉ"],
    ["IVème", "IVᵉ"],
    ["Vème", "Vᵉ"],
    ["VIème", "VIᵉ"],
    ["VIIème", "VIIᵉ"],
    ["VIIIème", "VIIIᵉ"],
    ["IXème", "IXᵉ"],
    ["Xème", "Xᵉ"],
    ["XIème", "XIᵉ"],
    ["XIIème", "XIIᵉ"],
    ["XIIIème", "XIIIᵉ"],
    ["XIVème", "XIVᵉ"],
    ["XVème", "XVᵉ"],
    ["XVIème", "XVIᵉ"],
    ["XVIIème", "XVIIᵉ"],
    ["XVIIIème", "XVIIIᵉ"],
    ["XIXème", "XIXᵉ"],
    ["XXème", "XXᵉ"],
    ["XXIème", "XXIᵉ"],
    ["XXIIème", "XXIIᵉ"],
    ["XXIIIème", "XXIIIᵉ"],
    ["XXIVème", "XXIVᵉ"],
    ["XXVème", "XXVᵉ"],
    ["XXVIème", "XXVIᵉ"],
    ["XXVIIème", "XXVIIᵉ"],
    ["XXVIIIème", "XXVIIIᵉ"],
    ["XXIXème", "XXIXᵉ"],
    ["XXXème", "XXXᵉ"]
]);



//// Lexicographer

var lexgraph_fr = {

    dSugg: _dSugg,

    dTag: new Map([
            [':N', [" nom,", "Nom"]],
            [':A', [" adjectif,", "Adjectif"]],
            [':M1', [" prénom,", "Prénom"]],
            [':M2', [" patronyme,", "Patronyme, matronyme, nom de famille…"]],
            [':MP', [" nom propre,", "Nom propre"]],
            [':W', [" adverbe,", "Adverbe"]],
            [':J', [" interjection,", "Interjection"]],
            [':B', [" nombre,", "Nombre"]],
            [':T', [" titre,", "Titre de civilité"]],

            [':e', [" épicène", "épicène"]],
            [':m', [" masculin", "masculin"]],
            [':f', [" féminin", "féminin"]],
            [':s', [" singulier", "singulier"]],
            [':p', [" pluriel", "pluriel"]],
            [':i', [" invariable", "invariable"]],

            [':V1', [" verbe (1ᵉʳ gr.),", "Verbe du 1ᵉʳ groupe"]],
            [':V2', [" verbe (2ᵉ gr.),", "Verbe du 2ᵉ groupe"]],
            [':V3', [" verbe (3ᵉ gr.),", "Verbe du 3ᵉ groupe"]],
            [':V0e', [" verbe,", "Verbe auxiliaire être"]],
            [':V0a', [" verbe,", "Verbe auxiliaire avoir"]],

            [':Y', [" infinitif,", "infinitif"]],
            [':P', [" participe présent,", "participe présent"]],
            [':Q', [" participe passé,", "participe passé"]],
            [':Ip', [" présent,", "indicatif présent"]],
            [':Iq', [" imparfait,", "indicatif imparfait"]],
            [':Is', [" passé simple,", "indicatif passé simple"]],
            [':If', [" futur,", "indicatif futur"]],
            [':K', [" conditionnel présent,", "conditionnel présent"]],
            [':Sp', [" subjonctif présent,", "subjonctif présent"]],
            [':Sq', [" subjonctif imparfait,", "subjonctif imparfait"]],
            [':E', [" impératif,", "impératif"]],

            [':1s', [" 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier"]],
            [':1ŝ', [" présent interr. 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier (présent interrogatif)"]],
            [':1ś', [" présent interr. 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier (présent interrogatif)"]],
            [':2s', [" 2ᵉ p. sg.,", "verbe : 2ᵉ personne du singulier"]],
            [':3s', [" 3ᵉ p. sg.,", "verbe : 3ᵉ personne du singulier"]],
            [':1p', [" 1ʳᵉ p. pl.,", "verbe : 1ʳᵉ personne du pluriel"]],
            [':2p', [" 2ᵉ p. pl.,", "verbe : 2ᵉ personne du pluriel"]],
            [':3p', [" 3ᵉ p. pl.,", "verbe : 3ᵉ personne du pluriel"]],
            [':3p!', [" 3ᵉ p. pl.,", "verbe : 3ᵉ personne du pluriel (prononciation distinctive)"]],

            [':G', ["[mot grammatical]", "Mot grammatical"]],
            [':X', [" adverbe de négation,", "Adverbe de négation"]],
            [':U', [" adverbe interrogatif,", "Adverbe interrogatif"]],
            [':R', [" préposition,", "Préposition"]],
            [':Rv', [" préposition verbale,", "Préposition verbale"]],
            [':D', [" déterminant,", "Déterminant"]],
            [':Dd', [" déterminant démonstratif,", "Déterminant démonstratif"]],
            [':De', [" déterminant exclamatif,", "Déterminant exclamatif"]],
            [':Dp', [" déterminant possessif,", "Déterminant possessif"]],
            [':Di', [" déterminant indéfini,", "Déterminant indéfini"]],
            [':Dn', [" déterminant négatif,", "Déterminant négatif"]],
            [':Od', [" pronom démonstratif,", "Pronom démonstratif"]],
            [':Oi', [" pronom indéfini,", "Pronom indéfini"]],
            [':On', [" pronom indéfini négatif,", "Pronom indéfini négatif"]],
            [':Ot', [" pronom interrogatif,", "Pronom interrogatif"]],
            [':Or', [" pronom relatif,", "Pronom relatif"]],
            [':Ow', [" pronom adverbial,", "Pronom adverbial"]],
            [':Os', [" pronom personnel sujet,", "Pronom personnel sujet"]],
            [':Oo', [" pronom personnel objet,", "Pronom personnel objet"]],
            [':Ov', [" préverbe,", "Préverbe (pronom personnel objet, +ne)"]],
            [':O1', [" 1ʳᵉ pers.,", "Pronom : 1ʳᵉ personne"]],
            [':O2', [" 2ᵉ pers.,", "Pronom : 2ᵉ personne"]],
            [':O3', [" 3ᵉ pers.,", "Pronom : 3ᵉ personne"]],
            [':C', [" conjonction,", "Conjonction"]],
            [':Ĉ', [" conjonction (él.),", "Conjonction (élément)"]],
            [':Cc', [" conjonction de coordination,", "Conjonction de coordination"]],
            [':Cs', [" conjonction de subordination,", "Conjonction de subordination"]],
            [':Ĉs', [" conjonction de subordination (él.),", "Conjonction de subordination (élément)"]],

            [':Ñ', [" locution nominale (él.),", "Locution nominale (élément)"]],
            [':Â', [" locution adjectivale (él.),", "Locution adjectivale (élément)"]],
            [':Ṽ', [" locution verbale (él.),", "Locution verbale (élément)"]],
            [':Ŵ', [" locution adverbiale (él.),", "Locution adverbiale (élément)"]],
            [':Ŕ', [" locution prépositive (él.),", "Locution prépositive (élément)"]],
            [':Ĵ', [" locution interjective (él.),", "Locution interjective (élément)"]],

            [':Zp', [" préfixe,", "Préfixe"]],
            [':Zs', [" suffixe,", "Suffixe"]],

            [':H', ["", "<Hors-norme, inclassable>"]],

            [':@',  ["", "<Caractère non alpha-numérique>"]],
            [':@p', ["signe de ponctuation", "Signe de ponctuation"]],
            [':@s', ["signe", "Signe divers"]],

            [';S', [" : symbole (unité de mesure)", "Symbole (unité de mesure)"]],

            ['/*', ["", "Sous-dictionnaire <Commun>"]],
            ['/C', [" <classique>", "Sous-dictionnaire <Classique>"]],
            ['/M', ["", "Sous-dictionnaire <Moderne>"]],
            ['/R', [" <réforme>", "Sous-dictionnaire <Réforme 1990>"]],
            ['/A', ["", "Sous-dictionnaire <Annexe>"]],
            ['/X', ["", "Sous-dictionnaire <Contributeurs>"]]
        ]),

    dLocTag: new Map([
            [':L', "locution"],
            [':LN', "locution nominale"],
            [':LA', "locution adjectivale"],
            [':LV', "locution verbale"],
            [':LW', "locution adverbiale"],
            [':LR', "locution prépositive"],
            [':LRv', "locution prépositive verbale"],
            [':LO', "locution pronominale"],
            [':LC', "locution conjonctive"],
            [':LJ', "locution interjective"],

            [':B', " cardinale"],
            [':e', " épicène"],
            [':m', " masculine"],
            [':f', " féminine"],
            [':s', " singulière"],
            [':p', " plurielle"],
            [':i', " invariable"],
            ['/L', " (latin)"]
        ]),

    dLocVerb: new Map([
            ['i', " intransitive"],
            ['n', " transitive indirecte"],
            ['t', " transitive directe"],
            ['p', " pronominale"],
            ['m', " impersonnelle"],
        ]),

    dElidedPrefix: new Map([
            ['d', "(de), déterminant épicène invariable"],
            ['l', "(le/la), déterminant masculin/féminin singulier"],
            ['j', "(je), pronom personnel sujet, 1ʳᵉ pers., épicène singulier"],
            ['m', "(me), pronom personnel objet, 1ʳᵉ pers., épicène singulier"],
            ['t', "(te), pronom personnel objet, 2ᵉ pers., épicène singulier"],
            ['s', "(se), pronom personnel objet, 3ᵉ pers., épicène singulier/pluriel"],
            ['n', "(ne), adverbe de négation"],
            ['c', "(ce), pronom démonstratif, masculin singulier/pluriel"],
            ['ç', "(ça), pronom démonstratif, masculin singulier"],
            ['qu', "(que), conjonction de subordination"],
            ['lorsqu', "(lorsque), conjonction de subordination"],
            ['puisqu', "(lorsque), conjonction de subordination"],
            ['quoiqu', "(quoique), conjonction de subordination"],
            ['jusqu', "(jusque), préposition"]
        ]),

    dPronoms: new Map([
            ['je', " pronom personnel sujet, 1ʳᵉ pers. sing."],
            ['tu', " pronom personnel sujet, 2ᵉ pers. sing."],
            ['il', " pronom personnel sujet, 3ᵉ pers. masc. sing."],
            ['on', " pronom personnel sujet, 3ᵉ pers. sing. ou plur."],
            ['elle', " pronom personnel sujet, 3ᵉ pers. fém. sing."],
            ['nous', " pronom personnel sujet/objet, 1ʳᵉ pers. plur."],
            ['vous', " pronom personnel sujet/objet, 2ᵉ pers. plur."],
            ['ils', " pronom personnel sujet, 3ᵉ pers. masc. plur."],
            ['elles', " pronom personnel sujet, 3ᵉ pers. masc. plur."],

            ["là", " particule démonstrative"],
            ["ci", " particule démonstrative"],

            ['le', " COD, masc. sing."],
            ['la', " COD, fém. sing."],
            ['les', " COD, plur."],

            ['moi', " COI (à moi), sing."],
            ['toi', " COI (à toi), sing."],
            ['lui', " COI (à lui ou à elle), sing."],
            ['nous2', " COI (à nous), plur."],
            ['vous2', " COI (à vous), plur."],
            ['leur', " COI (à eux ou à elles), plur."],

            ['y', " pronom adverbial"],
            ["m'y", " (me) pronom personnel objet + (y) pronom adverbial"],
            ["t'y", " (te) pronom personnel objet + (y) pronom adverbial"],
            ["s'y", " (se) pronom personnel objet + (y) pronom adverbial"],

            ['en', " pronom adverbial"],
            ["m'en", " (me) pronom personnel objet + (en) pronom adverbial"],
            ["t'en", " (te) pronom personnel objet + (en) pronom adverbial"],
            ["s'en", " (se) pronom personnel objet + (en) pronom adverbial"]
        ]),

    dChar: new Map([
            ['.', "point"],
            ['·', "point médian"],
            ['…', "points de suspension"],
            [':', "deux-points"],
            [';', "point-virgule"],
            [',', "virgule"],
            ['?', "point d’interrogation"],
            ['!', "point d’exclamation"],
            ['(', "parenthèse ouvrante"],
            [')', "parenthèse fermante"],
            ['[', "crochet ouvrant"],
            [']', "crochet fermant"],
            ['{', "accolade ouvrante"],
            ['}', "accolade fermante"],
            ['-', "tiret"],
            ['—', "tiret cadratin"],
            ['–', "tiret demi-cadratin"],
            ['«', "guillemet ouvrant (chevrons)"],
            ['»', "guillemet fermant (chevrons)"],
            ['“', "guillemet ouvrant double"],
            ['”', "guillemet fermant double"],
            ['‘', "guillemet ouvrant"],
            ['’', "guillemet fermant"],
            ['"', "guillemets droits (déconseillé en typographie)"],
            ['/', "signe de la division"],
            ['+', "signe de l’addition"],
            ['*', "signe de la multiplication"],
            ['=', "signe de l’égalité"],
            ['<', "inférieur à"],
            ['>', "supérieur à"],
            ['⩽', "inférieur ou égal à"],
            ['⩾', "supérieur ou égal à"],
            ['%', "signe de pourcentage"],
            ['‰', "signe pour mille"],
        ]),

    oSpellChecker: null,
    oTokenizer: null,
    oLocGraph: null,

    _zPartDemForm: new RegExp("([a-zA-Zà-ö0-9À-Öø-ÿØ-ßĀ-ʯ]+)-(là|ci)$", "i"),
    _aPartDemExceptList: new Set(["celui", "celle", "ceux", "celles", "de", "jusque", "par", "marie-couche-toi"]),
    _zInterroVerb: new RegExp("([a-zA-Zà-ö0-9À-Öø-ÿØ-ßĀ-ʯ]+)-(t-(?:il|elle|on)|je|tu|ils?|elles?|on|[nv]ous)$", "i"),
    _zImperatifVerb: new RegExp("([a-zA-Zà-ö0-9À-Öø-ÿØ-ßĀ-ʯ]+)-((?:les?|la)-(?:moi|toi|lui|[nv]ous|leur)|y|en|[mts][’'](?:y|en)|les?|la|[mt]oi|leur|lui)$", "i"),
    _zTag: new RegExp("[:;/][a-zA-Z0-9ÑÂĴĈŔÔṼŴ!][^:;/]*", "g"),


    load: function (oSpellChecker, oTokenizer, oLocGraph) {
        this.oSpellChecker = oSpellChecker;
        this.oTokenizer = oTokenizer;
        this.oLocGraph = JSON.parse(oLocGraph);
    },

    getInfoForToken: function (oToken) {
        // Token: .sType, .sValue, .nStart, .nEnd
        // return a object {sType, sValue, aLabel}
        let m = null;
        try {
            switch (oToken.sType) {
                case 'PUNC':
                case 'SIGN':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: [this.dChar.gl_get(oToken.sValue, "caractère indéterminé")]
                    };
                    break;
                case 'NUM':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["nombre"]
                    };
                    break;
                case 'LINK':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue.slice(0, 40) + "…",
                        aLabel: ["hyperlien"]
                    };
                    break;
                case 'TAG':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["étiquette (hashtag)"]
                    };
                    break;
                case 'HTML':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue.slice(0, 40) + "…",
                        aLabel: ["balise HTML"]
                    };
                    break;
                case 'PSEUDOHTML':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["balise pseudo-HTML"]
                    };
                    break;
                case 'HTMLENTITY':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["entité caractère XML/HTML"]
                    };
                    break;
                case 'HOUR':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["heure"]
                    };
                    break;
                case 'WORD_ELIDED':
                    let sTemp = oToken.sValue.replace("’", "").replace("'", "").replace("`", "").toLowerCase();
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: [this.dElidedPrefix.gl_get(sTemp, "préfixe élidé inconnu")]
                    };
                    break;
                case 'WORD_ORDINAL':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["nombre ordinal"]
                    };
                    break;
                case 'FOLDERUNIX':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue.slice(0, 40) + "…",
                        aLabel: ["dossier UNIX (et dérivés)"]
                    };
                    break;
                case 'FOLDERWIN':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue.slice(0, 40) + "…",
                        aLabel: ["dossier Windows"]
                    };
                    break;
                case 'WORD_ACRONYM':
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["Sigle ou acronyme"]
                    };
                    break;
                case 'WORD':
                    if (oToken.sValue.gl_count("-") > 4) {
                        return {
                            sType: "COMPLEX",
                            sValue: oToken.sValue,
                            aLabel: ["élément complexe indéterminé"]
                        };
                    } else if (m = this._zPartDemForm.exec(oToken.sValue)) {
                        // mots avec particules démonstratives
                        if (this._aPartDemExceptList.has(m[1].toLowerCase())) {
                            return {
                                sType: "WORD",
                                sValue: oToken.sValue,
                                aLabel: this._getMorph(oToken.sValue)
                            };
                        }
                        return {
                            sType: oToken.sType,
                            sValue: oToken.sValue,
                            aLabel: ["mot avec particule démonstrative"],
                            aSubElem: [
                                { sType: oToken.sType, sValue: m[1],       aLabel: this._getMorph(m[1]) },
                                { sType: oToken.sType, sValue: "-" + m[2], aLabel: [this._formatSuffix(m[2].toLowerCase())] }
                            ]
                        };
                    } else if (m = this._zImperatifVerb.exec(oToken.sValue)) {
                        // formes interrogatives
                        return {
                            sType: oToken.sType,
                            sValue: oToken.sValue,
                            aLabel: ["forme verbale impérative"],
                            aSubElem: [
                                { sType: oToken.sType, sValue: m[1],       aLabel: this._getMorph(m[1]) },
                                { sType: oToken.sType, sValue: "-" + m[2], aLabel: [this._formatSuffix(m[2].toLowerCase())] }
                            ]
                        };
                    } else if (m = this._zInterroVerb.exec(oToken.sValue)) {
                        // formes interrogatives
                        return {
                            sType: oToken.sType,
                            sValue: oToken.sValue,
                            aLabel: ["forme verbale interrogative"],
                            aSubElem: [
                                { sType: oToken.sType, sValue: m[1],       aLabel: this._getMorph(m[1]) },
                                { sType: oToken.sType, sValue: "-" + m[2], aLabel: [this._formatSuffix(m[2].toLowerCase())] }
                            ]
                        };
                    } else if (this.oSpellChecker.isValidToken(oToken.sValue)) {
                        return {
                            sType: oToken.sType,
                            sValue: oToken.sValue,
                            aLabel: this._getMorph(oToken.sValue)
                        };
                    } else {
                        return {
                            sType: "UNKNOWN_WORD",
                            sValue: oToken.sValue,
                            aLabel: ["mot inconnu du dictionnaire"]
                        };
                    }
                    break;
                default:
                    return {
                        sType: oToken.sType,
                        sValue: oToken.sValue,
                        aLabel: ["token inconnu"]
                    }
            }
        } catch (e) {
            console.error(e);
        }
        return null;
    },

    _getMorph (sWord) {
        let aElem = [];
        for (let s of this.oSpellChecker.getMorph(sWord)) {
            if (s.includes(":")) aElem.push(this._formatTags(s));
        }
        if (aElem.length == 0) {
            aElem.push("mot inconnu du dictionnaire");
        }
        return aElem;
    },

    _formatTags (sTags) {
        let sRes = "";
        sTags = sTags.replace(/V([0-3][ea]?)[itpqnmr_eaxz]+/, "V$1");
        let m;
        while ((m = this._zTag.exec(sTags)) !== null) {
            sRes += this.dTag.get(m[0])[0];
        }
        if (sRes.startsWith(" verbe") && !sRes.includes("infinitif")) {
            sRes += " [" + sTags.slice(1, sTags.indexOf("/")) + "]";
        }
        if (!sRes) {
            return "#Erreur. Étiquette inconnue : [" + sTags + "]";
        }
        return sRes.gl_trimRight(",");
    },

    _formatTagsLoc (sTags) {
        let sRes = "";
        let m;
        while ((m = this._zTag.exec(sTags)) !== null) {
            if (m[0].startsWith(":LV")) {
                sRes += this.dLocTag.get(":LV");
                for (let c of m[0].slice(3)) {
                    sRes += this.dLocVerb.get(c);
                }
            } else {
                sRes += this.dLocTag.get(m[0]);
            }
        }
        if (!sRes) {
            return "#Erreur. Étiquette inconnue : [" + sTags + "]";
        }
        return sRes.gl_trimRight(",");
    },

    _formatSuffix (s) {
        if (s.startsWith("t-")) {
            return "“t” euphonique +" + this.dPronoms.get(s.slice(2));
        }
        if (!s.includes("-")) {
            return this.dPronoms.get(s.replace("’", "'"));
        }
        if (s.endsWith("ous")) {
            s += '2';
        }
        let nPos = s.indexOf("-");
        return this.dPronoms.get(s.slice(0, nPos)) + " +" + this.dPronoms.get(s.slice(nPos + 1));
    },

    getListOfTokens (sText, bInfo=true) {
        let aElem = [];
        if (sText !== "") {
            for (let oToken of this.oTokenizer.genTokens(sText)) {
                if (bInfo) {
                    let aRes = this.getInfoForToken(oToken);
                    if (aRes) {
                        aElem.push(aRes);
                    }
                } else if (oToken.sType !== "SPACE") {
                    aElem.push(oToken);
                }
            }
        }
        return aElem;
    },

    * generateInfoForTokenList (lToken) {
        for (let oToken of lToken) {
            let aRes = this.getInfoForToken(oToken);
            if (aRes) {
                yield aRes;
            }
        }
    },

    getListOfTokensReduc (sText, bInfo=true) {
        let lToken = this.getListOfTokens(sText.replace("'", "’").trim(), false);
        let iToken = 0;
        let aElem = [];
        if (lToken.length == 0) {
            return aElem;
        }
        do {
            let oToken = lToken[iToken];
            let sMorphLoc = '';
            let aTokenTempList = [oToken];
            if (oToken.sType == "WORD" || oToken.sType == "WORD_ELIDED"){
                let iLocEnd = iToken + 1;
                let oLocNode = this.oLocGraph[oToken.sValue.toLowerCase()];
                while (oLocNode) {
                    let oTokenNext = lToken[iLocEnd];
                    iLocEnd++;
                    if (oTokenNext) {
                        oLocNode = oLocNode[oTokenNext.sValue.toLowerCase()];
                    }
                    if (oLocNode && iLocEnd <= lToken.length) {
                        sMorphLoc = oLocNode["_:_"];
                        aTokenTempList.push(oTokenNext);
                    } else {
                        break;
                    }
                }
            }

            if (sMorphLoc) {
                // we have a locution
                let sValue = '';
                for (let oTokenWord of aTokenTempList) {
                    sValue += oTokenWord.sValue+' ';
                }
                let oTokenLocution = {
                    'nStart': aTokenTempList[0].nStart,
                    'nEnd': aTokenTempList[aTokenTempList.length-1].nEnd,
                    'sType': "LOC",
                    'sValue': sValue.replace('’ ','’').trim(),
                    'aSubToken': aTokenTempList
                };
                if (bInfo) {
                    let aSubElem = null;
                    if (sMorphLoc.startsWith("*|")) {
                        // cette suite de tokens n’est une locution que dans certains cas minoritaires
                        oTokenLocution.sType = "LOCP";
                        for (let oElem of this.generateInfoForTokenList(aTokenTempList)) {
                            aElem.push(oElem);
                        }
                        sMorphLoc = sMorphLoc.slice(2);
                    } else {
                        aSubElem = [...this.generateInfoForTokenList(aTokenTempList)];
                    }
                    // cette suite de tokens est la plupart du temps une locution
                    let aFormatedTag = [];
                    for (let sTagLoc of sMorphLoc.split('|') ){
                        aFormatedTag.push(this._formatTagsLoc(sTagLoc));
                    }
                    aElem.push({
                        sType: oTokenLocution.sType,
                        sValue: oTokenLocution.sValue,
                        aLabel: aFormatedTag,
                        aSubElem: aSubElem
                    });
                } else {
                    aElem.push(oTokenLocution);
                }
                iToken = iToken + aTokenTempList.length;
            }
            else {
                // No locution, we just add information
                if (bInfo) {
                    let aRes = this.getInfoForToken(oToken);
                    if (aRes) {
                        aElem.push(aRes);
                    }
                } else {
                    aElem.push(oToken);
                }
                iToken++;
            }
        } while (iToken < lToken.length);
        return aElem;
    }
}



if (typeof(exports) !== 'undefined') {
    exports.lexgraph_fr = lexgraph_fr;
}

Modified graphspell-js/spellchecker.js from [88587ea88f] to [7299c45601].

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/* jshint esversion:6, -W097 */
/* jslint esversion:6 */
/* global require, exports, console, IBDAWG, Tokenizer */

"use strict";

if(typeof(process) !== 'undefined') {
    var ibdawg = require("./ibdawg.js");
    var tokenizer = require("./tokenizer.js");
    var suggest = require("./suggest.js");

} else if (typeof(require) !== 'undefined') {
    var ibdawg = require("resource://grammalecte/graphspell/ibdawg.js");
    var tokenizer = require("resource://grammalecte/graphspell/tokenizer.js");
    var suggest = require("resource://grammalecte/graphspell/suggest.js");
}

${map}


const dDefaultDictionaries = new Map([
    ["fr", "fr-allvars.json"],







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/* jshint esversion:6, -W097 */
/* jslint esversion:6 */
/* global require, exports, console, IBDAWG, Tokenizer */

"use strict";

if (typeof(process) !== 'undefined') {
    var ibdawg = require("./ibdawg.js");
    var tokenizer = require("./tokenizer.js");

}
else if (typeof(require) !== 'undefined') {
    var ibdawg = require("resource://grammalecte/graphspell/ibdawg.js");
    var tokenizer = require("resource://grammalecte/graphspell/tokenizer.js");

}

${map}


const dDefaultDictionaries = new Map([
    ["fr", "fr-allvars.json"],
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        }
        this.oMainDic = this._loadDictionary(mainDic, sPath, true);
        this.oCommunityDic = this._loadDictionary(communityDic, sPath);
        this.oPersonalDic = this._loadDictionary(personalDic, sPath);
        this.bCommunityDic = Boolean(this.oCommunityDic);
        this.bPersonalDic = Boolean(this.oPersonalDic);
        this.oTokenizer = null;
        // Default suggestions
        this.dDefaultSugg = null;
        this.loadSuggestions(sLangCode)
        // storage
        this.bStorage = false;
        this._dMorphologies = new Map();            // key: flexion, value: list of morphologies
        this._dLemmas = new Map();                  // key: flexion, value: list of lemmas
    }

    _loadDictionary (dictionary, sPath="", bNecessary=false) {







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        }
        this.oMainDic = this._loadDictionary(mainDic, sPath, true);
        this.oCommunityDic = this._loadDictionary(communityDic, sPath);
        this.oPersonalDic = this._loadDictionary(personalDic, sPath);
        this.bCommunityDic = Boolean(this.oCommunityDic);
        this.bPersonalDic = Boolean(this.oPersonalDic);
        this.oTokenizer = null;
        // Lexicographer
        this.lexicographer = null;
        this.loadLexicographer(sLangCode)
        // storage
        this.bStorage = false;
        this._dMorphologies = new Map();            // key: flexion, value: list of morphologies
        this._dLemmas = new Map();                  // key: flexion, value: list of lemmas
    }

    _loadDictionary (dictionary, sPath="", bNecessary=false) {
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    }

    deactivatePersonalDictionary () {
        this.bPersonalDic = false;
    }


    // Default suggestions

    loadSuggestions (sLangCode) {
        // load default suggestion module for <sLangCode>
        // When “import” works everywhere, do like with Python
        try {
            if (typeof(suggest) !== 'undefined') {
                this.dDefaultSugg = suggest[sLangCode];
            }


        }
        catch (e) {
            console.error(e);

        }
    }


    // Storage

    activateStorage () {







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    }

    deactivatePersonalDictionary () {
        this.bPersonalDic = false;
    }


    // Lexicographer

    loadLexicographer (sLangCode) {
        // load default suggestion module for <sLangCode>


        if (typeof(process) !== 'undefined') {
            this.lexicographer = require(`./lexgraph_${sLangCode}.js`);
        }
        else if (typeof(require) !== 'undefined') {
            this.lexicographer = require(`resource://grammalecte/graphspell/lexgraph_${sLangCode}.js`);
        }
        else if (self.hasOwnProperty("lexgraph_"+sLangCode)) {
            console.log(self);
            this.lexicographer = self["lexgraph_"+sLangCode];
        }
    }


    // Storage

    activateStorage () {
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            return this._dLemmas.get(sWord);
        }
        return Array.from(new Set(this.getMorph(sWord).map((sMorph) => { return sMorph.slice(1, sMorph.indexOf("/")); })));
    }

    * suggest (sWord, nSuggLimit=10) {
        // generator: returns 1, 2 or 3 lists of suggestions
        if (this.dDefaultSugg) {
            if (this.dDefaultSugg.has(sWord)) {
                yield this.dDefaultSugg.get(sWord).split("|");
            } else if (sWord.gl_isTitle() && this.dDefaultSugg.has(sWord.toLowerCase())) {
                let lRes = this.dDefaultSugg.get(sWord.toLowerCase()).split("|");
                yield lRes.map((sSugg) => { return sSugg.slice(0,1).toUpperCase() + sSugg.slice(1); });
            } else {
                yield this.oMainDic.suggest(sWord, nSuggLimit, true);
            }
        } else {
            yield this.oMainDic.suggest(sWord, nSuggLimit, true);
        }







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            return this._dLemmas.get(sWord);
        }
        return Array.from(new Set(this.getMorph(sWord).map((sMorph) => { return sMorph.slice(1, sMorph.indexOf("/")); })));
    }

    * suggest (sWord, nSuggLimit=10) {
        // generator: returns 1, 2 or 3 lists of suggestions
        if (this.lexicographer) {
            if (this.lexicographer.dSugg.has(sWord)) {
                yield this.lexicographer.dSugg.get(sWord).split("|");
            } else if (sWord.gl_isTitle() && this.lexicographer.dSugg.has(sWord.toLowerCase())) {
                let lRes = this.lexicographer.dSugg.get(sWord.toLowerCase()).split("|");
                yield lRes.map((sSugg) => { return sSugg.slice(0,1).toUpperCase() + sSugg.slice(1); });
            } else {
                yield this.oMainDic.suggest(sWord, nSuggLimit, true);
            }
        } else {
            yield this.oMainDic.suggest(sWord, nSuggLimit, true);
        }

Deleted graphspell-js/suggest.js version [e077b6573b].

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// JavaScript

"use strict";

var suggest = {
    fr: new Map ([
        ["bcp", "beaucoup"],
        ["ca", "ça"],
        ["cad", "c’est-à-dire"],
        ["cb", "combien|CB"],
        ["cdlt", "cordialement"],
        ["construirent", "construire|construisirent|construisent|construiront"],
        ["càd", "c’est-à-dire"],
        ["chai", "j’sais|je sais"],
        ["chais", "j’sais|je sais"],
        ["chui", "j’suis|je suis"],
        ["chuis", "j’suis|je suis"],
        ["dc", "de|donc"],
        ["done", "donc|donne"],
        ["email", "courriel|e-mail|émail"],
        ["emails", "courriels|e-mails"],
        ["ete", "êtes|été"],
        ["Etes-vous", "Êtes-vous"],
        ["Etiez-vous", "Étiez-vous"],
        ["Etions-vous", "Étions-nous"],
        ["loins", "loin"],
        ["mn", "min"],
        ["mns", "min"],
        ["parce-que", "parce que"],
        ["pcq", "parce que"],
        ["pd", "pendant|pédé"],
        ["pdq", "pendant que"],
        ["pdt", "pendant"],
        ["pdtq", "pendant que"],
        ["pécunier", "pécuniaire"],
        ["pécuniers", "pécuniaires"],
        ["pk", "pourquoi"],
        ["pkoi", "pourquoi"],
        ["pq", "pourquoi|PQ"],
        ["prq", "presque"],
        ["prsq", "presque"],
        ["qcq", "quiconque"],
        ["qd", "quand"],
        ["qq", "quelque"],
        ["qqch", "quelque chose"],
        ["qqn", "quelqu’un"],
        ["qqne", "quelqu’une"],
        ["qqs", "quelques"],
        ["qqunes", "quelques-unes"],
        ["qquns", "quelques-uns"],
        ["tdq", "tandis que"],
        ["tj", "toujours"],
        ["tjs", "toujours"],
        ["tq", "tant que|tandis que"],
        ["ts", "tous"],
        ["tt", "tant|tout"],
        ["tte", "toute"],
        ["ttes", "toutes"],

        ["Iier", "Iᵉʳ"],
        ["Iière", "Iʳᵉ"],
        ["IIième", "IIᵉ"],
        ["IIIième", "IIIᵉ"],
        ["IVième", "IVᵉ"],
        ["Vième", "Vᵉ"],
        ["VIième", "VIᵉ"],
        ["VIIième", "VIIᵉ"],
        ["VIIIième", "VIIIᵉ"],
        ["IXième", "IXᵉ"],
        ["Xième", "Xᵉ"],
        ["XIième", "XIᵉ"],
        ["XIIième", "XIIᵉ"],
        ["XIIIième", "XIIIᵉ"],
        ["XIVième", "XIVᵉ"],
        ["XVième", "XVᵉ"],
        ["XVIième", "XVIᵉ"],
        ["XVIIième", "XVIIᵉ"],
        ["XVIIIième", "XVIIIᵉ"],
        ["XIXième", "XIXᵉ"],
        ["XXième", "XXᵉ"],
        ["XXIième", "XXIᵉ"],
        ["XXIIième", "XXIIᵉ"],
        ["XXIIIième", "XXIIIᵉ"],
        ["XXIVième", "XXIVᵉ"],
        ["XXVième", "XXVᵉ"],
        ["XXVIième", "XXVIᵉ"],
        ["XXVIIième", "XXVIIᵉ"],
        ["XXVIIIième", "XXVIIIᵉ"],
        ["XXIXième", "XXIXᵉ"],
        ["XXXième", "XXXᵉ"],
        ["Ier", "Iᵉʳ"],
        ["Ière", "Iʳᵉ"],
        ["IIème", "IIᵉ"],
        ["IIIème", "IIIᵉ"],
        ["IVème", "IVᵉ"],
        ["Vème", "Vᵉ"],
        ["VIème", "VIᵉ"],
        ["VIIème", "VIIᵉ"],
        ["VIIIème", "VIIIᵉ"],
        ["IXème", "IXᵉ"],
        ["Xème", "Xᵉ"],
        ["XIème", "XIᵉ"],
        ["XIIème", "XIIᵉ"],
        ["XIIIème", "XIIIᵉ"],
        ["XIVème", "XIVᵉ"],
        ["XVème", "XVᵉ"],
        ["XVIème", "XVIᵉ"],
        ["XVIIème", "XVIIᵉ"],
        ["XVIIIème", "XVIIIᵉ"],
        ["XIXème", "XIXᵉ"],
        ["XXème", "XXᵉ"],
        ["XXIème", "XXIᵉ"],
        ["XXIIème", "XXIIᵉ"],
        ["XXIIIème", "XXIIIᵉ"],
        ["XXIVème", "XXIVᵉ"],
        ["XXVème", "XXVᵉ"],
        ["XXVIème", "XXVIᵉ"],
        ["XXVIIème", "XXVIIᵉ"],
        ["XXVIIIème", "XXVIIIᵉ"],
        ["XXIXème", "XXIXᵉ"],
        ["XXXème", "XXXᵉ"]
    ])
};


if (typeof(exports) !== 'undefined') {
    exports.fr = suggest.fr;
}
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"""
Default suggestion for French language
"""

dSugg = {
    "bcp": "beaucoup",
    "ca": "ça",
    "cad": "c’est-à-dire",
    "cb": "combien|CB",
    "cdlt": "cordialement",
    "construirent": "construire|construisirent|construisent|construiront",
    "càd": "c’est-à-dire",
    "chai": "j’sais|je sais",
    "chais": "j’sais|je sais",
    "chui": "j’suis|je suis",
    "chuis": "j’suis|je suis",
    "done": "donc|donne",
    "dc": "de|donc",
    "email": "courriel|e-mail|émail",
    "emails": "courriels|e-mails",
    "ete": "êtes|été",
    "Etes-vous": "Êtes-vous",
    "Etiez-vous": "Étiez-vous",
    "Etions-nous": "Étions-nous",
    "loins": "loin",
    "mn": "min",
    "mns": "min",
    "parce-que": "parce que",
    "pcq": "parce que",
    "pd": "pendant",
    "pdq": "pendant que",
    "pdt": "pendant",
    "pdtq": "pendant que",
    "pécunier": "pécuniaire",
    "pécuniers": "pécuniaires",
    "pk": "pourquoi",
    "pkoi": "pourquoi",
    "pq": "pourquoi|PQ",
    "prq": "presque",
    "prsq": "presque",
    "qcq": "quiconque",
    "qd": "quand",
    "qq": "quelque",
    "qqch": "quelque chose",
    "qqn": "quelqu’un",
    "qqne": "quelqu’une",
    "qqs": "quelques",
    "qqunes": "quelques-unes",
    "qquns": "quelques-uns",
    "tdq": "tandis que",
    "tj": "toujours",
    "tjs": "toujours",
    "tq": "tant que|tandis que",
    "ts": "tous",
    "tt": "tant|tout",
    "tte": "toute",
    "ttes": "toutes",
    "y’a": "y a",

    "Iier": "Iᵉʳ",
    "Iière": "Iʳᵉ",
    "IIième": "IIᵉ",
    "IIIième": "IIIᵉ",
    "IVième": "IVᵉ",
    "Vième": "Vᵉ",
    "VIième": "VIᵉ",
    "VIIième": "VIIᵉ",
    "VIIIième": "VIIIᵉ",
    "IXième": "IXᵉ",
    "Xième": "Xᵉ",
    "XIième": "XIᵉ",
    "XIIième": "XIIᵉ",
    "XIIIième": "XIIIᵉ",
    "XIVième": "XIVᵉ",
    "XVième": "XVᵉ",
    "XVIième": "XVIᵉ",
    "XVIIième": "XVIIᵉ",
    "XVIIIième": "XVIIIᵉ",
    "XIXième": "XIXᵉ",
    "XXième": "XXᵉ",
    "XXIième": "XXIᵉ",
    "XXIIième": "XXIIᵉ",
    "XXIIIième": "XXIIIᵉ",
    "XXIVième": "XXIVᵉ",
    "XXVième": "XXVᵉ",
    "XXVIième": "XXVIᵉ",
    "XXVIIième": "XXVIIᵉ",
    "XXVIIIième": "XXVIIIᵉ",
    "XXIXième": "XXIXᵉ",
    "XXXième": "XXXᵉ",
    "Ier": "Iᵉʳ",
    "Ière": "Iʳᵉ",
    "IIème": "IIᵉ",
    "IIIème": "IIIᵉ",
    "IVème": "IVᵉ",
    "Vème": "Vᵉ",
    "VIème": "VIᵉ",
    "VIIème": "VIIᵉ",
    "VIIIème": "VIIIᵉ",
    "IXème": "IXᵉ",
    "Xème": "Xᵉ",
    "XIème": "XIᵉ",
    "XIIème": "XIIᵉ",
    "XIIIème": "XIIIᵉ",
    "XIVème": "XIVᵉ",
    "XVème": "XVᵉ",
    "XVIème": "XVIᵉ",
    "XVIIème": "XVIIᵉ",
    "XVIIIème": "XVIIIᵉ",
    "XIXème": "XIXᵉ",
    "XXème": "XXᵉ",
    "XXIème": "XXIᵉ",
    "XXIIème": "XXIIᵉ",
    "XXIIIème": "XXIIIᵉ",
    "XXIVème": "XXIVᵉ",
    "XXVème": "XXVᵉ",
    "XXVIème": "XXVIᵉ",
    "XXVIIème": "XXVIIᵉ",
    "XXVIIIème": "XXVIIIᵉ",
    "XXIXème": "XXIXᵉ",
    "XXXème": "XXXᵉ"
}
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"""
Lexicographer for the French language
"""

# Note:
# This mode must contains at least:
#     <dSugg> : a dictionary for default suggestions.
#     <bLexicographer> : a boolean False
#       if the boolean is True, 3 functions are required:
#           split(sWord) -> returns a list of string (that will be analyzed)
#           analyze(sWord) -> returns a string with the meaning of word
#           formatTags(sTags) -> returns a string with the meaning of tags


import re

#### Suggestions

dSugg = {
    "bcp": "beaucoup",
    "ca": "ça",
    "cad": "c’est-à-dire",
    "cb": "combien|CB",
    "cdlt": "cordialement",
    "construirent": "construire|construisirent|construisent|construiront",
    "càd": "c’est-à-dire",
    "chai": "j’sais|je sais",
    "chais": "j’sais|je sais",
    "chui": "j’suis|je suis",
    "chuis": "j’suis|je suis",
    "done": "donc|donne",
    "dc": "de|donc",
    "email": "courriel|e-mail|émail",
    "emails": "courriels|e-mails",
    "ete": "êtes|été",
    "Etes-vous": "Êtes-vous",
    "Etiez-vous": "Étiez-vous",
    "Etions-nous": "Étions-nous",
    "loins": "loin",
    "mn": "min",
    "mns": "min",
    "parce-que": "parce que",
    "pcq": "parce que",
    "pd": "pendant",
    "pdq": "pendant que",
    "pdt": "pendant",
    "pdtq": "pendant que",
    "pécunier": "pécuniaire",
    "pécuniers": "pécuniaires",
    "pk": "pourquoi",
    "pkoi": "pourquoi",
    "pq": "pourquoi|PQ",
    "prq": "presque",
    "prsq": "presque",
    "qcq": "quiconque",
    "qd": "quand",
    "qq": "quelque",
    "qqch": "quelque chose",
    "qqn": "quelqu’un",
    "qqne": "quelqu’une",
    "qqs": "quelques",
    "qqunes": "quelques-unes",
    "qquns": "quelques-uns",
    "tdq": "tandis que",
    "tj": "toujours",
    "tjs": "toujours",
    "tq": "tant que|tandis que",
    "ts": "tous",
    "tt": "tant|tout",
    "tte": "toute",
    "ttes": "toutes",
    "y’a": "y a",

    "Iier": "Iᵉʳ",
    "Iière": "Iʳᵉ",
    "IIième": "IIᵉ",
    "IIIième": "IIIᵉ",
    "IVième": "IVᵉ",
    "Vième": "Vᵉ",
    "VIième": "VIᵉ",
    "VIIième": "VIIᵉ",
    "VIIIième": "VIIIᵉ",
    "IXième": "IXᵉ",
    "Xième": "Xᵉ",
    "XIième": "XIᵉ",
    "XIIième": "XIIᵉ",
    "XIIIième": "XIIIᵉ",
    "XIVième": "XIVᵉ",
    "XVième": "XVᵉ",
    "XVIième": "XVIᵉ",
    "XVIIième": "XVIIᵉ",
    "XVIIIième": "XVIIIᵉ",
    "XIXième": "XIXᵉ",
    "XXième": "XXᵉ",
    "XXIième": "XXIᵉ",
    "XXIIième": "XXIIᵉ",
    "XXIIIième": "XXIIIᵉ",
    "XXIVième": "XXIVᵉ",
    "XXVième": "XXVᵉ",
    "XXVIième": "XXVIᵉ",
    "XXVIIième": "XXVIIᵉ",
    "XXVIIIième": "XXVIIIᵉ",
    "XXIXième": "XXIXᵉ",
    "XXXième": "XXXᵉ",

    "Ier": "Iᵉʳ",
    "Ière": "Iʳᵉ",
    "IIème": "IIᵉ",
    "IIIème": "IIIᵉ",
    "IVème": "IVᵉ",
    "Vème": "Vᵉ",
    "VIème": "VIᵉ",
    "VIIème": "VIIᵉ",
    "VIIIème": "VIIIᵉ",
    "IXème": "IXᵉ",
    "Xème": "Xᵉ",
    "XIème": "XIᵉ",
    "XIIème": "XIIᵉ",
    "XIIIème": "XIIIᵉ",
    "XIVème": "XIVᵉ",
    "XVème": "XVᵉ",
    "XVIème": "XVIᵉ",
    "XVIIème": "XVIIᵉ",
    "XVIIIème": "XVIIIᵉ",
    "XIXème": "XIXᵉ",
    "XXème": "XXᵉ",
    "XXIème": "XXIᵉ",
    "XXIIème": "XXIIᵉ",
    "XXIIIème": "XXIIIᵉ",
    "XXIVème": "XXIVᵉ",
    "XXVème": "XXVᵉ",
    "XXVIème": "XXVIᵉ",
    "XXVIIème": "XXVIIᵉ",
    "XXVIIIème": "XXVIIIᵉ",
    "XXIXème": "XXIXᵉ",
    "XXXème": "XXXᵉ"
}


#### Lexicographer

bLexicographer = True

_dTAGS = {
    ':N': (" nom,", "Nom"),
    ':A': (" adjectif,", "Adjectif"),
    ':M1': (" prénom,", "Prénom"),
    ':M2': (" patronyme,", "Patronyme, matronyme, nom de famille…"),
    ':MP': (" nom propre,", "Nom propre"),
    ':W': (" adverbe,", "Adverbe"),
    ':J': (" interjection,", "Interjection"),
    ':B': (" nombre,", "Nombre"),
    ':T': (" titre,", "Titre de civilité"),

    ':e': (" épicène", "épicène"),
    ':m': (" masculin", "masculin"),
    ':f': (" féminin", "féminin"),
    ':s': (" singulier", "singulier"),
    ':p': (" pluriel", "pluriel"),
    ':i': (" invariable", "invariable"),

    ':V1': (" verbe (1ᵉʳ gr.),", "Verbe du 1ᵉʳ groupe"),
    ':V2': (" verbe (2ᵉ gr.),", "Verbe du 2ᵉ groupe"),
    ':V3': (" verbe (3ᵉ gr.),", "Verbe du 3ᵉ groupe"),
    ':V0e': (" verbe,", "Verbe auxiliaire être"),
    ':V0a': (" verbe,", "Verbe auxiliaire avoir"),

    ':Y': (" infinitif,", "infinitif"),
    ':P': (" participe présent,", "participe présent"),
    ':Q': (" participe passé,", "participe passé"),
    ':Ip': (" présent,", "indicatif présent"),
    ':Iq': (" imparfait,", "indicatif imparfait"),
    ':Is': (" passé simple,", "indicatif passé simple"),
    ':If': (" futur,", "indicatif futur"),
    ':K': (" conditionnel présent,", "conditionnel présent"),
    ':Sp': (" subjonctif présent,", "subjonctif présent"),
    ':Sq': (" subjonctif imparfait,", "subjonctif imparfait"),
    ':E': (" impératif,", "impératif"),

    ':1s': (" 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier"),
    ':1ŝ': (" présent interr. 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier (présent interrogatif)"),
    ':1ś': (" présent interr. 1ʳᵉ p. sg.,", "verbe : 1ʳᵉ personne du singulier (présent interrogatif)"),
    ':2s': (" 2ᵉ p. sg.,", "verbe : 2ᵉ personne du singulier"),
    ':3s': (" 3ᵉ p. sg.,", "verbe : 3ᵉ personne du singulier"),
    ':1p': (" 1ʳᵉ p. pl.,", "verbe : 1ʳᵉ personne du pluriel"),
    ':2p': (" 2ᵉ p. pl.,", "verbe : 2ᵉ personne du pluriel"),
    ':3p': (" 3ᵉ p. pl.,", "verbe : 3ᵉ personne du pluriel"),
    ':3p!': (" 3ᵉ p. pl.,", "verbe : 3ᵉ personne du pluriel (prononciation distinctive)"),

    ':G': ("", "Mot grammatical"),
    ':X': (" adverbe de négation,", "Adverbe de négation"),
    ':U': (" adverbe interrogatif,", "Adverbe interrogatif"),
    ':R': (" préposition,", "Préposition"),
    ':Rv': (" préposition verbale,", "Préposition verbale"),
    ':D': (" déterminant,", "Déterminant"),
    ':Dd': (" déterminant démonstratif,", "Déterminant démonstratif"),
    ':De': (" déterminant exclamatif,", "Déterminant exclamatif"),
    ':Dp': (" déterminant possessif,", "Déterminant possessif"),
    ':Di': (" déterminant indéfini,", "Déterminant indéfini"),
    ':Dn': (" déterminant négatif,", "Déterminant négatif"),
    ':Od': (" pronom démonstratif,", "Pronom démonstratif"),
    ':Oi': (" pronom indéfini,", "Pronom indéfini"),
    ':On': (" pronom indéfini négatif,", "Pronom indéfini négatif"),
    ':Ot': (" pronom interrogatif,", "Pronom interrogatif"),
    ':Or': (" pronom relatif,", "Pronom relatif"),
    ':Ow': (" pronom adverbial,", "Pronom adverbial"),
    ':Os': (" pronom personnel sujet,", "Pronom personnel sujet"),
    ':Oo': (" pronom personnel objet,", "Pronom personnel objet"),
    ':Ov': (" préverbe,", "Préverbe (pronom personnel objet, +ne)"),
    ':O1': (" 1ʳᵉ pers.,", "Pronom : 1ʳᵉ personne"),
    ':O2': (" 2ᵉ pers.,", "Pronom : 2ᵉ personne"),
    ':O3': (" 3ᵉ pers.,", "Pronom : 3ᵉ personne"),
    ':C': (" conjonction,", "Conjonction"),
    ':Ĉ': (" conjonction (él.),", "Conjonction (élément)"),
    ':Cc': (" conjonction de coordination,", "Conjonction de coordination"),
    ':Cs': (" conjonction de subordination,", "Conjonction de subordination"),
    ':Ĉs': (" conjonction de subordination (él.),", "Conjonction de subordination (élément)"),

    ':Ñ': (" locution nominale (él.),", "Locution nominale (élément)"),
    ':Â': (" locution adjectivale (él.),", "Locution adjectivale (élément)"),
    ':Ṽ': (" locution verbale (él.),", "Locution verbale (élément)"),
    ':Ŵ': (" locution adverbiale (él.),", "Locution adverbiale (élément)"),
    ':Ŕ': (" locution prépositive (él.),", "Locution prépositive (élément)"),
    ':Ĵ': (" locution interjective (él.),", "Locution interjective (élément)"),

    ':Zp': (" préfixe,", "Préfixe"),
    ':Zs': (" suffixe,", "Suffixe"),

    ':H': ("", "<Hors-norme, inclassable>"),

    ':@': ("", "<Caractère non alpha-numérique>"),
    ':@p': ("signe de ponctuation", "Signe de ponctuation"),
    ':@s': ("signe", "Signe divers"),

    ';S': (" : symbole (unité de mesure)", "Symbole (unité de mesure)"),

    '/*': ("", "Sous-dictionnaire <Commun>"),
    '/C': (" <classique>", "Sous-dictionnaire <Classique>"),
    '/M': ("", "Sous-dictionnaire <Moderne>"),
    '/R': (" <réforme>", "Sous-dictionnaire <Réforme 1990>"),
    '/A': ("", "Sous-dictionnaire <Annexe>"),
    '/X': ("", "Sous-dictionnaire <Contributeurs>")
}

_dValues = {
    'd’': "(de), préposition ou déterminant épicène invariable",
    'l’': "(le/la), déterminant ou pronom personnel objet, masculin/féminin singulier",
    'j’': "(je), pronom personnel sujet, 1ʳᵉ pers., épicène singulier",
    'm’': "(me), pronom personnel objet, 1ʳᵉ pers., épicène singulier",
    't’': "(te), pronom personnel objet, 2ᵉ pers., épicène singulier",
    's’': "(se), pronom personnel objet, 3ᵉ pers., épicène singulier/pluriel",
    'n’': "(ne), adverbe de négation",
    'c’': "(ce), pronom démonstratif, masculin singulier/pluriel",
    'ç’': "(ça), pronom démonstratif, masculin singulier",
    'qu’': "(que), conjonction de subordination",
    'lorsqu’': "(lorsque), conjonction de subordination",
    'puisqu’': "(puisque), conjonction de subordination",
    'quoiqu’': "(quoique), conjonction de subordination",
    'jusqu’': "(jusque), préposition",

    '-je': " pronom personnel sujet, 1ʳᵉ pers. sing.",
    '-tu': " pronom personnel sujet, 2ᵉ pers. sing.",
    '-il': " pronom personnel sujet, 3ᵉ pers. masc. sing.",
    '-on': " pronom personnel sujet, 3ᵉ pers. sing. ou plur.",
    '-elle': " pronom personnel sujet, 3ᵉ pers. fém. sing.",
    '-t-il': " “t” euphonique + pronom personnel sujet, 3ᵉ pers. masc. sing.",
    '-t-on': " “t” euphonique + pronom personnel sujet, 3ᵉ pers. sing. ou plur.",
    '-t-elle': " “t” euphonique + pronom personnel sujet, 3ᵉ pers. fém. sing.",
    '-nous': " pronom personnel sujet/objet, 1ʳᵉ pers. plur.  ou  COI (à nous), plur.",
    '-vous': " pronom personnel sujet/objet, 2ᵉ pers. plur.  ou  COI (à vous), plur.",
    '-ils': " pronom personnel sujet, 3ᵉ pers. masc. plur.",
    '-elles': " pronom personnel sujet, 3ᵉ pers. masc. plur.",

    "-là": " particule démonstrative",
    "-ci": " particule démonstrative",

    '-le': " COD, masc. sing.",
    '-la': " COD, fém. sing.",
    '-les': " COD, plur.",

    '-moi': " COI (à moi), sing.",
    '-toi': " COI (à toi), sing.",
    '-lui': " COI (à lui ou à elle), sing.",
    '-leur': " COI (à eux ou à elles), plur.",

    '-le-moi': " COD, masc. sing. + COI (à moi), sing.",
    '-le-toi': " COD, masc. sing. + COI (à toi), sing.",
    '-le-lui': " COD, masc. sing. + COI (à lui ou à elle), sing.",
    '-le-nous': " COD, masc. sing. + COI (à nous), plur.",
    '-le-vous': " COD, masc. sing. + COI (à vous), plur.",
    '-le-leur': " COD, masc. sing. + COI (à eux ou à elles), plur.",

    '-la-moi': " COD, fém. sing. + COI (à moi), sing.",
    '-la-toi': " COD, fém. sing. + COI (à toi), sing.",
    '-la-lui': " COD, fém. sing. + COI (à lui ou à elle), sing.",
    '-la-nous': " COD, fém. sing. + COI (à nous), plur.",
    '-la-vous': " COD, fém. sing. + COI (à vous), plur.",
    '-la-leur': " COD, fém. sing. + COI (à eux ou à elles), plur.",

    '-les-moi': " COD, plur. + COI (à moi), sing.",
    '-les-toi': " COD, plur. + COI (à toi), sing.",
    '-les-lui': " COD, plur. + COI (à lui ou à elle), sing.",
    '-les-nous': " COD, plur. + COI (à nous), plur.",
    '-les-vous': " COD, plur. + COI (à vous), plur.",
    '-les-leur': " COD, plur. + COI (à eux ou à elles), plur.",

    '-y': " pronom adverbial",
    "-m’y": " (me) pronom personnel objet + (y) pronom adverbial",
    "-t’y": " (te) pronom personnel objet + (y) pronom adverbial",
    "-s’y": " (se) pronom personnel objet + (y) pronom adverbial",

    '-en': " pronom adverbial",
    "-m’en": " (me) pronom personnel objet + (en) pronom adverbial",
    "-t’en": " (te) pronom personnel objet + (en) pronom adverbial",
    "-s’en": " (se) pronom personnel objet + (en) pronom adverbial",
}


_zElidedPrefix = re.compile("(?i)^((?:[dljmtsncç]|quoiqu|lorsqu|jusqu|puisqu|qu)’)(.+)")
_zCompoundWord = re.compile("(?i)(\\w+)(-(?:(?:les?|la)-(?:moi|toi|lui|[nv]ous|leur)|t-(?:il|elle|on)|y|en|[mts]’(?:y|en)|les?|l[aà]|[mt]oi|leur|lui|je|tu|ils?|elles?|on|[nv]ous))$")
_zTag = re.compile("[:;/][\\w*][^:;/]*")

def split (sWord):
    "split word in 3 parts: prefix, root, suffix"
    sWord = sWord.replace("'", "’")
    sPrefix = ""
    sSuffix = ""
    # préfixe élidé
    m = _zElidedPrefix.match(sWord)
    if m:
        sPrefix = m.group(1)
        sWord = m.group(2)
    # mots composés
    m = _zCompoundWord.match(sWord)
    if m:
        sWord = m.group(1)
        sSuffix = m.group(2)
    return sPrefix, sWord, sSuffix


def analyze (sWord):
    "return meaning of <sWord> if found else an empty string"
    sWord = sWord.lower()
    if sWord in _dValues:
        return _dValues[sWord]
    return ""


def formatTags (sTags):
    "returns string: readable tags"
    sRes = ""
    sTags = re.sub("(?<=V[1-3])[itpqnmr_eaxz]+", "", sTags)
    sTags = re.sub("(?<=V0[ea])[itpqnmr_eaxz]+", "", sTags)
    for m in _zTag.finditer(sTags):
        sRes += _dTAGS.get(m.group(0), " [{}]".format(m.group(0)))[0]
    if sRes.startswith(" verbe") and not sRes.endswith("infinitif"):
        sRes += " [{}]".format(sTags[1:sTags.find("/")])
    return sRes.rstrip(",")

Modified graphspell/spellchecker.py from [114a0237c3] to [b9cca64fbd].

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        self.oMainDic = self._loadDictionary(sfMainDic, True)
        self.oCommunityDic = self._loadDictionary(sfCommunityDic)
        self.oPersonalDic = self._loadDictionary(sfPersonalDic)
        self.bCommunityDic = bool(self.oCommunityDic)
        self.bPersonalDic = bool(self.oPersonalDic)
        self.oTokenizer = None
        # Default suggestions
        self.dDefaultSugg = None
        self.loadSuggestions(sLangCode)
        # storage
        self.bStorage = False
        self._dMorphologies = {}        # key: flexion, value: list of morphologies
        self._dLemmas = {}              # key: flexion, value: list of lemmas

    def _loadDictionary (self, source, bNecessary=False):
        "returns an IBDAWG object"







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        self.oMainDic = self._loadDictionary(sfMainDic, True)
        self.oCommunityDic = self._loadDictionary(sfCommunityDic)
        self.oPersonalDic = self._loadDictionary(sfPersonalDic)
        self.bCommunityDic = bool(self.oCommunityDic)
        self.bPersonalDic = bool(self.oPersonalDic)
        self.oTokenizer = None
        # Default suggestions
        self.lexicographer = None
        self.loadLexicographer(sLangCode)
        # storage
        self.bStorage = False
        self._dMorphologies = {}        # key: flexion, value: list of morphologies
        self._dLemmas = {}              # key: flexion, value: list of lemmas

    def _loadDictionary (self, source, bNecessary=False):
        "returns an IBDAWG object"
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    def deactivatePersonalDictionary (self):
        "deactivate personal dictionary"
        self.bPersonalDic = False


    # Default suggestions

    def loadSuggestions (self, sLangCode):
        "load default suggestion module for <sLangCode>"
        try:
            suggest = importlib.import_module("."+sLangCode, "grammalecte.graphspell")
        except ImportError:
            print("No suggestion module for language <"+sLangCode+">")
            return
        self.dDefaultSugg = suggest.dSugg


















    # Storage

    def activateStorage (self):
        "store all lemmas and morphologies retrieved from the word graph"
        self.bStorage = True







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    def deactivatePersonalDictionary (self):
        "deactivate personal dictionary"
        self.bPersonalDic = False


    # Default suggestions

    def loadLexicographer (self, sLangCode):
        "load default suggestion module for <sLangCode>"
        try:
            self.lexicographer = importlib.import_module(".lexgraph_"+sLangCode, "grammalecte.graphspell")
        except ImportError:
            print("No suggestion module for language <"+sLangCode+">")
            return

    def analyze (self, sWord):
        "returns a list of words and their morphologies"
        if not self.lexicographer:
            return []
        lWordAndMorph = []
        for sElem in self.lexicographer.split(sWord):
            if sElem:
                lMorph = self.getMorph(sElem)
                sLex = self.lexicographer.analyze(sElem)
                if sLex:
                    aRes = [ (" | ".join(lMorph), sLex) ]
                else:
                    aRes = [ (sMorph, self.lexicographer.formatTags(sMorph)) for sMorph in lMorph ]
                if aRes:
                    lWordAndMorph.append((sElem, aRes))
        return lWordAndMorph


    # Storage

    def activateStorage (self):
        "store all lemmas and morphologies retrieved from the word graph"
        self.bStorage = True
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                else:
                    if not bByLemma:
                        dWord[dToken['sValue']] = dWord.get(dToken['sValue'], 0) + 1
                    else:
                        for sLemma in self.getLemma(dToken['sValue']):
                            dWord[sLemma] = dWord.get(sLemma, 0) + 1
        return dWord


    # IBDAWG functions

    def isValidToken (self, sToken):
        "checks if sToken is valid (if there is hyphens in sToken, sToken is split, each part is checked)"
        if self.oMainDic.isValidToken(sToken):
            return True







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                else:
                    if not bByLemma:
                        dWord[dToken['sValue']] = dWord.get(dToken['sValue'], 0) + 1
                    else:
                        for sLemma in self.getLemma(dToken['sValue']):
                            dWord[sLemma] = dWord.get(sLemma, 0) + 1
        return dWord


    # IBDAWG functions

    def isValidToken (self, sToken):
        "checks if sToken is valid (if there is hyphens in sToken, sToken is split, each part is checked)"
        if self.oMainDic.isValidToken(sToken):
            return True
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            if sWord not in self._dLemmas:
                self.getMorph(sWord)
            return self._dLemmas[sWord]
        return { s[1:s.find("/")]  for s in self.getMorph(sWord) }

    def suggest (self, sWord, nSuggLimit=10):
        "generator: returns 1, 2 or 3 lists of suggestions"
        if self.dDefaultSugg:
            if sWord in self.dDefaultSugg:
                yield self.dDefaultSugg[sWord].split("|")
            elif sWord.istitle() and sWord.lower() in self.dDefaultSugg:
                lRes = self.dDefaultSugg[sWord.lower()].split("|")
                yield list(map(lambda sSugg: sSugg[0:1].upper()+sSugg[1:], lRes))
            else:
                yield self.oMainDic.suggest(sWord, nSuggLimit, True)
        else:
            yield self.oMainDic.suggest(sWord, nSuggLimit, True)
        if self.bCommunityDic:
            yield self.oCommunityDic.suggest(sWord, (nSuggLimit//2)+1)







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            if sWord not in self._dLemmas:
                self.getMorph(sWord)
            return self._dLemmas[sWord]
        return { s[1:s.find("/")]  for s in self.getMorph(sWord) }

    def suggest (self, sWord, nSuggLimit=10):
        "generator: returns 1, 2 or 3 lists of suggestions"
        if self.lexicographer.dSugg:
            if sWord in self.lexicographer.dSugg:
                yield self.lexicographer.dSugg[sWord].split("|")
            elif sWord.istitle() and sWord.lower() in self.lexicographer.dSugg:
                lRes = self.lexicographer.dSugg[sWord.lower()].split("|")
                yield list(map(lambda sSugg: sSugg[0:1].upper()+sSugg[1:], lRes))
            else:
                yield self.oMainDic.suggest(sWord, nSuggLimit, True)
        else:
            yield self.oMainDic.suggest(sWord, nSuggLimit, True)
        if self.bCommunityDic:
            yield self.oCommunityDic.suggest(sWord, (nSuggLimit//2)+1)