Grammalecte  Check-in [4fdd6a9337]

Overview
Comment:[core][graphspell][fx][cli] new lexicographer
Downloads: Tarball | ZIP archive | SQL archive
Timelines: family | ancestors | descendants | both | trunk | cli | core | fx | graphspell
Files: files | file ages | folders
SHA3-256: 4fdd6a933713d643442e24bc83115c087b03a2f4e151ce322aa9a5ef2a61a72b
User & Date: olr on 2020-09-10 15:30:12
Other Links: manifest | tags
Context
2020-09-10
18:15
[fr] ajustements check-in: 6a6ad52cca user: olr tags: fr, trunk
15:30
[core][graphspell][fx][cli] new lexicographer check-in: 4fdd6a9337 user: olr tags: cli, core, fx, graphspell, trunk
13:15
[graphspell][fx] lexicographer update: same code for Python and JavaScript (remove deprecated code) Closed-Leaf check-in: 891500b92a user: olr tags: fx, graphspell, salxg
2020-09-09
11:37
[fr] add perf_memo.txt file check-in: 88998f6977 user: olr tags: fr, trunk
Changes

Modified gc_core/js/lang_core/gc_engine.js from [2bae51d547] to [5b16fd7058].

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        // parse paragraph
        try {
            this.parseText(this.sText, this.sText0, true, 0, sCountry, dOpt, bShowRuleId, bDebug, bContext);
        }
        catch (e) {
            console.error(e);
        }


        let lParagraphErrors = null;
        if (bFullInfo) {
            lParagraphErrors = Array.from(this.dError.values());
            this.dSentenceError.clear();
        }
        // parse sentence
        let sText = this._getCleanText();
................................................................................
        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());


                    lSentences.push(oSentence);






                    this.dSentenceError.clear();
                }
            }
            catch (e) {
                console.error(e);
            }
        }
................................................................................
            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"];
            }
        }
        this.lToken = lNewToken;
        this.dTokenPos.clear();
        for (let oToken of this.lToken) {
            if (oToken["sType"] != "INFO") {
                this.dTokenPos.set(oToken["nStart"], oToken);
            }
        }
        if (bDebug) {
            console.log("UPDATE:");
            console.log(this.asString());
................................................................................
    }

    parseGraph (oGraph, sCountry="${country_default}", dOptions=null, bShowRuleId=false, bDebug=false, bContext=false) {
        // parse graph with tokens from the text and execute actions encountered
        let lPointer = [];
        let bTagAndRewrite = false;
        try {
            for (let [iToken, oToken] of this.lToken.entries()) {
                if (bDebug) {
                    console.log("TOKEN: " + oToken["sValue"]);
                }
                // check arcs for each existing pointer
                let lNextPointer = [];
                for (let oPointer of lPointer) {
                    lNextPointer.push(...this._getNextPointers(oToken, oGraph, oPointer, bDebug));
................................................................................
                    // Suggestion    [ option, condition, "-", replacement/suggestion/action, iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, iURL ]
                    // 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_functions[sFuncCond](this.lToken, nTokenOffset, nLastToken, sCountry, bCondMemo, this.dTags, this.sSentence, this.sSentence0);
                        //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, iURL] = eAct;
                                let nTokenErrorStart = (iTokenStart > 0) ? nTokenOffset + iTokenStart : nLastToken + iTokenStart;
                                if (!this.lToken[nTokenErrorStart].hasOwnProperty("bImmune")) {
                                    let nTokenErrorEnd = (iTokenEnd > 0) ? nTokenOffset + iTokenEnd : nLastToken + iTokenEnd;
                                    let nErrorStart = this.nOffsetWithinParagraph + ((cStartLimit == "<") ? this.lToken[nTokenErrorStart]["nStart"] : this.lToken[nTokenErrorStart]["nEnd"]);
                                    let nErrorEnd = this.nOffsetWithinParagraph + ((cEndLimit == ">") ? this.lToken[nTokenErrorEnd]["nEnd"] : this.lToken[nTokenErrorEnd]["nStart"]);
                                    if (!this.dError.has(nErrorStart) || nPriority > this.dErrorPriority.gl_get(nErrorStart, -1)) {
                                        this.dError.set(nErrorStart, this._createErrorFromTokens(sWhat, nTokenOffset, nLastToken, nTokenErrorStart, nErrorStart, nErrorEnd, sLineId, sRuleId, bCaseSvty,
                                                                                                 sMessage, gc_rules_graph.dURL[iURL], bShowRuleId, sOption, bContext));
                                        this.dErrorPriority.set(nErrorStart, nPriority);
                                        this.dSentenceError.set(nErrorStart, this.dError.get(nErrorStart));
                                        if (bDebug) {
                                            console.log("    NEW_ERROR: ",  this.dError.get(nErrorStart));
................................................................................
                            else if (cActionType == "~") {
                                // text processor
                                let nTokenStart = (eAct[0] > 0) ? nTokenOffset + eAct[0] : nLastToken + eAct[0];
                                let nTokenEnd = (eAct[1] > 0) ? nTokenOffset + eAct[1] : nLastToken + eAct[1];
                                this._tagAndPrepareTokenForRewriting(sWhat, nTokenStart, nTokenEnd, nTokenOffset, nLastToken, eAct[2], bDebug);
                                bChange = true;
                                if (bDebug) {
                                    console.log(`    TEXT_PROCESSOR: [${this.lToken[nTokenStart]["sValue"]}:${this.lToken[nTokenEnd]["sValue"]}]  > ${sWhat}`);
                                }
                            }
                            else if (cActionType == "=") {
                                // disambiguation
                                gc_functions[sWhat](this.lToken, nTokenOffset, nLastToken);
                                //oEvalFunc[sWhat](this.lToken, nTokenOffset, nLastToken);
                                if (bDebug) {
                                    console.log(`    DISAMBIGUATOR: (${sWhat})  [${this.lToken[nTokenOffset+1]["sValue"]}:${this.lToken[nLastToken]["sValue"]}]`);
                                }
                            }
                            else if (cActionType == ">") {
                                // we do nothing, this test is just a condition to apply all following actions
                                if (bDebug) {
                                    console.log("    COND_OK");
                                }
                            }
                            else if (cActionType == "/") {
                                // Tag
                                let nTokenStart = (eAct[0] > 0) ? nTokenOffset + eAct[0] : nLastToken + eAct[0];
                                let nTokenEnd = (eAct[1] > 0) ? nTokenOffset + eAct[1] : nLastToken + eAct[1];
                                for (let i = nTokenStart; i <= nTokenEnd; i++) {
                                    if (this.lToken[i].hasOwnProperty("aTags")) {
                                        this.lToken[i]["aTags"].add(...sWhat.split("|"))
                                    } else {
                                        this.lToken[i]["aTags"] = new Set(sWhat.split("|"));
                                    }
                                }
                                if (bDebug) {
                                    console.log(`    TAG:  ${sWhat} > [${this.lToken[nTokenStart]["sValue"]}:${this.lToken[nTokenEnd]["sValue"]}]`);
                                }
                                for (let sTag of sWhat.split("|")) {
                                    if (!this.dTags.has(sTag)) {
                                        this.dTags.set(sTag, [nTokenStart, nTokenEnd]);
                                    } else {
                                        this.dTags.set(sTag, [Math.min(nTokenStart, this.dTags.get(sTag)[0]), Math.max(nTokenEnd, this.dTags.get(sTag)[1])]);
                                    }
................................................................................
                                // immunity
                                if (bDebug) {
                                    console.log("    IMMUNITY: " + sLineId + " / " + sRuleId);
                                }
                                let nTokenStart = (eAct[0] > 0) ? nTokenOffset + eAct[0] : nLastToken + eAct[0];
                                let nTokenEnd = (eAct[1] > 0) ? nTokenOffset + eAct[1] : nLastToken + eAct[1];
                                if (nTokenEnd - nTokenStart == 0) {
                                    this.lToken[nTokenStart]["bImmune"] = true;
                                    let nErrorStart = this.nOffsetWithinParagraph + this.lToken[nTokenStart]["nStart"];
                                    if (this.dError.has(nErrorStart)) {
                                        this.dError.delete(nErrorStart);
                                    }
                                } else {
                                    for (let i = nTokenStart;  i <= nTokenEnd;  i++) {
                                        this.lToken[i]["bImmune"] = true;
                                        let nErrorStart = this.nOffsetWithinParagraph + this.lToken[i]["nStart"];
                                        if (this.dError.has(nErrorStart)) {
                                            this.dError.delete(nErrorStart);
                                        }
                                    }
                                }
                            } else {
                                console.log("# error: unknown action at " + sLineId);
................................................................................
        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_functions[sSugg.slice(1)](this.lToken, nTokenOffset, nLastToken);
            //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 = (this.sSentence.slice(nStart, nEnd).gl_isUpperCase()) ? lSugg.map((s) => s.toUpperCase()) : capitalizeArray(lSugg);
        }
        // Message
        let sMessage = (sMsg.startsWith("=")) ? gc_functions[sMsg.slice(1)](this.lToken, nTokenOffset, nLastToken) : this._expand(sMsg, nTokenOffset, nLastToken);
        //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);
    }

................................................................................
        return oErr;
    }

    _expand (sText, nTokenOffset, nLastToken) {
        let m;
        while ((m = /\\(-?[0-9]+)/.exec(sText)) !== null) {
            if (m[1].slice(0,1) == "-") {
                sText = sText.replace(m[0], this.lToken[nLastToken+parseInt(m[1],10)+1]["sValue"]);
            } else {
                sText = sText.replace(m[0], this.lToken[nTokenOffset+parseInt(m[1],10)]["sValue"]);
            }
        }
        return sText;
    }

    rewriteText (sText, sRepl, iGroup, m, bUppercase) {
        // text processor: write sRepl in sText at iGroup position"
................................................................................
    }

    _tagAndPrepareTokenForRewriting (sWhat, nTokenRewriteStart, nTokenRewriteEnd, nTokenOffset, nLastToken, bCaseSvty, bDebug) {
        // text processor: rewrite tokens between <nTokenRewriteStart> and <nTokenRewriteEnd> position
        if (sWhat === "*") {
            // purge text
            if (nTokenRewriteEnd - nTokenRewriteStart == 0) {
                this.lToken[nTokenRewriteStart]["bToRemove"] = true;
            } else {
                for (let i = nTokenRewriteStart;  i <= nTokenRewriteEnd;  i++) {
                    this.lToken[i]["bToRemove"] = true;
                }
            }
        }
        else if (sWhat === "␣") {
            // merge tokens
            this.lToken[nTokenRewriteStart]["nMergeUntil"] = nTokenRewriteEnd;
        }
        else if (sWhat === "_") {
            // neutralized token
            if (nTokenRewriteEnd - nTokenRewriteStart == 0) {
                this.lToken[nTokenRewriteStart]["sNewValue"] = "_";
            } else {
                for (let i = nTokenRewriteStart;  i <= nTokenRewriteEnd;  i++) {
                    this.lToken[i]["sNewValue"] = "_";
                }
            }
        }
        else {
            if (sWhat.startsWith("=")) {
                sWhat = gc_functions[sWhat.slice(1)](this.lToken, nTokenOffset, nLastToken);
                //sWhat = oEvalFunc[sWhat.slice(1)](this.lToken, nTokenOffset, nLastToken);
            } else {
                sWhat = this._expand(sWhat, nTokenOffset, nLastToken);
            }
            let bUppercase = bCaseSvty && this.lToken[nTokenRewriteStart]["sValue"].slice(0,1).gl_isUpperCase();
            if (nTokenRewriteEnd - nTokenRewriteStart == 0) {
                // one token
                if (bUppercase) {
                    sWhat = sWhat.gl_toCapitalize();
                }
                this.lToken[nTokenRewriteStart]["sNewValue"] = sWhat;
            }
            else {
                // several tokens
                let lTokenValue = sWhat.split("|");
                if (lTokenValue.length != (nTokenRewriteEnd - nTokenRewriteStart + 1)) {
                    if (bDebug) {
                        console.log("Error. Text processor: number of replacements != number of tokens.");
................................................................................
                    }
                    return;
                }
                let j = 0;
                for (let i = nTokenRewriteStart;  i <= nTokenRewriteEnd;  i++) {
                    let sValue = lTokenValue[j];
                    if (!sValue || sValue === "*") {
                        this.lToken[i]["bToRemove"] = true;
                    } else {
                        if (bUppercase) {
                            sValue = sValue.gl_toCapitalize();
                        }
                        this.lToken[i]["sNewValue"] = sValue;
                    }
                    j++;
                }
            }
        }
    }

................................................................................
        // rewrite the sentence, modify tokens, purge the token list
        if (bDebug) {
            console.log("REWRITE");
        }
        let lNewToken = [];
        let nMergeUntil = 0;
        let oMergingToken = null;
        for (let [iToken, oToken] of this.lToken.entries()) {
            let bKeepToken = true;
            if (oToken["sType"] != "INFO") {
                if (nMergeUntil && iToken <= nMergeUntil) {
                    oMergingToken["sValue"] += " ".repeat(oToken["nStart"] - oMergingToken["nEnd"]) + oToken["sValue"];
                    oMergingToken["nEnd"] = oToken["nEnd"];
                    if (bDebug) {
                        console.log("  MERGED TOKEN: " + oMergingToken["sValue"]);
                    }

                    bKeepToken = false;
                }
                if (oToken.hasOwnProperty("nMergeUntil")) {
                    if (iToken > nMergeUntil) { // this token is not already merged with a previous token
                        oMergingToken = oToken;
                    }
                    if (oToken["nMergeUntil"] > nMergeUntil) {
................................................................................
                    delete oToken["sNewValue"];
                }
            }
        }
        if (bDebug) {
            console.log("  TEXT REWRITED: " + this.sSentence);
        }
        this.lToken.length = 0;
        this.lToken = lNewToken;
    }
};


if (typeof(exports) !== 'undefined') {
    exports.lang = gc_engine.lang;
    exports.locales = gc_engine.locales;







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        // parse paragraph
        try {
            this.parseText(this.sText, this.sText0, true, 0, sCountry, dOpt, bShowRuleId, bDebug, bContext);
        }
        catch (e) {
            console.error(e);
        }
        this.lTokens = null;
        this.lTokens0 = null;
        let lParagraphErrors = null;
        if (bFullInfo) {
            lParagraphErrors = Array.from(this.dError.values());
            this.dSentenceError.clear();
        }
        // parse sentence
        let sText = this._getCleanText();
................................................................................
        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.lTokens = Array.from(gc_engine.oTokenizer.genTokens(this.sSentence, true));
                this.dTokenPos.clear();
                for (let dToken of this.lTokens) {
                    if (dToken["sType"] != "INFO") {
                        this.dTokenPos.set(dToken["nStart"], dToken);
                    }
                }
                if (bFullInfo) {
                    this.lTokens0 = Array.from(this.lTokens);





                    // the list of tokens is duplicated, to keep tokens from being deleted when analysis
                }
                this.parseText(this.sSentence, this.sSentence0, false, iStart, sCountry, dOpt, bShowRuleId, bDebug, bContext);
                if (bFullInfo) {
                    for (let oToken of this.lTokens0) {
                        gc_engine.oSpellChecker.setLabelsOnToken(oToken);
                    }
                    lSentences.push({
                        "nStart": iStart,
                        "nEnd": iEnd,
                        "sSentence": this.sSentence0,
                        "lTokens": this.lTokens0,
                        "lGrammarErrors": Array.from(this.dSentenceError.values())
                    });
                    this.dSentenceError.clear();
                }
            }
            catch (e) {
                console.error(e);
            }
        }
................................................................................
            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"];
            }
        }
        this.lTokens = lNewToken;
        this.dTokenPos.clear();
        for (let oToken of this.lTokens) {
            if (oToken["sType"] != "INFO") {
                this.dTokenPos.set(oToken["nStart"], oToken);
            }
        }
        if (bDebug) {
            console.log("UPDATE:");
            console.log(this.asString());
................................................................................
    }

    parseGraph (oGraph, sCountry="${country_default}", dOptions=null, bShowRuleId=false, bDebug=false, bContext=false) {
        // parse graph with tokens from the text and execute actions encountered
        let lPointer = [];
        let bTagAndRewrite = false;
        try {
            for (let [iToken, oToken] of this.lTokens.entries()) {
                if (bDebug) {
                    console.log("TOKEN: " + oToken["sValue"]);
                }
                // check arcs for each existing pointer
                let lNextPointer = [];
                for (let oPointer of lPointer) {
                    lNextPointer.push(...this._getNextPointers(oToken, oGraph, oPointer, bDebug));
................................................................................
                    // Suggestion    [ option, condition, "-", replacement/suggestion/action, iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, iURL ]
                    // 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_functions[sFuncCond](this.lTokens, nTokenOffset, nLastToken, sCountry, bCondMemo, this.dTags, this.sSentence, this.sSentence0);
                        //bCondMemo = !sFuncCond || oEvalFunc[sFuncCond](this.lTokens, nTokenOffset, nLastToken, sCountry, bCondMemo, this.dTags, this.sSentence, this.sSentence0);
                        if (bCondMemo) {
                            if (cActionType == "-") {
                                // grammar error
                                let [iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, iURL] = eAct;
                                let nTokenErrorStart = (iTokenStart > 0) ? nTokenOffset + iTokenStart : nLastToken + iTokenStart;
                                if (!this.lTokens[nTokenErrorStart].hasOwnProperty("bImmune")) {
                                    let nTokenErrorEnd = (iTokenEnd > 0) ? nTokenOffset + iTokenEnd : nLastToken + iTokenEnd;
                                    let nErrorStart = this.nOffsetWithinParagraph + ((cStartLimit == "<") ? this.lTokens[nTokenErrorStart]["nStart"] : this.lTokens[nTokenErrorStart]["nEnd"]);
                                    let nErrorEnd = this.nOffsetWithinParagraph + ((cEndLimit == ">") ? this.lTokens[nTokenErrorEnd]["nEnd"] : this.lTokens[nTokenErrorEnd]["nStart"]);
                                    if (!this.dError.has(nErrorStart) || nPriority > this.dErrorPriority.gl_get(nErrorStart, -1)) {
                                        this.dError.set(nErrorStart, this._createErrorFromTokens(sWhat, nTokenOffset, nLastToken, nTokenErrorStart, nErrorStart, nErrorEnd, sLineId, sRuleId, bCaseSvty,
                                                                                                 sMessage, gc_rules_graph.dURL[iURL], bShowRuleId, sOption, bContext));
                                        this.dErrorPriority.set(nErrorStart, nPriority);
                                        this.dSentenceError.set(nErrorStart, this.dError.get(nErrorStart));
                                        if (bDebug) {
                                            console.log("    NEW_ERROR: ",  this.dError.get(nErrorStart));
................................................................................
                            else if (cActionType == "~") {
                                // text processor
                                let nTokenStart = (eAct[0] > 0) ? nTokenOffset + eAct[0] : nLastToken + eAct[0];
                                let nTokenEnd = (eAct[1] > 0) ? nTokenOffset + eAct[1] : nLastToken + eAct[1];
                                this._tagAndPrepareTokenForRewriting(sWhat, nTokenStart, nTokenEnd, nTokenOffset, nLastToken, eAct[2], bDebug);
                                bChange = true;
                                if (bDebug) {
                                    console.log(`    TEXT_PROCESSOR: [${this.lTokens[nTokenStart]["sValue"]}:${this.lTokens[nTokenEnd]["sValue"]}]  > ${sWhat}`);
                                }
                            }
                            else if (cActionType == "=") {
                                // disambiguation
                                gc_functions[sWhat](this.lTokens, nTokenOffset, nLastToken);
                                //oEvalFunc[sWhat](this.lTokens, nTokenOffset, nLastToken);
                                if (bDebug) {
                                    console.log(`    DISAMBIGUATOR: (${sWhat})  [${this.lTokens[nTokenOffset+1]["sValue"]}:${this.lTokens[nLastToken]["sValue"]}]`);
                                }
                            }
                            else if (cActionType == ">") {
                                // we do nothing, this test is just a condition to apply all following actions
                                if (bDebug) {
                                    console.log("    COND_OK");
                                }
                            }
                            else if (cActionType == "/") {
                                // Tag
                                let nTokenStart = (eAct[0] > 0) ? nTokenOffset + eAct[0] : nLastToken + eAct[0];
                                let nTokenEnd = (eAct[1] > 0) ? nTokenOffset + eAct[1] : nLastToken + eAct[1];
                                for (let i = nTokenStart; i <= nTokenEnd; i++) {
                                    if (this.lTokens[i].hasOwnProperty("aTags")) {
                                        this.lTokens[i]["aTags"].add(...sWhat.split("|"))
                                    } else {
                                        this.lTokens[i]["aTags"] = new Set(sWhat.split("|"));
                                    }
                                }
                                if (bDebug) {
                                    console.log(`    TAG:  ${sWhat} > [${this.lTokens[nTokenStart]["sValue"]}:${this.lTokens[nTokenEnd]["sValue"]}]`);
                                }
                                for (let sTag of sWhat.split("|")) {
                                    if (!this.dTags.has(sTag)) {
                                        this.dTags.set(sTag, [nTokenStart, nTokenEnd]);
                                    } else {
                                        this.dTags.set(sTag, [Math.min(nTokenStart, this.dTags.get(sTag)[0]), Math.max(nTokenEnd, this.dTags.get(sTag)[1])]);
                                    }
................................................................................
                                // immunity
                                if (bDebug) {
                                    console.log("    IMMUNITY: " + sLineId + " / " + sRuleId);
                                }
                                let nTokenStart = (eAct[0] > 0) ? nTokenOffset + eAct[0] : nLastToken + eAct[0];
                                let nTokenEnd = (eAct[1] > 0) ? nTokenOffset + eAct[1] : nLastToken + eAct[1];
                                if (nTokenEnd - nTokenStart == 0) {
                                    this.lTokens[nTokenStart]["bImmune"] = true;
                                    let nErrorStart = this.nOffsetWithinParagraph + this.lTokens[nTokenStart]["nStart"];
                                    if (this.dError.has(nErrorStart)) {
                                        this.dError.delete(nErrorStart);
                                    }
                                } else {
                                    for (let i = nTokenStart;  i <= nTokenEnd;  i++) {
                                        this.lTokens[i]["bImmune"] = true;
                                        let nErrorStart = this.nOffsetWithinParagraph + this.lTokens[i]["nStart"];
                                        if (this.dError.has(nErrorStart)) {
                                            this.dError.delete(nErrorStart);
                                        }
                                    }
                                }
                            } else {
                                console.log("# error: unknown action at " + sLineId);
................................................................................
        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_functions[sSugg.slice(1)](this.lTokens, nTokenOffset, nLastToken);
            //sSugg = oEvalFunc[sSugg.slice(1)](this.lTokens, nTokenOffset, nLastToken);
            lSugg = (sSugg) ? sSugg.split("|") : [];
        } else if (sSugg == "_") {
            lSugg = [];
        } else {
            lSugg = this._expand(sSugg, nTokenOffset, nLastToken).split("|");
        }
        if (bCaseSvty && lSugg.length > 0 && this.lTokens[iFirstToken]["sValue"].slice(0,1).gl_isUpperCase()) {
            lSugg = (this.sSentence.slice(nStart, nEnd).gl_isUpperCase()) ? lSugg.map((s) => s.toUpperCase()) : capitalizeArray(lSugg);
        }
        // Message
        let sMessage = (sMsg.startsWith("=")) ? gc_functions[sMsg.slice(1)](this.lTokens, nTokenOffset, nLastToken) : this._expand(sMsg, nTokenOffset, nLastToken);
        //let sMessage = (sMsg.startsWith("=")) ? oEvalFunc[sMsg.slice(1)](this.lTokens, nTokenOffset, nLastToken) : this._expand(sMsg, nTokenOffset, nLastToken);
        if (bShowRuleId) {
            sMessage += "  #" + sLineId + " / " + sRuleId;
        }
        //
        return this._createError(nStart, nEnd, sLineId, sRuleId, sOption, sMessage, lSugg, sURL, bContext);
    }

................................................................................
        return oErr;
    }

    _expand (sText, nTokenOffset, nLastToken) {
        let m;
        while ((m = /\\(-?[0-9]+)/.exec(sText)) !== null) {
            if (m[1].slice(0,1) == "-") {
                sText = sText.replace(m[0], this.lTokens[nLastToken+parseInt(m[1],10)+1]["sValue"]);
            } else {
                sText = sText.replace(m[0], this.lTokens[nTokenOffset+parseInt(m[1],10)]["sValue"]);
            }
        }
        return sText;
    }

    rewriteText (sText, sRepl, iGroup, m, bUppercase) {
        // text processor: write sRepl in sText at iGroup position"
................................................................................
    }

    _tagAndPrepareTokenForRewriting (sWhat, nTokenRewriteStart, nTokenRewriteEnd, nTokenOffset, nLastToken, bCaseSvty, bDebug) {
        // text processor: rewrite tokens between <nTokenRewriteStart> and <nTokenRewriteEnd> position
        if (sWhat === "*") {
            // purge text
            if (nTokenRewriteEnd - nTokenRewriteStart == 0) {
                this.lTokens[nTokenRewriteStart]["bToRemove"] = true;
            } else {
                for (let i = nTokenRewriteStart;  i <= nTokenRewriteEnd;  i++) {
                    this.lTokens[i]["bToRemove"] = true;
                }
            }
        }
        else if (sWhat === "␣") {
            // merge tokens
            this.lTokens[nTokenRewriteStart]["nMergeUntil"] = nTokenRewriteEnd;
        }
        else if (sWhat === "_") {
            // neutralized token
            if (nTokenRewriteEnd - nTokenRewriteStart == 0) {
                this.lTokens[nTokenRewriteStart]["sNewValue"] = "_";
            } else {
                for (let i = nTokenRewriteStart;  i <= nTokenRewriteEnd;  i++) {
                    this.lTokens[i]["sNewValue"] = "_";
                }
            }
        }
        else {
            if (sWhat.startsWith("=")) {
                sWhat = gc_functions[sWhat.slice(1)](this.lTokens, nTokenOffset, nLastToken);
                //sWhat = oEvalFunc[sWhat.slice(1)](this.lTokens, nTokenOffset, nLastToken);
            } else {
                sWhat = this._expand(sWhat, nTokenOffset, nLastToken);
            }
            let bUppercase = bCaseSvty && this.lTokens[nTokenRewriteStart]["sValue"].slice(0,1).gl_isUpperCase();
            if (nTokenRewriteEnd - nTokenRewriteStart == 0) {
                // one token
                if (bUppercase) {
                    sWhat = sWhat.gl_toCapitalize();
                }
                this.lTokens[nTokenRewriteStart]["sNewValue"] = sWhat;
            }
            else {
                // several tokens
                let lTokenValue = sWhat.split("|");
                if (lTokenValue.length != (nTokenRewriteEnd - nTokenRewriteStart + 1)) {
                    if (bDebug) {
                        console.log("Error. Text processor: number of replacements != number of tokens.");
................................................................................
                    }
                    return;
                }
                let j = 0;
                for (let i = nTokenRewriteStart;  i <= nTokenRewriteEnd;  i++) {
                    let sValue = lTokenValue[j];
                    if (!sValue || sValue === "*") {
                        this.lTokens[i]["bToRemove"] = true;
                    } else {
                        if (bUppercase) {
                            sValue = sValue.gl_toCapitalize();
                        }
                        this.lTokens[i]["sNewValue"] = sValue;
                    }
                    j++;
                }
            }
        }
    }

................................................................................
        // rewrite the sentence, modify tokens, purge the token list
        if (bDebug) {
            console.log("REWRITE");
        }
        let lNewToken = [];
        let nMergeUntil = 0;
        let oMergingToken = null;
        for (let [iToken, oToken] of this.lTokens.entries()) {
            let bKeepToken = true;
            if (oToken["sType"] != "INFO") {
                if (nMergeUntil && iToken <= nMergeUntil) {
                    oMergingToken["sValue"] += " ".repeat(oToken["nStart"] - oMergingToken["nEnd"]) + oToken["sValue"];
                    oMergingToken["nEnd"] = oToken["nEnd"];
                    if (bDebug) {
                        console.log("  MERGED TOKEN: " + oMergingToken["sValue"]);
                    }
                    oToken["bMerged"] = true;
                    bKeepToken = false;
                }
                if (oToken.hasOwnProperty("nMergeUntil")) {
                    if (iToken > nMergeUntil) { // this token is not already merged with a previous token
                        oMergingToken = oToken;
                    }
                    if (oToken["nMergeUntil"] > nMergeUntil) {
................................................................................
                    delete oToken["sNewValue"];
                }
            }
        }
        if (bDebug) {
            console.log("  TEXT REWRITED: " + this.sSentence);
        }
        this.lTokens.length = 0;
        this.lTokens = lNewToken;
    }
};


if (typeof(exports) !== 'undefined') {
    exports.lang = gc_engine.lang;
    exports.locales = gc_engine.locales;

Modified gc_core/py/lang_core/gc_engine.py from [31a9f5bc44] to [20a4e92e8f].

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    def __init__ (self, sText):
        self.sText = sText
        self.sText0 = sText
        self.sSentence = ""
        self.sSentence0 = ""
        self.nOffsetWithinParagraph = 0
        self.lToken = []
        self.dTokenPos = {}         # {position: token}
        self.dTags = {}             # {position: tags}
        self.dError = {}            # {position: error}
        self.dSentenceError = {}    # {position: error} (for the current sentence only)
        self.dErrorPriority = {}    # {position: priority of the current error}

    def __str__ (self):
        s = "===== TEXT =====\n"
        s += "sentence: " + self.sSentence0 + "\n"
        s += "now:      " + self.sSentence  + "\n"
        for dToken in self.lToken:
            s += '#{i}\t{nStart}:{nEnd}\t{sValue}\t{sType}'.format(**dToken)
            if "lMorph" in dToken:
                s += "\t" + str(dToken["lMorph"])
            if "aTags" in dToken:
                s += "\t" + str(dToken["aTags"])
            s += "\n"
        #for nPos, dToken in self.dTokenPos.items():
................................................................................
        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())
            lSentences = []
            self.dSentenceError.clear()
        # parse sentences
        sText = self._getCleanText()
        for iStart, iEnd in text.getSentenceBoundaries(sText):
            if 4 < (iEnd - iStart) < 2000:
                try:
                    self.sSentence = sText[iStart:iEnd]
                    self.sSentence0 = self.sText0[iStart:iEnd]
                    self.nOffsetWithinParagraph = iStart
                    self.lToken = list(_oTokenizer.genTokens(self.sSentence, True))
                    self.dTokenPos = { dToken["nStart"]: dToken  for dToken in self.lToken  if dToken["sType"] != "INFO" }
                    if bFullInfo:
                        dSentence = { "nStart": iStart, "nEnd": iEnd, "sSentence": self.sSentence, "lToken": list(self.lToken) }
                        for dToken in dSentence["lToken"]:
                            if dToken["sType"] == "WORD":
                                dToken["bValidToken"] = _oSpellChecker.isValidToken(dToken["sValue"])
                        # the list of tokens is duplicated, to keep all tokens from being deleted when analysis
                    self.parseText(self.sSentence, self.sSentence0, False, iStart, sCountry, dOpt, bShowRuleId, bDebug, bContext)
                    if bFullInfo:
                        dSentence["lGrammarErrors"] = list(self.dSentenceError.values())
                        lSentences.append(dSentence)



                        self.dSentenceError.clear()
                except:
                    raise
        if bFullInfo:
            # Grammar checking and sentence analysis
            return lParagraphErrors, lSentences
        else:
................................................................................
                self.sText = sText
            else:
                self.sSentence = sText

    def update (self, sSentence, bDebug=False):
        "update <sSentence> and retokenize"
        self.sSentence = sSentence
        lNewToken = list(_oTokenizer.genTokens(sSentence, True))
        for dToken in lNewToken:
            if "lMorph" in self.dTokenPos.get(dToken["nStart"], {}):
                dToken["lMorph"] = self.dTokenPos[dToken["nStart"]]["lMorph"]
            if "aTags" in self.dTokenPos.get(dToken["nStart"], {}):
                dToken["aTags"] = self.dTokenPos[dToken["nStart"]]["aTags"]
        self.lToken = lNewToken
        self.dTokenPos = { dToken["nStart"]: dToken  for dToken in self.lToken  if dToken["sType"] != "INFO" }
        if bDebug:
            echo("UPDATE:")
            echo(self)

    def _getNextPointers (self, dToken, dGraph, dPointer, bDebug=False):
        "generator: return nodes where <dToken> “values” match <dNode> arcs"
        dNode = dGraph[dPointer["iNode"]]
................................................................................
            dPointer2 = { "iToken1": iToken1, "iNode": dNode["<>"], "bKeep": True }
            yield from self._getNextPointers(dToken, dGraph, dPointer2, bDebug)

    def parseGraph (self, dGraph, sCountry="${country_default}", dOptions=None, bShowRuleId=False, bDebug=False, bContext=False):
        "parse graph with tokens from the text and execute actions encountered"
        lPointer = []
        bTagAndRewrite = False
        for iToken, dToken in enumerate(self.lToken):
            if bDebug:
                echo("TOKEN: " + dToken["sValue"])
            # check arcs for each existing pointer
            lNextPointer = []
            for dPointer in lPointer:
                lNextPointer.extend(self._getNextPointers(dToken, dGraph, dPointer, bDebug))
            lPointer = lNextPointer
................................................................................
                    # Suggestion    [ option, condition, "-", replacement/suggestion/action, iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, iURL ]
                    # 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 getattr(gc_functions, 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, iURL = 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
                                    nErrorStart = self.nOffsetWithinParagraph + (self.lToken[nTokenErrorStart]["nStart"] if cStartLimit == "<"  else self.lToken[nTokenErrorStart]["nEnd"])
                                    nErrorEnd = self.nOffsetWithinParagraph + (self.lToken[nTokenErrorEnd]["nEnd"] if cEndLimit == ">"  else self.lToken[nTokenErrorEnd]["nStart"])
                                    if nErrorStart not in self.dError or nPriority > self.dErrorPriority.get(nErrorStart, -1):
                                        self.dError[nErrorStart] = self._createErrorFromTokens(sWhat, nTokenOffset, nLastToken, nTokenErrorStart, nErrorStart, nErrorEnd, sLineId, sRuleId, bCaseSvty, \
                                                                                               sMessage, _rules_graph.dURL.get(iURL, ""), bShowRuleId, sOption, bContext)
                                        self.dErrorPriority[nErrorStart] = nPriority
                                        self.dSentenceError[nErrorStart] = self.dError[nErrorStart]
                                        if bDebug:
                                            echo("    NEW_ERROR: {}".format(self.dError[nErrorStart]))
................................................................................
                            elif cActionType == "~":
                                # text processor
                                nTokenStart = nTokenOffset + eAct[0]  if eAct[0] > 0  else nLastToken + eAct[0]
                                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(gc_functions, 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 == "/":
                                # Tag
                                nTokenStart = nTokenOffset + eAct[0]  if eAct[0] > 0  else nLastToken + eAct[0]
                                nTokenEnd = nTokenOffset + eAct[1]  if eAct[1] > 0  else nLastToken + eAct[1]
                                for i in range(nTokenStart, nTokenEnd+1):
                                    if "aTags" in self.lToken[i]:
                                        self.lToken[i]["aTags"].update(sWhat.split("|"))
                                    else:
                                        self.lToken[i]["aTags"] = set(sWhat.split("|"))
                                if bDebug:
                                    echo("    TAG: {} >  [{}:{}]".format(sWhat, self.lToken[nTokenStart]["sValue"], self.lToken[nTokenEnd]["sValue"]))
                                for sTag in sWhat.split("|"):
                                    if sTag not in self.dTags:
                                        self.dTags[sTag] = [nTokenStart, nTokenEnd]
                                    else:
                                        self.dTags[sTag][0] = min(nTokenStart, self.dTags[sTag][0])
                                        self.dTags[sTag][1] = max(nTokenEnd, self.dTags[sTag][1])
                            elif cActionType == "!":
                                # immunity
                                if bDebug:
                                    echo("    IMMUNITY: " + sLineId + " / " + sRuleId)
                                nTokenStart = nTokenOffset + eAct[0]  if eAct[0] > 0  else nLastToken + eAct[0]
                                nTokenEnd = nTokenOffset + eAct[1]  if eAct[1] > 0  else nLastToken + eAct[1]
                                if nTokenEnd - nTokenStart == 0:
                                    self.lToken[nTokenStart]["bImmune"] = True
                                    nErrorStart = self.nOffsetWithinParagraph + self.lToken[nTokenStart]["nStart"]
                                    if nErrorStart in self.dError:
                                        del self.dError[nErrorStart]
                                else:
                                    for i in range(nTokenStart, nTokenEnd+1):
                                        self.lToken[i]["bImmune"] = True
                                        nErrorStart = self.nOffsetWithinParagraph + self.lToken[i]["nStart"]
                                        if nErrorStart in self.dError:
                                            del self.dError[nErrorStart]
                            else:
                                echo("# error: unknown action at " + sLineId)
                        elif cActionType == ">":
                            if bDebug:
                                echo("    COND_BREAK")
................................................................................
        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(gc_functions, 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.upper(), lSugg))  if self.sSentence[nStart:nEnd].isupper()  else list(map(lambda s: s[0:1].upper()+s[1:], lSugg))
        # Message
        sMessage = getattr(gc_functions, 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)

................................................................................
            dErr['sBefore'] = self.sText0[max(0,nStart-80):nStart]
            dErr['sAfter'] = self.sText0[nEnd:nEnd+80]
        return dErr

    def _expand (self, sText, nTokenOffset, nLastToken):
        for m in re.finditer(r"\\(-?[0-9]+)", sText):
            if m.group(1)[0:1] == "-":
                sText = sText.replace(m.group(0), self.lToken[nLastToken+int(m.group(1))+1]["sValue"])
            else:
                sText = sText.replace(m.group(0), self.lToken[nTokenOffset+int(m.group(1))]["sValue"])
        return sText

    def rewriteText (self, sText, sRepl, iGroup, m, bUppercase):
        "text processor: write <sRepl> in <sText> at <iGroup> position"
        nLen = m.end(iGroup) - m.start(iGroup)
        if sRepl == "*":
            sNew = " " * nLen
................................................................................
        return sText[0:m.start(iGroup)] + sNew + sText[m.end(iGroup):]

    def _tagAndPrepareTokenForRewriting (self, sWhat, nTokenRewriteStart, nTokenRewriteEnd, nTokenOffset, nLastToken, bCaseSvty, bDebug):
        "text processor: rewrite tokens between <nTokenRewriteStart> and <nTokenRewriteEnd> position"
        if sWhat == "*":
            # purge text
            if nTokenRewriteEnd - nTokenRewriteStart == 0:
                self.lToken[nTokenRewriteStart]["bToRemove"] = True
            else:
                for i in range(nTokenRewriteStart, nTokenRewriteEnd+1):
                    self.lToken[i]["bToRemove"] = True
        elif sWhat == "␣":
            # merge tokens
            self.lToken[nTokenRewriteStart]["nMergeUntil"] = nTokenRewriteEnd
        elif sWhat == "_":
            # neutralized token
            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(gc_functions, 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:]
                self.lToken[nTokenRewriteStart]["sNewValue"] = sWhat
            else:
                # several tokens
                lTokenValue = sWhat.split("|")
                if len(lTokenValue) != (nTokenRewriteEnd - nTokenRewriteStart + 1):
                    if (bDebug):
                        echo("Error. Text processor: number of replacements != number of tokens.")
                    return
                for i, sValue in zip(range(nTokenRewriteStart, nTokenRewriteEnd+1), lTokenValue):
                    if not sValue or sValue == "*":
                        self.lToken[i]["bToRemove"] = True
                    else:
                        if bUppercase:
                            sValue = sValue[0:1].upper() + sValue[1:]
                        self.lToken[i]["sNewValue"] = sValue

    def rewriteFromTags (self, bDebug=False):
        "rewrite the sentence, modify tokens, purge the token list"
        if bDebug:
            echo("REWRITE")
        lNewToken = []

        nMergeUntil = 0
        dTokenMerger = {}
        for iToken, dToken in enumerate(self.lToken):
            bKeepToken = True
            if dToken["sType"] != "INFO":
                if nMergeUntil and iToken <= nMergeUntil:

                    dTokenMerger["sValue"] += " " * (dToken["nStart"] - dTokenMerger["nEnd"]) + dToken["sValue"]
                    dTokenMerger["nEnd"] = dToken["nEnd"]
                    if bDebug:
                        echo("  MERGED TOKEN: " + dTokenMerger["sValue"])

                    bKeepToken = False
                if "nMergeUntil" in dToken:

                    if iToken > nMergeUntil: # this token is not already merged with a previous token
                        dTokenMerger = dToken
                    if dToken["nMergeUntil"] > nMergeUntil:
                        nMergeUntil = dToken["nMergeUntil"]
                    del dToken["nMergeUntil"]
                elif "bToRemove" in dToken:

                    if bDebug:
                        echo("  REMOVED: " + dToken["sValue"])
                    self.sSentence = self.sSentence[:dToken["nStart"]] + " " * (dToken["nEnd"] - dToken["nStart"]) + self.sSentence[dToken["nEnd"]:]
                    bKeepToken = False
            #
            if bKeepToken:
                lNewToken.append(dToken)
                if "sNewValue" in dToken:
                    # rewrite token and sentence
                    if bDebug:
                        echo(dToken["sValue"] + " -> " + dToken["sNewValue"])
                    dToken["sRealValue"] = dToken["sValue"]
                    dToken["sValue"] = dToken["sNewValue"]
                    nDiffLen = len(dToken["sRealValue"]) - len(dToken["sNewValue"])
                    sNewRepl = (dToken["sNewValue"] + " " * nDiffLen)  if nDiffLen >= 0  else dToken["sNewValue"][:len(dToken["sRealValue"])]
                    self.sSentence = self.sSentence[:dToken["nStart"]] + sNewRepl + self.sSentence[dToken["nEnd"]:]
                    del dToken["sNewValue"]
        if bDebug:
            echo("  TEXT REWRITED: " + self.sSentence)
        self.lToken.clear()
        self.lToken = lNewToken







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    def __init__ (self, sText):
        self.sText = sText
        self.sText0 = sText
        self.sSentence = ""
        self.sSentence0 = ""
        self.nOffsetWithinParagraph = 0
        self.lTokens = []
        self.dTokenPos = {}         # {position: token}
        self.dTags = {}             # {position: tags}
        self.dError = {}            # {position: error}
        self.dSentenceError = {}    # {position: error} (for the current sentence only)
        self.dErrorPriority = {}    # {position: priority of the current error}

    def __str__ (self):
        s = "===== TEXT =====\n"
        s += "sentence: " + self.sSentence0 + "\n"
        s += "now:      " + self.sSentence  + "\n"
        for dToken in self.lTokens:
            s += '#{i}\t{nStart}:{nEnd}\t{sValue}\t{sType}'.format(**dToken)
            if "lMorph" in dToken:
                s += "\t" + str(dToken["lMorph"])
            if "aTags" in dToken:
                s += "\t" + str(dToken["aTags"])
            s += "\n"
        #for nPos, dToken in self.dTokenPos.items():
................................................................................
        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
        self.lTokens = None
        self.lTokens0 = None
        if bFullInfo:
            lParagraphErrors = list(self.dError.values())
            lSentences = []
            self.dSentenceError.clear()
        # parse sentences
        sText = self._getCleanText()
        for iStart, iEnd in text.getSentenceBoundaries(sText):
            if 4 < (iEnd - iStart) < 2000:
                try:
                    self.sSentence = sText[iStart:iEnd]
                    self.sSentence0 = self.sText0[iStart:iEnd]
                    self.nOffsetWithinParagraph = iStart
                    self.lTokens = list(_oTokenizer.genTokens(self.sSentence, True))
                    self.dTokenPos = { dToken["nStart"]: dToken  for dToken in self.lTokens  if dToken["sType"] != "INFO" }
                    if bFullInfo:
                        self.lTokens0 = list(self.lTokens)  # the list of tokens is duplicated, to keep tokens from being deleted when analysis
                    self.parseText(self.sSentence, self.sSentence0, False, iStart, sCountry, dOpt, bShowRuleId, bDebug, bContext)
                    if bFullInfo:
                        for dToken in self.lTokens0:
                            _oSpellChecker.setLabelsOnToken(dToken)
                        lSentences.append({
                            "nStart": iStart,
                            "nEnd": iEnd,
                            "sSentence": self.sSentence0,
                            "lTokens": self.lTokens0,
                            "lGrammarErrors": list(self.dSentenceError.values())
                        })
                        self.dSentenceError.clear()
                except:
                    raise
        if bFullInfo:
            # Grammar checking and sentence analysis
            return lParagraphErrors, lSentences
        else:
................................................................................
                self.sText = sText
            else:
                self.sSentence = sText

    def update (self, sSentence, bDebug=False):
        "update <sSentence> and retokenize"
        self.sSentence = sSentence
        lNewTokens = list(_oTokenizer.genTokens(sSentence, True))
        for dToken in lNewTokens:
            if "lMorph" in self.dTokenPos.get(dToken["nStart"], {}):
                dToken["lMorph"] = self.dTokenPos[dToken["nStart"]]["lMorph"]
            if "aTags" in self.dTokenPos.get(dToken["nStart"], {}):
                dToken["aTags"] = self.dTokenPos[dToken["nStart"]]["aTags"]
        self.lTokens = lNewTokens
        self.dTokenPos = { dToken["nStart"]: dToken  for dToken in self.lTokens  if dToken["sType"] != "INFO" }
        if bDebug:
            echo("UPDATE:")
            echo(self)

    def _getNextPointers (self, dToken, dGraph, dPointer, bDebug=False):
        "generator: return nodes where <dToken> “values” match <dNode> arcs"
        dNode = dGraph[dPointer["iNode"]]
................................................................................
            dPointer2 = { "iToken1": iToken1, "iNode": dNode["<>"], "bKeep": True }
            yield from self._getNextPointers(dToken, dGraph, dPointer2, bDebug)

    def parseGraph (self, dGraph, sCountry="${country_default}", dOptions=None, bShowRuleId=False, bDebug=False, bContext=False):
        "parse graph with tokens from the text and execute actions encountered"
        lPointer = []
        bTagAndRewrite = False
        for iToken, dToken in enumerate(self.lTokens):
            if bDebug:
                echo("TOKEN: " + dToken["sValue"])
            # check arcs for each existing pointer
            lNextPointer = []
            for dPointer in lPointer:
                lNextPointer.extend(self._getNextPointers(dToken, dGraph, dPointer, bDebug))
            lPointer = lNextPointer
................................................................................
                    # Suggestion    [ option, condition, "-", replacement/suggestion/action, iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, iURL ]
                    # 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 getattr(gc_functions, sFuncCond)(self.lTokens, nTokenOffset, nLastToken, sCountry, bCondMemo, self.dTags, self.sSentence, self.sSentence0)
                        if bCondMemo:
                            if cActionType == "-":
                                # grammar error
                                iTokenStart, iTokenEnd, cStartLimit, cEndLimit, bCaseSvty, nPriority, sMessage, iURL = eAct
                                nTokenErrorStart = nTokenOffset + iTokenStart  if iTokenStart > 0  else nLastToken + iTokenStart
                                if "bImmune" not in self.lTokens[nTokenErrorStart]:
                                    nTokenErrorEnd = nTokenOffset + iTokenEnd  if iTokenEnd > 0  else nLastToken + iTokenEnd
                                    nErrorStart = self.nOffsetWithinParagraph + (self.lTokens[nTokenErrorStart]["nStart"] if cStartLimit == "<"  else self.lTokens[nTokenErrorStart]["nEnd"])
                                    nErrorEnd = self.nOffsetWithinParagraph + (self.lTokens[nTokenErrorEnd]["nEnd"] if cEndLimit == ">"  else self.lTokens[nTokenErrorEnd]["nStart"])
                                    if nErrorStart not in self.dError or nPriority > self.dErrorPriority.get(nErrorStart, -1):
                                        self.dError[nErrorStart] = self._createErrorFromTokens(sWhat, nTokenOffset, nLastToken, nTokenErrorStart, nErrorStart, nErrorEnd, sLineId, sRuleId, bCaseSvty, \
                                                                                               sMessage, _rules_graph.dURL.get(iURL, ""), bShowRuleId, sOption, bContext)
                                        self.dErrorPriority[nErrorStart] = nPriority
                                        self.dSentenceError[nErrorStart] = self.dError[nErrorStart]
                                        if bDebug:
                                            echo("    NEW_ERROR: {}".format(self.dError[nErrorStart]))
................................................................................
                            elif cActionType == "~":
                                # text processor
                                nTokenStart = nTokenOffset + eAct[0]  if eAct[0] > 0  else nLastToken + eAct[0]
                                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.lTokens[nTokenStart]["sValue"], self.lTokens[nTokenEnd]["sValue"], sWhat))
                            elif cActionType == "=":
                                # disambiguation
                                getattr(gc_functions, sWhat)(self.lTokens, nTokenOffset, nLastToken)
                                if bDebug:
                                    echo("    DISAMBIGUATOR: ({})  [{}:{}]".format(sWhat, self.lTokens[nTokenOffset+1]["sValue"], self.lTokens[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 == "/":
                                # Tag
                                nTokenStart = nTokenOffset + eAct[0]  if eAct[0] > 0  else nLastToken + eAct[0]
                                nTokenEnd = nTokenOffset + eAct[1]  if eAct[1] > 0  else nLastToken + eAct[1]
                                for i in range(nTokenStart, nTokenEnd+1):
                                    if "aTags" in self.lTokens[i]:
                                        self.lTokens[i]["aTags"].update(sWhat.split("|"))
                                    else:
                                        self.lTokens[i]["aTags"] = set(sWhat.split("|"))
                                if bDebug:
                                    echo("    TAG: {} >  [{}:{}]".format(sWhat, self.lTokens[nTokenStart]["sValue"], self.lTokens[nTokenEnd]["sValue"]))
                                for sTag in sWhat.split("|"):
                                    if sTag not in self.dTags:
                                        self.dTags[sTag] = [nTokenStart, nTokenEnd]
                                    else:
                                        self.dTags[sTag][0] = min(nTokenStart, self.dTags[sTag][0])
                                        self.dTags[sTag][1] = max(nTokenEnd, self.dTags[sTag][1])
                            elif cActionType == "!":
                                # immunity
                                if bDebug:
                                    echo("    IMMUNITY: " + sLineId + " / " + sRuleId)
                                nTokenStart = nTokenOffset + eAct[0]  if eAct[0] > 0  else nLastToken + eAct[0]
                                nTokenEnd = nTokenOffset + eAct[1]  if eAct[1] > 0  else nLastToken + eAct[1]
                                if nTokenEnd - nTokenStart == 0:
                                    self.lTokens[nTokenStart]["bImmune"] = True
                                    nErrorStart = self.nOffsetWithinParagraph + self.lTokens[nTokenStart]["nStart"]
                                    if nErrorStart in self.dError:
                                        del self.dError[nErrorStart]
                                else:
                                    for i in range(nTokenStart, nTokenEnd+1):
                                        self.lTokens[i]["bImmune"] = True
                                        nErrorStart = self.nOffsetWithinParagraph + self.lTokens[i]["nStart"]
                                        if nErrorStart in self.dError:
                                            del self.dError[nErrorStart]
                            else:
                                echo("# error: unknown action at " + sLineId)
                        elif cActionType == ">":
                            if bDebug:
                                echo("    COND_BREAK")
................................................................................
        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(gc_functions, sSugg[1:])(self.lTokens, 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.lTokens[iFirstToken]["sValue"][0:1].isupper():
            lSugg = list(map(lambda s: s.upper(), lSugg))  if self.sSentence[nStart:nEnd].isupper()  else list(map(lambda s: s[0:1].upper()+s[1:], lSugg))
        # Message
        sMessage = getattr(gc_functions, sMsg[1:])(self.lTokens, 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)

................................................................................
            dErr['sBefore'] = self.sText0[max(0,nStart-80):nStart]
            dErr['sAfter'] = self.sText0[nEnd:nEnd+80]
        return dErr

    def _expand (self, sText, nTokenOffset, nLastToken):
        for m in re.finditer(r"\\(-?[0-9]+)", sText):
            if m.group(1)[0:1] == "-":
                sText = sText.replace(m.group(0), self.lTokens[nLastToken+int(m.group(1))+1]["sValue"])
            else:
                sText = sText.replace(m.group(0), self.lTokens[nTokenOffset+int(m.group(1))]["sValue"])
        return sText

    def rewriteText (self, sText, sRepl, iGroup, m, bUppercase):
        "text processor: write <sRepl> in <sText> at <iGroup> position"
        nLen = m.end(iGroup) - m.start(iGroup)
        if sRepl == "*":
            sNew = " " * nLen
................................................................................
        return sText[0:m.start(iGroup)] + sNew + sText[m.end(iGroup):]

    def _tagAndPrepareTokenForRewriting (self, sWhat, nTokenRewriteStart, nTokenRewriteEnd, nTokenOffset, nLastToken, bCaseSvty, bDebug):
        "text processor: rewrite tokens between <nTokenRewriteStart> and <nTokenRewriteEnd> position"
        if sWhat == "*":
            # purge text
            if nTokenRewriteEnd - nTokenRewriteStart == 0:
                self.lTokens[nTokenRewriteStart]["bToRemove"] = True
            else:
                for i in range(nTokenRewriteStart, nTokenRewriteEnd+1):
                    self.lTokens[i]["bToRemove"] = True
        elif sWhat == "␣":
            # merge tokens
            self.lTokens[nTokenRewriteStart]["nMergeUntil"] = nTokenRewriteEnd
        elif sWhat == "_":
            # neutralized token
            if nTokenRewriteEnd - nTokenRewriteStart == 0:
                self.lTokens[nTokenRewriteStart]["sNewValue"] = "_"
            else:
                for i in range(nTokenRewriteStart, nTokenRewriteEnd+1):
                    self.lTokens[i]["sNewValue"] = "_"
        else:
            if sWhat.startswith("="):
                sWhat = getattr(gc_functions, sWhat[1:])(self.lTokens, nTokenOffset, nLastToken)
            else:
                sWhat = self._expand(sWhat, nTokenOffset, nLastToken)
            bUppercase = bCaseSvty and self.lTokens[nTokenRewriteStart]["sValue"][0:1].isupper()
            if nTokenRewriteEnd - nTokenRewriteStart == 0:
                # one token
                if bUppercase:
                    sWhat = sWhat[0:1].upper() + sWhat[1:]
                self.lTokens[nTokenRewriteStart]["sNewValue"] = sWhat
            else:
                # several tokens
                lTokenValue = sWhat.split("|")
                if len(lTokenValue) != (nTokenRewriteEnd - nTokenRewriteStart + 1):
                    if (bDebug):
                        echo("Error. Text processor: number of replacements != number of tokens.")
                    return
                for i, sValue in zip(range(nTokenRewriteStart, nTokenRewriteEnd+1), lTokenValue):
                    if not sValue or sValue == "*":
                        self.lTokens[i]["bToRemove"] = True
                    else:
                        if bUppercase:
                            sValue = sValue[0:1].upper() + sValue[1:]
                        self.lTokens[i]["sNewValue"] = sValue

    def rewriteFromTags (self, bDebug=False):
        "rewrite the sentence, modify tokens, purge the token list"
        if bDebug:
            echo("REWRITE")
        lNewTokens = []
        lNewTokens0 = []
        nMergeUntil = 0
        dTokenMerger = {}
        for iToken, dToken in enumerate(self.lTokens):
            bKeepToken = True
            if dToken["sType"] != "INFO":
                if nMergeUntil and iToken <= nMergeUntil:
                    # token to merge
                    dTokenMerger["sValue"] += " " * (dToken["nStart"] - dTokenMerger["nEnd"]) + dToken["sValue"]
                    dTokenMerger["nEnd"] = dToken["nEnd"]
                    if bDebug:
                        echo("  MERGED TOKEN: " + dTokenMerger["sValue"])
                    dToken["bMerged"] = True
                    bKeepToken = False
                if "nMergeUntil" in dToken:
                    # first token to be merge with
                    if iToken > nMergeUntil: # this token is not to be merged with a previous token
                        dTokenMerger = dToken
                    if dToken["nMergeUntil"] > nMergeUntil:
                        nMergeUntil = dToken["nMergeUntil"]
                    del dToken["nMergeUntil"]
                elif "bToRemove" in dToken:
                    # deletion required
                    if bDebug:
                        echo("  REMOVED: " + dToken["sValue"])
                    self.sSentence = self.sSentence[:dToken["nStart"]] + " " * (dToken["nEnd"] - dToken["nStart"]) + self.sSentence[dToken["nEnd"]:]
                    bKeepToken = False
            #
            if bKeepToken:
                lNewTokens.append(dToken)
                if "sNewValue" in dToken:
                    # rewrite token and sentence
                    if bDebug:
                        echo(dToken["sValue"] + " -> " + dToken["sNewValue"])
                    dToken["sRealValue"] = dToken["sValue"]
                    dToken["sValue"] = dToken["sNewValue"]
                    nDiffLen = len(dToken["sRealValue"]) - len(dToken["sNewValue"])
                    sNewRepl = (dToken["sNewValue"] + " " * nDiffLen)  if nDiffLen >= 0  else dToken["sNewValue"][:len(dToken["sRealValue"])]
                    self.sSentence = self.sSentence[:dToken["nStart"]] + sNewRepl + self.sSentence[dToken["nEnd"]:]
                    del dToken["sNewValue"]
        if bDebug:
            echo("  TEXT REWRITED: " + self.sSentence)
        self.lTokens.clear()
        self.lTokens = lNewTokens

Modified gc_lang/fr/webext/content_scripts/init.js from [d6a977e5a7] to [b54947b0d1].

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        this.send("parseAndSpellcheck", { sText: sText, sCountry: "FR", bDebug: false, bContext: false }, { sDestination: sDestination });
    },

    parseAndSpellcheck1: function (sText, sDestination, sParagraphId) {
        this.send("parseAndSpellcheck1", { sText: sText, sCountry: "FR", bDebug: false, bContext: false }, { sDestination: sDestination, sParagraphId: sParagraphId });
    },

    getListOfTokens: function (sText) {
        this.send("getListOfTokens", { sText: sText }, {});
    },

    parseFull: function (sText) {
        this.send("parseFull", { sText: sText, sCountry: "FR", bDebug: false, bContext: false }, {});
    },

    getVerb: function (sVerb, bStart=true, bPro=false, bNeg=false, bTpsCo=false, bInt=false, bFem=false) {
        this.send("getVerb", { sVerb: sVerb, bPro: bPro, bNeg: bNeg, bTpsCo: bTpsCo, bInt: bInt, bFem: bFem }, { bStart: bStart });
    },

    getSpellSuggestions: function (sWord, sDestination, sErrorId) {
................................................................................
                    break;
                case "parseAndSpellcheck1":
                    if (oInfo.sDestination == "__GrammalectePanel__") {
                        oGrammalecte.oGCPanel.refreshParagraph(oInfo.sParagraphId, result);
                    }
                    break;
                case "parseFull":
                    // TODO


                    break;
                case "getListOfTokens":

                    if (!bEnd) {
                        oGrammalecte.oGCPanel.addListOfTokens(result);
                    } else {
                        oGrammalecte.oGCPanel.stopWaitIcon();
                        oGrammalecte.oGCPanel.endTimer();

                    }
                    break;
                case "getSpellSuggestions":
                    if (oInfo.sDestination == "__GrammalectePanel__") {
                        oGrammalecte.oGCPanel.oTooltip.setSpellSuggestionsFor(result.sWord, result.aSugg, result.iSuggBlock, oInfo.sErrorId);
                    }
                    else if (oInfo.sDestination  &&  document.getElementById(oInfo.sDestination)) {







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        this.send("parseAndSpellcheck", { sText: sText, sCountry: "FR", bDebug: false, bContext: false }, { sDestination: sDestination });
    },

    parseAndSpellcheck1: function (sText, sDestination, sParagraphId) {
        this.send("parseAndSpellcheck1", { sText: sText, sCountry: "FR", bDebug: false, bContext: false }, { sDestination: sDestination, sParagraphId: sParagraphId });
    },

    parseFull: function (sText, sDestination, sParagraphId) {
        this.send("parseFull", { sText: sText, sCountry: "FR", bDebug: false, bContext: false }, { sDestination: sDestination });
    },

    getListOfTokens: function (sText, sDestination) {
        this.send("getListOfTokens", { sText: sText }, { sDestination: sDestination });
    },

    getVerb: function (sVerb, bStart=true, bPro=false, bNeg=false, bTpsCo=false, bInt=false, bFem=false) {
        this.send("getVerb", { sVerb: sVerb, bPro: bPro, bNeg: bNeg, bTpsCo: bTpsCo, bInt: bInt, bFem: bFem }, { bStart: bStart });
    },

    getSpellSuggestions: function (sWord, sDestination, sErrorId) {
................................................................................
                    break;
                case "parseAndSpellcheck1":
                    if (oInfo.sDestination == "__GrammalectePanel__") {
                        oGrammalecte.oGCPanel.refreshParagraph(oInfo.sParagraphId, result);
                    }
                    break;
                case "parseFull":
                    if (oInfo.sDestination == "__GrammalectePanel__") {
                        oGrammalecte.oGCPanel.showParagraphAnalysis(result);
                    }
                    break;
                case "getListOfTokens":
                    if (oInfo.sDestination == "__GrammalectePanel__") {
                        if (!bEnd) {
                            oGrammalecte.oGCPanel.addListOfTokens(result);
                        } else {
                            oGrammalecte.oGCPanel.stopWaitIcon();
                            oGrammalecte.oGCPanel.endTimer();
                        }
                    }
                    break;
                case "getSpellSuggestions":
                    if (oInfo.sDestination == "__GrammalectePanel__") {
                        oGrammalecte.oGCPanel.oTooltip.setSpellSuggestionsFor(result.sWord, result.aSugg, result.iSuggBlock, oInfo.sErrorId);
                    }
                    else if (oInfo.sDestination  &&  document.getElementById(oInfo.sDestination)) {

Modified gc_lang/fr/webext/content_scripts/panel_gc.css from [9a73dd19f8] to [89a25fc756].

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    width: 100%;
    margin: 0;
    overflow: auto;
}

div.grammalecte_paragraph_block {
    margin: 5px 5px 0 5px;


}

p.grammalecte_paragraph {
    margin: 0;
    padding: 12px;
    background-color: hsl(0, 0%, 96%);
    border-radius: 2px;
    line-height: 1.3;
    text-align: left;
    font-size: 14px;
    font-family: "Courier New", Courier, "Lucida Sans Typewriter", "Lucida Typewriter", monospace;
    color: hsl(0, 0%, 0%);
    hyphens: none;
}


/*
    Action buttons
*/
div.grammalecte_paragraph_actions {
    float: right;
    margin: 0 0 5px 10px;
................................................................................
    cursor: pointer;
    font-family: "Trebuchet MS", "Fira Sans", "Liberation Sans", sans-serif;
    font-size: 14px;
    color: hsl(0, 0%, 96%);
    border-radius: 2px;
}








div.grammalecte_paragraph_actions .grammalecte_green {
    color: hsl(0, 0%, 80%);
}
div.grammalecte_paragraph_actions .grammalecte_green:hover {
    background-color: hsl(120, 50%, 40%);
    color: hsl(0, 0%, 100%);
}







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    width: 100%;
    margin: 0;
    overflow: auto;
}

div.grammalecte_paragraph_block {
    margin: 5px 5px 0 5px;
    background-color: hsl(0, 0%, 96%);
    border-radius: 2px;
}

p.grammalecte_paragraph {
    margin: 0;
    padding: 12px;


    line-height: 1.3;
    text-align: left;
    font-size: 14px;
    font-family: "Courier New", Courier, "Lucida Sans Typewriter", "Lucida Typewriter", monospace;
    color: hsl(0, 0%, 0%);
    hyphens: none;
}


/*
    Action buttons
*/
div.grammalecte_paragraph_actions {
    float: right;
    margin: 0 0 5px 10px;
................................................................................
    cursor: pointer;
    font-family: "Trebuchet MS", "Fira Sans", "Liberation Sans", sans-serif;
    font-size: 14px;
    color: hsl(0, 0%, 96%);
    border-radius: 2px;
}

div.grammalecte_paragraph_actions .grammalecte_blue {
    color: hsl(0, 0%, 80%);
}
div.grammalecte_paragraph_actions .grammalecte_blue:hover {
    background-color: hsl(210, 50%, 40%);
    color: hsl(0, 0%, 100%);
}
div.grammalecte_paragraph_actions .grammalecte_green {
    color: hsl(0, 0%, 80%);
}
div.grammalecte_paragraph_actions .grammalecte_green:hover {
    background-color: hsl(120, 50%, 40%);
    color: hsl(0, 0%, 100%);
}

Modified gc_lang/fr/webext/content_scripts/panel_gc.js from [5158e88aeb] to [6fa57d1aea].

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// JavaScript

/* jshint esversion:6, -W097 */
/* jslint esversion:6 */
/* global GrammalectePanel, oGrammalecte, oGrammalecteBackgroundPort, showError, window, document, console */

"use strict";


function onGrammalecteGCPanelClick (xEvent) {
    try {
        let xElem = xEvent.target;
        if (xElem.id) {
            if (xElem.id.startsWith("grammalecte_sugg")) {
                oGrammalecte.oGCPanel.applySuggestion(xElem.id);
            } else if (xElem.id === "grammalecte_tooltip_ignore") {
                oGrammalecte.oGCPanel.ignoreError(xElem.id);


            } else if (xElem.id.startsWith("grammalecte_check")) {
                oGrammalecte.oGCPanel.recheckParagraph(parseInt(xElem.dataset.para_num, 10));
            } else if (xElem.id.startsWith("grammalecte_hide")) {
                xElem.parentNode.parentNode.style.display = "none";
            } else if (xElem.id.startsWith("grammalecte_err")
                       && xElem.className !== "grammalecte_error_corrected"
                       && xElem.className !== "grammalecte_error_ignored") {
................................................................................
        this.oTextControl = null;
        this.nLastResult = 0;
        this.iLastEditedParagraph = -1;
        this.nParagraph = 0;
        // Lexicographer
        this.nLxgCount = 0;
        this.xLxgPanelContent = oGrammalecte.createNode("div", {id: "grammalecte_lxg_panel_content"});












        this.xPanelContent.appendChild(this.xLxgPanelContent);
        // Conjugueur
        this.xConjPanelContent = oGrammalecte.createNode("div", {id: "grammalecte_conj_panel_content"});
        this.xConjPanelContent.innerHTML = sGrammalecteConjugueurHTML;  // @Reviewers: sGrammalecteConjugueurHTML is a const value defined in <content_scripts/html_src.js>
        this.xPanelContent.appendChild(this.xConjPanelContent);
        this.sVerb = "";
        this.bListenConj = false;
................................................................................
            oGrammalecte.bAutoRefresh = this.bAutoRefresh;
            browser.storage.local.set({"autorefresh_option": this.bAutoRefresh});
            this.setAutoRefreshButton();
        }
        this.xLxgButton.onclick = () => {
            if (!this.bWorking) {
                this.showLexicographer();
                this.clearLexicographer();
                this.startWaitIcon();
                oGrammalecteBackgroundPort.getListOfTokens(this.oTextControl.getText());
                //oGrammalecteBackgroundPort.parseFull(this.oTextControl.getText())
            }
        };
        this.xConjButton.onclick = () => {
            if (!this.bWorking) {
                this.showConjugueur();
            }
        };
................................................................................
        this.oTextControl.clear();
    }

    addParagraphResult (oResult) {
        try {
            this.resetTimer();
            if (oResult && (oResult.sParagraph.trim() !== "" || oResult.aGrammErr.length > 0 || oResult.aSpellErr.length > 0)) {
                let xNodeDiv = oGrammalecte.createNode("div", {className: "grammalecte_paragraph_block"});
                // actions
                let xActionsBar = oGrammalecte.createNode("div", {className: "grammalecte_paragraph_actions"});
                xActionsBar.appendChild(oGrammalecte.createNode("div", {id: "grammalecte_check" + oResult.iParaNum, className: "grammalecte_paragraph_button grammalecte_green", textContent: "↻", title: "Réanalyser…"}, {para_num: oResult.iParaNum}));

                xActionsBar.appendChild(oGrammalecte.createNode("div", {id: "grammalecte_hide" + oResult.iParaNum, className: "grammalecte_paragraph_button grammalecte_red", textContent: "×", title: "Cacher", style: "font-weight: bold;"}));
                // paragraph
                let xParagraph = oGrammalecte.createNode("p", {id: "grammalecte_paragraph"+oResult.iParaNum, className: "grammalecte_paragraph", lang: "fr", contentEditable: "true"}, {para_num: oResult.iParaNum});
                xParagraph.setAttribute("spellcheck", "false"); // doesn’t seem possible to use “spellcheck” as a common attribute.
                xParagraph.dataset.timer_id = "0";
                xParagraph.addEventListener("input", function (xEvent) {
                    if (this.bAutoRefresh) {
................................................................................
                    }
                    // write text
                    this.oTextControl.setParagraph(parseInt(xEvent.target.dataset.para_num, 10), xEvent.target.textContent);
                }.bind(this)
                , true);
                this._tagParagraph(xParagraph, oResult.sParagraph, oResult.iParaNum, oResult.aGrammErr, oResult.aSpellErr);
                // creation

                xNodeDiv.appendChild(xActionsBar);
                xNodeDiv.appendChild(xParagraph);
                this.xParagraphList.appendChild(xNodeDiv);
                this.nParagraph += 1;
            }
        }
        catch (e) {
            showError(e);
        }
    }
................................................................................
        }
    }

    // Lexicographer

    clearLexicographer () {
        this.nLxgCount = 0;
        while (this.xLxgPanelContent.firstChild) {
            this.xLxgPanelContent.removeChild(this.xLxgPanelContent.firstChild);
        }
    }

    addLxgSeparator (sText) {
        if (this.xLxgPanelContent.textContent !== "") {

            this.xLxgPanelContent.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_separator", textContent: sText}));




        }
    }




    addMessageToLxgPanel (sMessage) {


















        let xNode = oGrammalecte.createNode("div", {className: "grammalecte_panel_flow_message", textContent: sMessage});
        this.xLxgPanelContent.appendChild(xNode);




    }




























    addListOfTokens (lToken) {
        try {
            if (lToken) {

                this.nLxgCount += 1;
                let xTokenList = oGrammalecte.createNode("div", {className: "grammalecte_lxg_list_of_tokens"});
                xTokenList.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_list_num", textContent: this.nLxgCount}));


                for (let oToken of lToken) {
                    xTokenList.appendChild(this._createTokenBlock(oToken));
                }
                this.xLxgPanelContent.appendChild(xTokenList);

            }
        }
        catch (e) {
            showError(e);
        }
    }

    _createTokenBlock (oToken) {
        let xTokenBlock = oGrammalecte.createNode("div", {className: "grammalecte_lxg_token_block"});

        xTokenBlock.appendChild(this._createTokenDescr(oToken));
        if (oToken.aSubElem) {


            let xSubBlock = oGrammalecte.createNode("div", {className: "grammalecte_lxg_token_subblock"});
            for (let oSubElem of oToken.aSubElem) {


                xSubBlock.appendChild(this._createTokenDescr(oSubElem));

            }
            xTokenBlock.appendChild(xSubBlock);
        }
        return xTokenBlock;
    }

    _createTokenDescr (oToken) {
        try {
            let xTokenDescr = oGrammalecte.createNode("div", {className: "grammalecte_lxg_token_descr"});
            if (oToken.sType == "LOCP") {
                xTokenDescr.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_token_also", textContent: "possiblement › "}));
            }
            xTokenDescr.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_token grammalecte_lxg_token_" + oToken.sType, textContent: oToken.sValue}));
            xTokenDescr.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_token_colon", textContent: ":"}));
            if (oToken.aLabel.length === 1) {


                xTokenDescr.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_morph_elem_inline", textContent: oToken.aLabel[0]}));
            } else {

                let xMorphList = oGrammalecte.createNode("div", {className: "grammalecte_lxg_morph_list"});
                for (let sLabel of oToken.aLabel) {
                    xMorphList.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_morph_elem", textContent: "• " + sLabel}));
                }
                xTokenDescr.appendChild(xMorphList);



            }
            return xTokenDescr;
        }
        catch (e) {
            showError(e);
        }
    }

    setHidden (sClass, bHidden) {
        let xPanelContent = this.xParent.getElementById('grammalecte_panel_content');
        for (let xNode of xPanelContent.getElementsByClassName(sClass)) {
            xNode.hidden = bHidden;
        }
    }

    // Conjugueur

    listenConj () {
        if (!this.bListenConj) {
            // button
            this.xParent.getElementById('grammalecte_conj_button').addEventListener("click", (e) => { this.conjugateVerb(); });







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// JavaScript

/* jshint esversion:6, -W097 */
/* jslint esversion:6 */
/* global GrammalectePanel, oGrammalecte, oGrammalecteBackgroundPort, showError, window, document, console */

"use strict";


function onGrammalecteGCPanelClick (xEvent) {
    try {
        let xElem = xEvent.target;
        if (xElem.id) {
            if (xElem.id.startsWith("grammalecte_sugg")) {
                oGrammalecte.oGCPanel.applySuggestion(xElem.id);
            } else if (xElem.id === "grammalecte_tooltip_ignore") {
                oGrammalecte.oGCPanel.ignoreError(xElem.id);
            } else if (xElem.id.startsWith("grammalecte_analysis")) {
                oGrammalecte.oGCPanel.sendParagraphToGrammaticalAnalysis(parseInt(xElem.dataset.para_num, 10));
            } else if (xElem.id.startsWith("grammalecte_check")) {
                oGrammalecte.oGCPanel.recheckParagraph(parseInt(xElem.dataset.para_num, 10));
            } else if (xElem.id.startsWith("grammalecte_hide")) {
                xElem.parentNode.parentNode.style.display = "none";
            } else if (xElem.id.startsWith("grammalecte_err")
                       && xElem.className !== "grammalecte_error_corrected"
                       && xElem.className !== "grammalecte_error_ignored") {
................................................................................
        this.oTextControl = null;
        this.nLastResult = 0;
        this.iLastEditedParagraph = -1;
        this.nParagraph = 0;
        // Lexicographer
        this.nLxgCount = 0;
        this.xLxgPanelContent = oGrammalecte.createNode("div", {id: "grammalecte_lxg_panel_content"});
        this.xLxgInputBlock = oGrammalecte.createNode("div", {id: "grammalecte_lxg_input_block"});
        this.xLxgInput = oGrammalecte.createNode("div", {id: "grammalecte_lxg_input", lang: "fr", contentEditable: "true"});
        this.xLxgInputButton = oGrammalecte.createNode("div", {id: "grammalecte_lxg_input_button", textContent: "Analyse grammaticale"});
        this.xLxgInputButton.addEventListener("click", () => { this.grammaticalAnalysis(); }, false);
        this.xLxgInputButton2 = oGrammalecte.createNode("div", {id: "grammalecte_lxg_input_button", textContent: "Analyse lexicale"});
        this.xLxgInputButton2.addEventListener("click", () => { this.getListOfTokens(); }, false);
        this.xLxgInputBlock.appendChild(this.xLxgInput);
        this.xLxgInputBlock.appendChild(this.xLxgInputButton);
        this.xLxgInputBlock.appendChild(this.xLxgInputButton2);
        this.xLxgPanelContent.appendChild(this.xLxgInputBlock);
        this.xLxgResultZone = oGrammalecte.createNode("div", {id: "grammalecte_lxg_result_zone"});
        this.xLxgPanelContent.appendChild(this.xLxgResultZone);
        this.xPanelContent.appendChild(this.xLxgPanelContent);
        // Conjugueur
        this.xConjPanelContent = oGrammalecte.createNode("div", {id: "grammalecte_conj_panel_content"});
        this.xConjPanelContent.innerHTML = sGrammalecteConjugueurHTML;  // @Reviewers: sGrammalecteConjugueurHTML is a const value defined in <content_scripts/html_src.js>
        this.xPanelContent.appendChild(this.xConjPanelContent);
        this.sVerb = "";
        this.bListenConj = false;
................................................................................
            oGrammalecte.bAutoRefresh = this.bAutoRefresh;
            browser.storage.local.set({"autorefresh_option": this.bAutoRefresh});
            this.setAutoRefreshButton();
        }
        this.xLxgButton.onclick = () => {
            if (!this.bWorking) {
                this.showLexicographer();




            }
        };
        this.xConjButton.onclick = () => {
            if (!this.bWorking) {
                this.showConjugueur();
            }
        };
................................................................................
        this.oTextControl.clear();
    }

    addParagraphResult (oResult) {
        try {
            this.resetTimer();
            if (oResult && (oResult.sParagraph.trim() !== "" || oResult.aGrammErr.length > 0 || oResult.aSpellErr.length > 0)) {

                // actions
                let xActionsBar = oGrammalecte.createNode("div", {className: "grammalecte_paragraph_actions"});
                xActionsBar.appendChild(oGrammalecte.createNode("div", {id: "grammalecte_check" + oResult.iParaNum, className: "grammalecte_paragraph_button grammalecte_green", textContent: "↻", title: "Réanalyser…"}, {para_num: oResult.iParaNum}));
                xActionsBar.appendChild(oGrammalecte.createNode("div", {id: "grammalecte_analysis" + oResult.iParaNum, className: "grammalecte_paragraph_button grammalecte_blue", textContent: "»", title: "Analyse grammaticale…"}, {para_num: oResult.iParaNum}));
                xActionsBar.appendChild(oGrammalecte.createNode("div", {id: "grammalecte_hide" + oResult.iParaNum, className: "grammalecte_paragraph_button grammalecte_red", textContent: "×", title: "Cacher", style: "font-weight: bold;"}));
                // paragraph
                let xParagraph = oGrammalecte.createNode("p", {id: "grammalecte_paragraph"+oResult.iParaNum, className: "grammalecte_paragraph", lang: "fr", contentEditable: "true"}, {para_num: oResult.iParaNum});
                xParagraph.setAttribute("spellcheck", "false"); // doesn’t seem possible to use “spellcheck” as a common attribute.
                xParagraph.dataset.timer_id = "0";
                xParagraph.addEventListener("input", function (xEvent) {
                    if (this.bAutoRefresh) {
................................................................................
                    }
                    // write text
                    this.oTextControl.setParagraph(parseInt(xEvent.target.dataset.para_num, 10), xEvent.target.textContent);
                }.bind(this)
                , true);
                this._tagParagraph(xParagraph, oResult.sParagraph, oResult.iParaNum, oResult.aGrammErr, oResult.aSpellErr);
                // creation
                let xParagraphBlock = oGrammalecte.createNode("div", {className: "grammalecte_paragraph_block"});
                xParagraphBlock.appendChild(xActionsBar);
                xParagraphBlock.appendChild(xParagraph);
                this.xParagraphList.appendChild(xParagraphBlock);
                this.nParagraph += 1;
            }
        }
        catch (e) {
            showError(e);
        }
    }
................................................................................
        }
    }

    // Lexicographer

    clearLexicographer () {
        this.nLxgCount = 0;
        while (this.xLxgResultZone.firstChild) {
            this.xLxgResultZone.removeChild(this.xLxgResultZone.firstChild);
        }
    }

    //  Grammatical analysis


    sendParagraphToGrammaticalAnalysis (iParaNum) {
        let xParagraph = this.xParent.getElementById("grammalecte_paragraph" + iParaNum);
        this.xLxgInput.textContent = xParagraph.textContent;
        this.grammaticalAnalysis();
        this.showLexicographer();
    }

    grammaticalAnalysis (iParaNum) {
        if (!this.bOpened || this.bWorking) {
            return;
        }

        this.startWaitIcon();
        this.clearLexicographer();
        let sText = this.xLxgInput.innerText.replace(/\n/g, " ");
        console.log(sText);
        oGrammalecteBackgroundPort.parseFull(sText, "__GrammalectePanel__");
    }

    showParagraphAnalysis (oResult) {
        if (!this.bOpened || oResult === null) {
            return;
        }
        try {
            for (let oSentence of oResult.lSentences) {
                this.nLxgCount += 1;
                if (oSentence.sSentence.trim() !== "") {
                    let xSentenceBlock = oGrammalecte.createNode("div", {className: "grammalecte_lxg_paragraph_sentence_block"});
                    xSentenceBlock.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_list_num", textContent: this.nLxgCount}));
                    xSentenceBlock.appendChild(oGrammalecte.createNode("p", {className: "grammalecte_lxg_paragraph_sentence", textContent: oSentence.sSentence}));
                    let xTokenList = oGrammalecte.createNode("div", {className: "grammalecte_lxg_list_of_tokens"});

                    for (let oToken of oSentence.lTokens) {
                        if (oToken["sType"] != "INFO" && !oToken.hasOwnProperty("bMerged")) {
                            if (oToken["sType"] == "WORD" && !oToken["bValidToken"]) {
                                oToken["sType"] = "UNKNOWN_WORD";
                            }
                            xTokenList.appendChild(this._createTokenBlock(oToken));
                        }
                    }
                    xSentenceBlock.appendChild(xTokenList);
                    this.xLxgResultZone.appendChild(xSentenceBlock);
                }
            }
        }
        catch (e) {
            showError(e);
        }
        this.stopWaitIcon();
    }


    //  Lexical analysis

    getListOfTokens () {
        if (!this.bOpened || this.bWorking) {
            return;
        }
        this.startWaitIcon();
        this.clearLexicographer();
        let sText = this.xLxgInput.innerText; // to get carriage return (\n)
        console.log(sText);
        oGrammalecteBackgroundPort.getListOfTokens(sText, "__GrammalectePanel__");
    }

    addListOfTokens (oResult) {
        try {

            if (oResult && oResult.sParagraph != "") {
                this.nLxgCount += 1;
                let xSentenceBlock = oGrammalecte.createNode("div", {className: "grammalecte_lxg_paragraph_sentence_block"});
                xSentenceBlock.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_list_num", textContent: this.nLxgCount}));
                xSentenceBlock.appendChild(oGrammalecte.createNode("p", {className: "grammalecte_lxg_paragraph_sentence", textContent: oResult.sParagraph}));
                let xTokenList = oGrammalecte.createNode("div", {className: "grammalecte_lxg_list_of_tokens"});
                for (let oToken of oResult.lTokens) {
                    xTokenList.appendChild(this._createTokenBlock(oToken));
                }
                xSentenceBlock.appendChild(xTokenList);
                this.xLxgResultZone.appendChild(xSentenceBlock);
            }
        }
        catch (e) {
            showError(e);
        }
    }

    _createTokenBlock (oToken) {
        let xTokenBlock = oGrammalecte.createNode("div", {className: "grammalecte_lxg_token_block"});
        // token description
        xTokenBlock.appendChild(this._createTokenDescr(oToken));

        // subtokens
        if (oToken.hasOwnProperty("lSubTokens")) {
            let xSubBlock = oGrammalecte.createNode("div", {className: "grammalecte_lxg_token_subblock"});

            for (let oSubToken of oToken["lSubTokens"]) {
                if (oSubToken["sValue"] != "") {
                    xSubBlock.appendChild(this._createTokenDescr(oSubToken));
                }
            }
            xTokenBlock.appendChild(xSubBlock);
        }
        return xTokenBlock;
    }

    _createTokenDescr (oToken) {
        try {
            let xTokenDescr = oGrammalecte.createNode("div", {className: "grammalecte_lxg_token_descr"});



            xTokenDescr.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_token grammalecte_lxg_token_" + oToken.sType, textContent: oToken.sValue}));
            xTokenDescr.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_token_colon", textContent: ":"}));
            if (oToken.aLabels) {
                if (oToken.aLabels.length < 2) {
                    // one morphology only
                    xTokenDescr.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_morph_elem_inline", textContent: oToken.aLabels[0]}));
                } else {
                    // several morphology
                    let xMorphList = oGrammalecte.createNode("div", {className: "grammalecte_lxg_morph_list"});
                    for (let sLabel of oToken.aLabels) {
                        xMorphList.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_morph_elem", textContent: "• " + sLabel}));
                    }
                    xTokenDescr.appendChild(xMorphList);
                }
            } else {
                xTokenDescr.appendChild(oGrammalecte.createNode("div", {className: "grammalecte_lxg_morph_elem_inline", textContent: "étiquettes non décrites : [" + oToken.lMorph + "]" }));
            }
            return xTokenDescr;
        }
        catch (e) {
            showError(e);
        }
    }








    // Conjugueur

    listenConj () {
        if (!this.bListenConj) {
            // button
            this.xParent.getElementById('grammalecte_conj_button').addEventListener("click", (e) => { this.conjugateVerb(); });

Modified gc_lang/fr/webext/content_scripts/panel_lxg.css from [ae4f6ddf8d] to [b335aa8c9f].

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div#grammalecte_lxg_panel_content {
    display: none;
    position: absolute;
    height: 100%;
    width: 100%;
    font-size: 13px;
}















































div.grammalecte_lxg_list_of_tokens {
    margin: 10px 5px 0 5px;
    padding: 10px;
    background-color: hsla(0, 0%, 95%, 1);
    border-radius: 5px;
}

div.grammalecte_lxg_list_num {
    float: right;
    margin: -12px 0 5px 10px;
    padding: 5px 10px;
    font-family: "Trebuchet MS", "Fira Sans", "Ubuntu Condensed", "Liberation Sans", sans-serif;
    font-size: 14px;
    font-weight: bold;
    border-radius: 0 0 4px 4px;
    background-color: hsl(0, 50%, 50%);
    color: hsl(0, 10%, 96%);
................................................................................

div.grammalecte_lxg_token_block  {
    margin: 4px 0;
}
div.grammalecte_lxg_token_subblock {
    margin: 2px 0 2px 20px;
    padding: 5px;
    border-left: 4px solid hsl(150, 30%, 70%);
    background-color: hsl(210, 10%, 90%);
    border-radius: 2px;
}
div.grammalecte_lxg_token_descr {
    margin: 1px;
    padding: 1px;
}
div.grammalecte_lxg_token {
    display: inline-block;
................................................................................
    font-family: "Trebuchet MS", "Fira Sans", "Ubuntu Condensed", "Liberation Sans", sans-serif;
    color: hsl(0, 0%, 0%);
}
div.grammalecte_lxg_morph_elem {
    font-family: "Trebuchet MS", "Fira Sans", "Ubuntu Condensed", "Liberation Sans", sans-serif;
    color: hsl(0, 0%, 0%);
}






div.grammalecte_lxg_token_LOC {
    background-color: hsla(150, 50%, 30%, 1);
}
div.grammalecte_lxg_token_WORD {
    background-color: hsla(150, 50%, 50%, 1);
}
div.grammalecte_lxg_token_WORD_ELIDED {








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div#grammalecte_lxg_panel_content {
    display: none;
    position: absolute;
    height: 100%;
    width: 100%;
    font-size: 13px;
}

div#grammalecte_lxg_input_block {
    padding: 10px;
    /*background-color: hsl(210, 50%, 95%);*/
    /*border-bottom: solid 1px hsl(210, 0%, 90%);*/
    text-align: right;
}

div#grammalecte_lxg_result_zone {

}

div#grammalecte_lxg_input {
    min-height: 100px;
    padding: 10px;
    background-color: hsl(210, 0%, 100%);
    border: solid 1px hsl(210, 20%, 80%);
    border-radius: 3px;
    font-family: "Courier New", Courier, "Lucida Sans Typewriter", "Lucida Typewriter", monospace;
    text-align: left;
}

div#grammalecte_lxg_input_button {
    display: inline-block;
    margin: 0 10px 0 0;
    padding: 3px 10px;
    background-color: hsl(210, 50%, 50%);
    color: hsl(210, 50%, 98%);
    text-align: center;
    cursor: pointer;
    border-radius: 0 0 3px 3px;
}

div.grammalecte_lxg_paragraph_sentence_block {
    margin: 5px 0px 20px 0px;
    background-color: hsl(210, 50%, 95%);
    border-radius: 3px;
    border-top: solid 1px hsl(210, 50%, 90%);
    border-bottom: solid 1px hsl(210, 50%, 90%);
    hyphens: none;
}
p.grammalecte_lxg_paragraph_sentence {
    padding: 3px 10px;
    font-weight: bold;
    color: hsl(210, 50%, 40%);
}

div.grammalecte_lxg_list_of_tokens {

    padding: 10px;
    background-color: hsl(210, 50%, 99%);
    border-radius: 5px;
}

div.grammalecte_lxg_list_num {
    float: right;
    margin: -2px 5px 5px 10px;
    padding: 5px 10px;
    font-family: "Trebuchet MS", "Fira Sans", "Ubuntu Condensed", "Liberation Sans", sans-serif;
    font-size: 14px;
    font-weight: bold;
    border-radius: 0 0 4px 4px;
    background-color: hsl(0, 50%, 50%);
    color: hsl(0, 10%, 96%);
................................................................................

div.grammalecte_lxg_token_block  {
    margin: 4px 0;
}
div.grammalecte_lxg_token_subblock {
    margin: 2px 0 2px 20px;
    padding: 5px;
    border-left: 4px solid hsl(210, 50%, 80%);
    background-color: hsl(210, 50%, 94%);
    border-radius: 3px;
}
div.grammalecte_lxg_token_descr {
    margin: 1px;
    padding: 1px;
}
div.grammalecte_lxg_token {
    display: inline-block;
................................................................................
    font-family: "Trebuchet MS", "Fira Sans", "Ubuntu Condensed", "Liberation Sans", sans-serif;
    color: hsl(0, 0%, 0%);
}
div.grammalecte_lxg_morph_elem {
    font-family: "Trebuchet MS", "Fira Sans", "Ubuntu Condensed", "Liberation Sans", sans-serif;
    color: hsl(0, 0%, 0%);
}
div.grammalecte_lxg_other_tags {
    padding-left: 20px;
    font-family: "Trebuchet MS", "Fira Sans", "Ubuntu Condensed", "Liberation Sans", sans-serif;
    color: hsl(0, 0%, 50%);
}

div.grammalecte_lxg_token_LOC {
    background-color: hsla(150, 50%, 30%, 1);
}
div.grammalecte_lxg_token_WORD {
    background-color: hsla(150, 50%, 50%, 1);
}
div.grammalecte_lxg_token_WORD_ELIDED {

Modified gc_lang/fr/webext/gce_worker.js from [e351d5e6fd] to [879c183120].

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function parseAndSpellcheck1 (sParagraph, sCountry, bDebug, bContext, oInfo={}) {
    sParagraph = sParagraph.replace(/­/g, "").normalize("NFC");
    let aGrammErr = gc_engine.parse(sParagraph, sCountry, bDebug, null, bContext);
    let aSpellErr = oSpellChecker.parseParagraph(sParagraph);
    postMessage(createResponse("parseAndSpellcheck1", {sParagraph: sParagraph, aGrammErr: aGrammErr, aSpellErr: aSpellErr}, oInfo, true));
}

function parseFull (sText, sCountry, bDebug, bContext, oInfo={}) {
    let i = 0;
    sText = sText.replace(/­/g, "").normalize("NFC");
    for (let sParagraph of text.getParagraph(sText)) {
        let lSentence = gc_engine.parse(sParagraph, sCountry, bDebug, null, bContext, true);
        console.log("*", lSentence);
        postMessage(createResponse("parseFull", {sParagraph: sParagraph, iParaNum: i, lSentence: lSentence}, oInfo, false));
        i += 1;
    }
    postMessage(createResponse("parseFull", null, oInfo, true));
}

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));







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function parseAndSpellcheck1 (sParagraph, sCountry, bDebug, bContext, oInfo={}) {
    sParagraph = sParagraph.replace(/­/g, "").normalize("NFC");
    let aGrammErr = gc_engine.parse(sParagraph, sCountry, bDebug, null, bContext);
    let aSpellErr = oSpellChecker.parseParagraph(sParagraph);
    postMessage(createResponse("parseAndSpellcheck1", {sParagraph: sParagraph, aGrammErr: aGrammErr, aSpellErr: aSpellErr}, oInfo, true));
}

function parseFull (sParagraph, sCountry, bDebug, bContext, oInfo={}) {

    sParagraph = sParagraph.replace(/­/g, "").normalize("NFC");

    let [lParagraphErrors, lSentences] = gc_engine.parse(sParagraph, sCountry, bDebug, null, bContext, true);
    //console.log(lSentences);



    postMessage(createResponse("parseFull", { lParagraphErrors: lParagraphErrors, lSentences: lSentences }, oInfo, true));
}

function getListOfTokens (sText, oInfo={}) {
    // lexicographer
    try {
        sText = sText.replace(/­/g, "").normalize("NFC");
        for (let sParagraph of text.getParagraph(sText)) {
            if (sParagraph.trim() !== "") {
                let lTokens = [ ...oTokenizer.genTokens(sParagraph) ];
                for (let oToken of lTokens) {
                    oSpellChecker.setLabelsOnToken(oToken);
                }
                postMessage(createResponse("getListOfTokens", { sParagraph: sParagraph, lTokens: lTokens }, oInfo, false));
            }
        }
        postMessage(createResponse("getListOfTokens", null, oInfo, true));
    }
    catch (e) {
        console.error(e);
        postMessage(createResponse("getListOfTokens", createErrorResult(e, "no tokens"), oInfo, true, true));

Modified grammalecte-cli.py from [0e5de0a660] to [4b02966a37].

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            else:
                vSugg = m.group(2)[1:]
            return (nError, cAction, vSugg)


def main ():
    "launch the CLI (command line interface)"




    xParser = argparse.ArgumentParser()
    xParser.add_argument("-f", "--file", help="parse file (UTF-8 required!) [on Windows, -f is similar to -ff]", type=str)
    xParser.add_argument("-ff", "--file_to_file", help="parse file (UTF-8 required!) and create a result file (*.res.txt)", type=str)
    xParser.add_argument("-iff", "--interactive_file_to_file", help="parse file (UTF-8 required!) and create a result file (*.res.txt)", type=str)
    xParser.add_argument("-owe", "--only_when_errors", help="display results only when there are errors", action="store_true")
    xParser.add_argument("-j", "--json", help="generate list of errors in JSON (only with option --file or --file_to_file)", action="store_true")
    xParser.add_argument("-cl", "--concat_lines", help="concatenate lines not separated by an empty paragraph (only with option --file or --file_to_file)", action="store_true")
................................................................................
                # 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)







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            else:
                vSugg = m.group(2)[1:]
            return (nError, cAction, vSugg)


def main ():
    "launch the CLI (command line interface)"
    if sys.version < "3.7":
        print("Python 3.7+ required")
        return

    xParser = argparse.ArgumentParser()
    xParser.add_argument("-f", "--file", help="parse file (UTF-8 required!) [on Windows, -f is similar to -ff]", type=str)
    xParser.add_argument("-ff", "--file_to_file", help="parse file (UTF-8 required!) and create a result file (*.res.txt)", type=str)
    xParser.add_argument("-iff", "--interactive_file_to_file", help="parse file (UTF-8 required!) and create a result file (*.res.txt)", type=str)
    xParser.add_argument("-owe", "--only_when_errors", help="display results only when there are errors", action="store_true")
    xParser.add_argument("-j", "--json", help="generate list of errors in JSON (only with option --file or --file_to_file)", action="store_true")
    xParser.add_argument("-cl", "--concat_lines", help="concatenate lines not separated by an empty paragraph (only with option --file or --file_to_file)", action="store_true")
................................................................................
                # 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}  <{sSentence}>".format(**dSentence))

                        for dToken in dSentence["lTokens"]:
                            if dToken["sType"] == "INFO" or "bMerged" in dToken:
                                continue
                            echo("  {0[nStart]:>3}:{0[nEnd]:<3} {1} {0[sType]:<14} {2} {0[sValue]:<16} {3}".format(dToken, \
                                                                                                        "×" if dToken.get("bToRemove", False) else " ",
                                                                                                        "!" if dToken["sType"] == "WORD" and not dToken.get("bValidToken", False) else " ",

                                                                                                        " ".join(dToken.get("aTags", "")) ) )
                            if "lMorph" in dToken:
                                for sMorph, sLabel in zip(dToken["lMorph"], dToken["aLabels"]):
                                    echo("            {0:40}  {1}".format(sMorph, sLabel))
                            if "lSubTokens" in dToken:
                                for dSubToken in dToken["lSubTokens"]:
                                    if dSubToken["sValue"]:
                                        echo("              · {0:20}".format(dSubToken["sValue"]))
                                        for sMorph, sLabel in zip(dSubToken["lMorph"], dSubToken["aLabels"]):
                                            echo("                {0:40}  {1}".format(sMorph, sLabel))
                        #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)

Modified graphspell-js/ibdawg.js from [544f660d8a] to [80e916efdb].

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            }
        }
        return Boolean(this._convBytesToInteger(this.byDic.slice(iAddr, iAddr+this.nBytesArc)) & this._finalNodeMask);
    }

    getMorph (sWord) {
        // retrieves morphologies list, different casing allowed



        sWord = str_transform.spellingNormalization(sWord);
        let l = this.morph(sWord);
        if (sWord[0].gl_isUpperCase()) {
            l.push(...this.morph(sWord.toLowerCase()));
            if (sWord.gl_isUpperCase() && sWord.length > 1) {
                l.push(...this.morph(sWord.gl_toCapitalize()));
            }







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            }
        }
        return Boolean(this._convBytesToInteger(this.byDic.slice(iAddr, iAddr+this.nBytesArc)) & this._finalNodeMask);
    }

    getMorph (sWord) {
        // retrieves morphologies list, different casing allowed
        if (!sWord) {
            return [];
        }
        sWord = str_transform.spellingNormalization(sWord);
        let l = this.morph(sWord);
        if (sWord[0].gl_isUpperCase()) {
            l.push(...this.morph(sWord.toLowerCase()));
            if (sWord.gl_isUpperCase() && sWord.length > 1) {
                l.push(...this.morph(sWord.gl_toCapitalize()));
            }

Modified graphspell-js/lexgraph_fr.js from [9858773647] to [816b039883].

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            [':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"]],
................................................................................
            [':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>"]],
................................................................................
            ['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"],
................................................................................
            ['>', "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);
    },

    split: function (sWord) {
        // returns an arry of strings (prefix, trimed_word, suffix)
        let sPrefix = "";
        let sSuffix = "";
        // préfixe élidé
        let m = /^([ldmtsnjcç]|lorsqu|presqu|jusqu|puisqu|quoiqu|quelqu|qu)[’'‘`ʼ]([a-zA-Zà-öÀ-Ö0-9_ø-ÿØ-ßĀ-ʯfi-st-]+)/i.exec(sWord);
        if (m) {
            sPrefix = m[1] + "’";
            sWord = m[2];
        }
        // mots composés
        m = /^([a-zA-Zà-öÀ-Ö0-9_ø-ÿØ-ßĀ-ʯfi-st-]+)(-(?:(?: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|ce))$/i.exec(sWord);
        if (m) {
            sWord = m[1];
            sSuffix = m[2];
        }
        // split word in 3 parts: prefix, root, suffix
        return [sPrefix, sWord, sSuffix];
    },

    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;
    },

    // Other functions

    filterSugg: function (aSugg) {
        return aSugg.filter((sSugg) => { return !sSugg.endsWith("è") && !sSugg.endsWith("È"); });
    }
}



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







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            [':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"]],
            [':V1e', [" verbe (1ᵉʳ gr.),", "Verbe du 1ᵉʳ groupe"]],
            [':V2e', [" verbe (2ᵉ gr.),", "Verbe du 2ᵉ groupe"]],
            [':V3e', [" 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"]],
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            [':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"]],
            [':O1', [" 1ʳᵉ pers.,", "Pronom : 1ʳᵉ personne"]],
            [':O2', [" 2ᵉ pers.,", "Pronom : 2ᵉ personne"]],
            [':O3', [" 3ᵉ pers.,", "Pronom : 3ᵉ personne"]],
            [':C', [" conjonction,", "Conjonction"]],

            [':Cc', [" conjonction de coordination,", "Conjonction de coordination"]],
            [':Cs', [" conjonction de subordination,", "Conjonction de subordination"]],


            [':ÉC', [" élément de conjonction,", "Élément de conjonction"]],
            [':ÉCs', [" élément de conjonction de subordination,", "Élément de conjonction de subordination"]],
            [':ÉN', [" élément de locution nominale,", "Élément de locution nominale"]],
            [':ÉA', [" élément de locution adjectivale,", "Élément de locution adjectivale"]],
            [':ÉV', [" élément de locution verbale,", "Élément de locution verbale"]],
            [':ÉW', [" élément de locution adverbiale,", "Élément de locution adverbiale"]],
            [':ÉR', [" élément de locution prépositive,", "Élément de locution prépositive"]],
            [':ÉJ', [" élément de locution interjective,", "Élément de locution interjective"]],

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

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

            [':@',  ["", "<Caractère non alpha-numérique>"]],
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            ['i', " intransitive"],
            ['n', " transitive indirecte"],
            ['t', " transitive directe"],
            ['p', " pronominale"],
            ['m', " impersonnelle"],
        ]),

    dValues: new Map([
            ['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', "(lorsque), 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."],
            ['-iel', " pronom personnel sujet, 3ᵉ pers. 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."],
            ['-t-iel', " “t” euphonique + pronom personnel sujet, 3ᵉ pers. 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."],
            ['-iels', " pronom personnel sujet, 3ᵉ pers. plur."],

            ["-là", " particule démonstrative (là)"],
            ["-ci", " particule démonstrative (ci)"],

            ['-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."],

            ['-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"],



            ['.', "point"],
            ['·', "point médian"],
            ['…', "points de suspension"],
            [':', "deux-points"],
            [';', "point-virgule"],
            [',', "virgule"],
            ['?', "point d’interrogation"],
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            ['>', "supérieur à"],
            ['⩽', "inférieur ou égal à"],
            ['⩾', "supérieur ou égal à"],
            ['%', "signe de pourcentage"],
            ['‰', "signe pour mille"],
        ]),





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








    split: function (sWord) {
        // returns an arry of strings (prefix, trimed_word, suffix)
        let sPrefix = "";
        let sSuffix = "";
        // préfixe élidé
        let m = /^([ldmtsnjcç]|lorsqu|presqu|jusqu|puisqu|quoiqu|quelqu|qu)['’ʼ‘‛´`′‵՚ꞌꞋ]([a-zA-Zà-öÀ-Ö0-9_ø-ÿØ-ßĀ-ʯfi-st-]+)/i.exec(sWord);
        if (m) {
            sPrefix = m[1] + "’";
            sWord = m[2];
        }
        // mots composés
        m = /^([a-zA-Zà-öÀ-Ö0-9_ø-ÿØ-ßĀ-ʯfi-st]+)(-(?:(?: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|ce))$/i.exec(sWord);
        if (m) {
            sWord = m[1];
            sSuffix = m[2];
        }
        // split word in 3 parts: prefix, root, suffix
        return [sPrefix, sWord, sSuffix];
    },

    analyze: function (sWord) {
        // return meaning of <sWord> if found else an empty string
        sWord = sWord.toLowerCase();
        if (this.dValues.has(sWord)) {
            return this.dValues.get(sWord);
        }
        return "";
    },

    readableMorph: function (sMorph) {
        if (!sMorph) {
            return " mot inconnu";
        }
        let sRes = "";
        sMorph = sMorph.replace(/:V([0-3][ea_])[itpqnmr_eaxz]+/, ":V$1");
        let m;
        while ((m = this._zTag.exec(sMorph)) !== null) {
            if (this.dTag.has(m[0])) {
                sRes += this.dTag.get(m[0])[0];
            } else {
                sRes += " [" + m[0] + "]?";
            }
        }
        if (sRes.startsWith(" verbe") && !sRes.includes("infinitif")) {
            sRes += " [" + sMorph.slice(1, sMorph.indexOf("/")) + "]";
        }
        if (!sRes) {
            return " [" + sMorph + "]: étiquettes inconnues";
        }
        return sRes.gl_trimRight(",");
    },

    setLabelsOnToken (oToken) {
        // Token: .sType, .sValue, .nStart, .nEnd, .lMorph

        let m = null;
        try {
            switch (oToken.sType) {
                case 'PUNC':
                case 'SIGN':





                    oToken["aLabels"] = [this.dValues.gl_get(oToken["sValue"], "signe de ponctuation divers")];
                    break;
                case 'NUM':





                    oToken["aLabels"] = ["nombre"];
                    break;
                case 'LINK':



                    oToken["aLabels"] = ["hyperlien"];

                    break;
                case 'TAG':



                    oToken["aLabels"] = ["étiquette (hashtag)"];

                    break;
                case 'HTML':





                    oToken["aLabels"] = ["balise HTML"];
                    break;
                case 'PSEUDOHTML':



                    oToken["aLabels"] = ["balise pseudo-HTML"];

                    break;
                case 'HTMLENTITY':



                    oToken["aLabels"] = ["entité caractère XML/HTML"];

                    break;
                case 'HOUR':



                    oToken["aLabels"] = ["heure"];

                    break;
                case 'WORD_ELIDED':






                    oToken["aLabels"] = [this.dValues.gl_get(oToken["sValue"].toLowerCase(), "préfixe élidé inconnu")];
                    break;
                case 'WORD_ORDINAL':



                    oToken["aLabels"] = ["nombre ordinal"];

                    break;
                case 'FOLDERUNIX':



                    oToken["aLabels"] = ["dossier UNIX (et dérivés)"];

                    break;
                case 'FOLDERWIN':



                    oToken["aLabels"] = ["dossier Windows"];

                    break;
                case 'WORD_ACRONYM':



                    oToken["aLabels"] = ["sigle ou acronyme"];

                    break;
                case 'WORD':
                    if (oToken.hasOwnProperty("lMorph")  &&  oToken["lMorph"].length > 0) {
                        // with morphology
                        oToken["aLabels"] = [];
                        for (let sMorph of oToken["lMorph"]) {
                            oToken["aLabels"].push(this.readableMorph(sMorph));
                        }
                    } else {
                        // no morphology, guessing
                        if (oToken["sValue"].gl_count("-") > 4) {



                            oToken["aLabels"] = ["élément complexe indéterminé"];

                        }
                        else if (m = this._zPartDemForm.exec(oToken["sValue"])) {
                            // mots avec particules démonstratives






                            oToken["aLabels"] = ["mot avec particule démonstrative"];
                        }









                        else if (m = this._zImperatifVerb.exec(oToken["sValue"])) {
                            // formes interrogatives



                            oToken["aLabels"] = ["forme verbale impérative"];





                        }
                        else if (m = this._zInterroVerb.exec(oToken["sValue"])) {
                            // formes interrogatives



                            oToken["aLabels"] = ["forme verbale interrogative"];











                        }
                        else {



                            oToken["aLabels"] = ["mot inconnu du dictionnaire"];

                        }
                    }
                    if (oToken.hasOwnProperty("lSubTokens")) {
                        for (let oSubToken of oToken["lSubTokens"]) {
                            if (oSubToken["sValue"]) {
                                if (this.dValues.has(oSubToken["sValue"])) {
                                    oSubToken["lMorph"] = [ "" ];
                                    oSubToken["aLabels"] = [ this.dValues.get(oSubToken["sValue"]) ];
                                }
                                else {
                                    oSubToken["aLabels"] = oSubToken["lMorph"].map((sMorph) => this.readableMorph(sMorph));
                                }
                            }
                        }
                    }
                    break;
                default:





                    oToken["aLabels"] = ["token de nature inconnue"];
            }
        } catch (e) {
            console.error(e);
        }

    },













































































































































































    // Other functions

    filterSugg: function (aSugg) {
        return aSugg.filter((sSugg) => { return !sSugg.endsWith("è") && !sSugg.endsWith("È"); });
    }
}



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

Modified graphspell-js/spellchecker.js from [be4f6fe289] to [a94325f4c6].

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    // 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`);
        }
    }
























































    // Storage

    activateStorage () {
        this.bStorage = true;
    }







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    // Lexicographer

    loadLexicographer (sLangCode) {
        // load default suggestion module for <sLangCode>
        if (typeof(process) !== 'undefined') {
            this.lexicographer = require(`./lexgraph_${sLangCode}.js`);
        }
        else if (self && self.hasOwnProperty("lexgraph_"+sLangCode)) { // self is the Worker
            this.lexicographer = self["lexgraph_"+sLangCode];
        }
    }

    analyze (sWord) {
        // returns a list of words and their morphologies
        if (!this.lexicographer) {
            return [];
        }
        let lWordAndMorph = [];
        for (let sElem of this.lexicographer.split(sWord)) {
            if (sElem) {
                let lMorph = this.getMorph(sElem);
                let sLex = this.lexicographer.analyze(sElem)
                let aRes = [];
                if (sLex) {
                    aRes = [ [lMorph.join(" | "), sLex] ];
                } else {
                    for (let sMorph of lMorph) {
                        aRes.push([sMorph, this.lexicographer.formatTags(sMorph)]);
                    }
                }
                if (aRes.length > 0) {
                    lWordAndMorph.push([sElem, aRes]);
                }
            }
        }
        return lWordAndMorph;
    }

    readableMorph (sMorph) {
        if (!this.lexicographer) {
            return [];
        }
        return this.lexicographer.formatTags(sMorph);
    }

    setLabelsOnToken (oToken) {
        if (!this.lexicographer) {
            return;
        }
        if (!oToken.hasOwnProperty("lMorph")) {
            oToken["lMorph"] = this.getMorph(oToken["sValue"]);
        }
        if (oToken["sType"] == "WORD") {
            oToken["bValidToken"] = this.isValidToken(oToken["sValue"]);
            let [sPrefix, sStem, sSuffix] = this.lexicographer.split(oToken["sValue"]);
            if (sStem != oToken["sValue"]) {
                oToken["lSubTokens"] = [
                    { "sType": "WORD", "sValue": sPrefix, "lMorph": this.getMorph(sPrefix) },
                    { "sType": "WORD", "sValue": sStem,   "lMorph": this.getMorph(sStem)   },
                    { "sType": "WORD", "sValue": sSuffix, "lMorph": this.getMorph(sSuffix) }
                ];
            }
        }
        this.lexicographer.setLabelsOnToken(oToken);
    }


    // Storage

    activateStorage () {
        this.bStorage = true;
    }

Modified graphspell/ibdawg.py from [f1a1c3c7ab] to [e07922ff50].

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            iAddr = self._lookupArcNode(self.dChar[c], iAddr)
            if iAddr is None:
                return False
        return bool(int.from_bytes(self.byDic[iAddr:iAddr+self.nBytesArc], byteorder='big') & self._finalNodeMask)

    def getMorph (self, sWord):
        "retrieves morphologies list, different casing allowed"


        sWord = st.spellingNormalization(sWord)
        l = self.morph(sWord)
        if sWord[0:1].isupper():
            l.extend(self.morph(sWord.lower()))
            if sWord.isupper() and len(sWord) > 1:
                l.extend(self.morph(sWord.capitalize()))
        return l







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            iAddr = self._lookupArcNode(self.dChar[c], iAddr)
            if iAddr is None:
                return False
        return bool(int.from_bytes(self.byDic[iAddr:iAddr+self.nBytesArc], byteorder='big') & self._finalNodeMask)

    def getMorph (self, sWord):
        "retrieves morphologies list, different casing allowed"
        if not sWord:
            return []
        sWord = st.spellingNormalization(sWord)
        l = self.morph(sWord)
        if sWord[0:1].isupper():
            l.extend(self.morph(sWord.lower()))
            if sWord.isupper() and len(sWord) > 1:
                l.extend(self.morph(sWord.capitalize()))
        return l

Modified graphspell/lexgraph_fr.py from [06640299ad] to [f36c3bc666].

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# Note:
# This mode must contains at least:
#     <dSugg> : a dictionary for default suggestions.
#     <bLexicographer> : a boolean False
#       if the boolean is True, 4 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

#           filterSugg(aWord) -> returns a filtered list of suggestions


import re

#### Suggestions

................................................................................
    ':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"),
................................................................................
    ':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)"),



    ':ÉN': (" locution nominale (él.),", "Locution nominale (élément)"),
    ':ÉA': (" locution adjectivale (él.),", "Locution adjectivale (élément)"),
    ':ÉV': (" locution verbale (él.),", "Locution verbale (élément)"),
    ':ÉW': (" locution adverbiale (él.),", "Locution adverbiale (élément)"),
    ':ÉR': (" locution prépositive (él.),", "Locution prépositive (élément)"),
    ':ÉJ': (" locution interjective (él.),", "Locution interjective (élément)"),

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

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

    ':@': ("", "<Caractère non alpha-numérique>"),
................................................................................
    '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.",
................................................................................
    "-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)^([ldmtsnjcç]|lorsqu|presqu|jusqu|puisqu|quoiqu|quelqu|qu)[’'‘`ʼ]([\\w-]+)")
_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|ce))$")
_zTag = re.compile("[:;/][\\w*][^:;/]*")

................................................................................
    "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(",")






































































# Other functions

def filterSugg (aSugg):
    "exclude suggestions"
    return filter(lambda sSugg: not sSugg.endswith(("è", "È")), aSugg)







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# Note:
# This mode must contains at least:
#     <dSugg> : a dictionary for default suggestions.
#     <bLexicographer> : a boolean False
#       if the boolean is True, 4 functions are required:
#           split(sWord) -> returns a list of string (that will be analyzed)
#           analyze(sWord) -> returns a string with the meaning of word
#           readableMorph(sMorph) -> returns a string with the meaning of tags
#           setLabelsOnToken(dToken) -> adds readable information on token
#           filterSugg(aWord) -> returns a filtered list of suggestions


import re

#### Suggestions

................................................................................
    ':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"),
    ':V1e': (" verbe (1ᵉʳ gr.),", "Verbe du 1ᵉʳ groupe"),
    ':V2e': (" verbe (2ᵉ gr.),", "Verbe du 2ᵉ groupe"),
    ':V3e': (" 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"),
................................................................................
    ':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"),
    ':O1': (" 1ʳᵉ pers.,", "Pronom : 1ʳᵉ personne"),
    ':O2': (" 2ᵉ pers.,", "Pronom : 2ᵉ personne"),
    ':O3': (" 3ᵉ pers.,", "Pronom : 3ᵉ personne"),
    ':C': (" conjonction,", "Conjonction"),

    ':Cc': (" conjonction de coordination,", "Conjonction de coordination"),
    ':Cs': (" conjonction de subordination,", "Conjonction de subordination"),


    ':ÉC': (" élément de conjonction,", "Élément de conjonction"),
    ':ÉCs': (" élément de conjonction de subordination,", "Élément de conjonction de subordination"),
    ':ÉN': (" élément de locution nominale,", "Élément de locution nominale"),
    ':ÉA': (" élément de locution adjectivale,", "Élément de locution adjectivale"),
    ':ÉV': (" élément de locution verbale,", "Élément de locution verbale"),
    ':ÉW': (" élément de locution adverbiale,", "Élément de locution adverbiale"),
    ':ÉR': (" élément de locution prépositive,", "Élément de locution prépositive"),
    ':ÉJ': (" élément de locution interjective,", "Élément de locution interjective"),

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

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

    ':@': ("", "<Caractère non alpha-numérique>"),
................................................................................
    '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.",
    '-iel': " pronom personnel sujet, 3ᵉ pers. 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.",
    '-t-iel': " “t” euphonique + pronom personnel sujet, 3ᵉ pers. 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.",
    '-iels': " pronom personnel sujet, 3ᵉ pers. plur.",

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

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

    '-moi': " COI (à moi), sing.",
    '-toi': " COI (à toi), sing.",
................................................................................
    "-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",

    '.': "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"
}


_zElidedPrefix = re.compile("(?i)^([ldmtsnjcç]|lorsqu|presqu|jusqu|puisqu|quoiqu|quelqu|qu)[’'‘`ʼ]([\\w-]+)")
_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|ce))$")
_zTag = re.compile("[:;/][\\w*][^:;/]*")

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


def readableMorph (sMorph):
    "returns string: readable tags"
    if not sMorph:
        return "mot inconnu"
    sRes = ""
    sMorph = re.sub("(?<=V[0123][ea_])[itpqnmr_eaxz]+", "", sMorph)

    for m in _zTag.finditer(sMorph):

        if m.group(0) in _dTAGS:
            sRes += _dTAGS[m.group(0)][0]
        else:
            sRes += " [" + m.group(0) + "]?"
    if sRes.startswith(" verbe") and not sRes.endswith("infinitif"):

        sRes += " [" + sMorph[1:sMorph.find("/")] +"]"
    if not sRes:
        return " [" + sMorph + "]: étiquettes inconnues"
    return sRes.rstrip(",")


_zPartDemForm = re.compile("([\\w]+)-(là|ci)$")
_zInterroVerb = re.compile("([\\w]+)(-(?:t-(?:ie?l|elle|on)|je|tu|ie?ls?|elles?|on|[nv]ous))$")
_zImperatifVerb = re.compile("([\\w]+)(-(?:l(?:es?|a)-(?:moi|toi|lui|[nv]ous|leur)|y|en|[mts]['’ʼ‘‛´`′‵՚ꞌꞋ](?:y|en)|les?|la|[mt]oi|leur|lui))$")

def setLabelsOnToken (dToken):
    # Token: .sType, .sValue, .nStart, .nEnd, .lMorph
    try:
        if dToken["sType"] == "PUNC" or dToken["sType"] == "SIGN":
            dToken["aLabels"] = [_dValues.get(dToken["sValue"], "signe de ponctuation divers")]
        elif dToken["sType"] == 'NUM':
            dToken["aLabels"] = ["nombre"]
        elif dToken["sType"] == 'LINK':
            dToken["aLabels"] = ["hyperlien"]
        elif dToken["sType"] == 'TAG':
            dToken["aLabels"] = ["étiquette (hashtag)"]
        elif dToken["sType"] == 'HTML':
            dToken["aLabels"] = ["balise HTML"]
        elif dToken["sType"] == 'PSEUDOHTML':
            dToken["aLabels"] = ["balise pseudo-HTML"]
        elif dToken["sType"] == 'HTMLENTITY':
            dToken["aLabels"] = ["entité caractère XML/HTML"]
        elif dToken["sType"] == 'HOUR':
            dToken["aLabels"] = ["heure"]
        elif dToken["sType"] == 'WORD_ELIDED':
            dToken["aLabels"] = [_dValues.get(dToken["sValue"].lower(), "préfixe élidé inconnu")]
        elif dToken["sType"] == 'WORD_ORDINAL':
            dToken["aLabels"] = ["nombre ordinal"]
        elif dToken["sType"] == 'FOLDERUNIX':
            dToken["aLabels"] = ["dossier UNIX (et dérivés)"]
        elif dToken["sType"] == 'FOLDERWIN':
            dToken["aLabels"] = ["dossier Windows"]
        elif dToken["sType"] == 'WORD_ACRONYM':
            dToken["aLabels"] = ["sigle ou acronyme"]
        elif dToken["sType"] == 'WORD':
            if "lMorph" in dToken and dToken["lMorph"]:
                # with morphology
                dToken["aLabels"] = []
                for sMorph in dToken["lMorph"]:
                    dToken["aLabels"].append(readableMorph(sMorph))
            else:
                # no morphology, guessing
                if dToken["sValue"].count("-") > 4:
                    dToken["aLabels"] = ["élément complexe indéterminé"]
                elif _zPartDemForm.search(dToken["sValue"]):
                    # mots avec particules démonstratives
                    dToken["aLabels"] = ["mot avec particule démonstrative"]
                elif _zImperatifVerb.search(dToken["sValue"]):
                    # formes interrogatives
                    dToken["aLabels"] = ["forme verbale impérative"]
                elif _zInterroVerb.search(dToken["sValue"]):
                    # formes interrogatives
                    dToken["aLabels"] = ["forme verbale interrogative"]
                else:
                    dToken["aLabels"] = ["mot inconnu du dictionnaire"]
            if "lSubTokens" in dToken:
                for dSubToken in dToken["lSubTokens"]:
                    if dSubToken["sValue"]:
                        if dSubToken["sValue"] in _dValues:
                            dSubToken["lMorph"] = [ "" ]
                            dSubToken["aLabels"] = [ _dValues[dSubToken["sValue"]] ]
                        else:
                            dSubToken["aLabels"] = [ readableMorph(sMorph)  for sMorph in dSubToken["lMorph"] ]
        else:
            dToken["aLabels"] = ["token de nature inconnue"]
    except:
        return


# Other functions

def filterSugg (aSugg):
    "exclude suggestions"
    return filter(lambda sSugg: not sSugg.endswith(("è", "È")), aSugg)

Modified graphspell/spellchecker.py from [b9cca64fbd] to [0ef2e9e17a].

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        self.bCommunityDic = False

    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+">")
................................................................................
        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

................................................................................
            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)







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        self.bCommunityDic = False

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


    # Lexicographer

    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+">")
................................................................................
        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.readableMorph(sMorph)) for sMorph in lMorph ]
                if aRes:
                    lWordAndMorph.append((sElem, aRes))
        return lWordAndMorph

    def readableMorph (self, sMorph):
        if not self.lexicographer:
            return ""
        return self.lexicographer.readableMorph(sMorph)

    def setLabelsOnToken (self, dToken):
        if not self.lexicographer:
            return
        if "lMorph" not in dToken:
            dToken["lMorph"] = self.getMorph(dToken["sValue"])
        if dToken["sType"] == "WORD":
            dToken["bValidToken"] = self.isValidToken(dToken["sValue"])
            sPrefix, sStem, sSuffix = self.lexicographer.split(dToken["sValue"])
            if sStem != dToken["sValue"]:
                dToken["lSubTokens"] = [
                    { "sType": "WORD", "sValue": sPrefix, "lMorph": self.getMorph(sPrefix) },
                    { "sType": "WORD", "sValue": sStem,   "lMorph": self.getMorph(sStem)   },
                    { "sType": "WORD", "sValue": sSuffix, "lMorph": self.getMorph(sSuffix) }
                ]
        self.lexicographer.setLabelsOnToken(dToken)


    # Storage

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

................................................................................
            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:
            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)