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//// IBDAWG
"use strict";
const st = require("resource://grammalecte/str_transform.js");
const helpers = require("resource://grammalecte/helpers.js");
// String
// Don’t remove. Necessary in TB.
${string}
class IBDAWG {
// INDEXABLE BINARY DIRECT ACYCLIC WORD GRAPH
constructor (sDicName) {
try {
const dict = JSON.parse(helpers.loadFile("resource://grammalecte/_dictionaries/"+sDicName));
Object.assign(this, dict);
//const dict = require("resource://grammalecte/"+sLang+"/dictionary.js");
//Object.assign(this, dict.dictionary);
}
catch (e) {
throw Error("# Error. File not found or not loadable.\n" + e.message + "\n");
}
/*
Properties:
sName, nVersion, sHeader, lArcVal, nArcVal, byDic, sLang, nChar, nBytesArc, nBytesNodeAddress,
nEntries, nNode, nArc, nAff, cStemming, nTag, dChar, _arcMask, _finalNodeMask, _lastArcMask, _addrBitMask, nBytesOffset,
*/
if (!this.sHeader.startsWith("/pyfsa/")) {
throw TypeError("# Error. Not a pyfsa binary dictionary. Header: " + this.sHeader);
}
if (!(this.nVersion == "1" || this.nVersion == "2" || this.nVersion == "3")) {
throw RangeError("# Error. Unknown dictionary version: " + this.nVersion);
}
this.dChar = helpers.objectToMap(this.dChar);
//this.byDic = new Uint8Array(this.byDic); // not quicker, even slower
if (this.cStemming == "S") {
this.funcStemming = st.getStemFromSuffixCode;
} else if (this.cStemming == "A") {
this.funcStemming = st.getStemFromAffixCode;
} else {
this.funcStemming = st.noStemming;
}
// Configuring DAWG functions according to nVersion
switch (this.nVersion) {
case 1:
this.morph = this._morph1;
this.stem = this._stem1;
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//// IBDAWG
/*jslint esversion: 6*/
/*global console,require,exports*/
"use strict";
if (typeof(require) !== 'undefined') {
var str_transform = require("resource://grammalecte/str_transform.js");
var helpers = require("resource://grammalecte/helpers.js");
}
// String
// Don’t remove. Necessary in TB.
${string}
class IBDAWG {
// INDEXABLE BINARY DIRECT ACYCLIC WORD GRAPH
constructor (sDicName, sPath="") {
try {
let sURL = (sPath !== "") ? sPath + "/" + sDicName : "resource://grammalecte/_dictionaries/"+sDicName;
const dict = JSON.parse(helpers.loadFile(sURL));
Object.assign(this, dict);
}
catch (e) {
throw Error("# Error. File not found or not loadable.\n" + e.message + "\n");
}
/*
Properties:
sName, nVersion, sHeader, lArcVal, nArcVal, byDic, sLang, nChar, nBytesArc, nBytesNodeAddress,
nEntries, nNode, nArc, nAff, cStemming, nTag, dChar, _arcMask, _finalNodeMask, _lastArcMask, _addrBitMask, nBytesOffset,
*/
if (!this.sHeader.startsWith("/pyfsa/")) {
throw TypeError("# Error. Not a pyfsa binary dictionary. Header: " + this.sHeader);
}
if (!(this.nVersion == "1" || this.nVersion == "2" || this.nVersion == "3")) {
throw RangeError("# Error. Unknown dictionary version: " + this.nVersion);
}
this.dChar = helpers.objectToMap(this.dChar);
//this.byDic = new Uint8Array(this.byDic); // not quicker, even slower
if (this.cStemming == "S") {
this.funcStemming = str_transform.getStemFromSuffixCode;
} else if (this.cStemming == "A") {
this.funcStemming = str_transform.getStemFromAffixCode;
} else {
this.funcStemming = str_transform.noStemming;
}
// Configuring DAWG functions according to nVersion
switch (this.nVersion) {
case 1:
this.morph = this._morph1;
this.stem = this._stem1;
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break;
default:
throw ValueError("# Error: unknown code: " + this.nVersion);
}
//console.log(this.getInfo());
this.bOptNumSigle = true;
this.bOptNumAtLast = false;
};
getInfo () {
return ` Language: ${this.sLang} Version: ${this.nVersion} Stemming: ${this.cStemming}FX\n` +
` Arcs values: ${this.nArcVal} = ${this.nChar} characters, ${this.nAff} affixes, ${this.nTag} tags\n` +
` Dictionary: ${this.nEntries} entries, ${this.nNode} nodes, ${this.nArc} arcs\n` +
` Address size: ${this.nBytesNodeAddress} bytes, Arc size: ${this.nBytesArc} bytes\n`;
};
isValidToken (sToken) {
// checks if sToken is valid (if there is hyphens in sToken, sToken is split, each part is checked)
if (this.isValid(sToken)) {
return true;
}
if (sToken.includes("-")) {
if (sToken.gl_count("-") > 4) {
return true;
}
return sToken.split("-").every(sWord => this.isValid(sWord));
}
return false;
};
isValid (sWord) {
// checks if sWord is valid (different casing tested if the first letter is a capital)
if (!sWord) {
return null;
}
if (sWord.includes("’")) { // ugly hack
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break;
default:
throw ValueError("# Error: unknown code: " + this.nVersion);
}
//console.log(this.getInfo());
this.bOptNumSigle = true;
this.bOptNumAtLast = false;
}
getInfo () {
return ` Language: ${this.sLang} Version: ${this.nVersion} Stemming: ${this.cStemming}FX\n` +
` Arcs values: ${this.nArcVal} = ${this.nChar} characters, ${this.nAff} affixes, ${this.nTag} tags\n` +
` Dictionary: ${this.nEntries} entries, ${this.nNode} nodes, ${this.nArc} arcs\n` +
` Address size: ${this.nBytesNodeAddress} bytes, Arc size: ${this.nBytesArc} bytes\n`;
}
isValidToken (sToken) {
// checks if sToken is valid (if there is hyphens in sToken, sToken is split, each part is checked)
if (this.isValid(sToken)) {
return true;
}
if (sToken.includes("-")) {
if (sToken.gl_count("-") > 4) {
return true;
}
return sToken.split("-").every(sWord => this.isValid(sWord));
}
return false;
}
isValid (sWord) {
// checks if sWord is valid (different casing tested if the first letter is a capital)
if (!sWord) {
return null;
}
if (sWord.includes("’")) { // ugly hack
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}
return !!this.lookup(sWord.slice(0, 1).toLowerCase() + sWord.slice(1));
} else {
return !!this.lookup(sWord.toLowerCase());
}
}
return false;
};
_convBytesToInteger (aBytes) {
// Byte order = Big Endian (bigger first)
let nVal = 0;
let nWeight = (aBytes.length - 1) * 8;
for (let n of aBytes) {
nVal += n << nWeight;
nWeight = nWeight - 8;
}
return nVal;
};
lookup (sWord) {
// returns true if sWord in dictionary (strict verification)
let iAddr = 0;
for (let c of sWord) {
if (!this.dChar.has(c)) {
return false;
}
iAddr = this._lookupArcNode(this.dChar.get(c), iAddr);
if (iAddr === null) {
return false;
}
}
return Boolean(this._convBytesToInteger(this.byDic.slice(iAddr, iAddr+this.nBytesArc)) & this._finalNodeMask);
};
getMorph (sWord) {
// retrieves morphologies list, different casing allowed
let l = this.morph(sWord);
if (sWord[0].gl_isUpperCase()) {
l = l.concat(this.morph(sWord.toLowerCase()));
if (sWord.gl_isUpperCase() && sWord.length > 1) {
l = l.concat(this.morph(sWord.gl_toCapitalize()));
}
}
return l;
};
// morph (sWord) {
// is defined in constructor
// };
// VERSION 1
_morph1 (sWord) {
// returns morphologies of sWord
let iAddr = 0;
for (let c of sWord) {
if (!this.dChar.has(c)) {
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}
return !!this.lookup(sWord.slice(0, 1).toLowerCase() + sWord.slice(1));
} else {
return !!this.lookup(sWord.toLowerCase());
}
}
return false;
}
_convBytesToInteger (aBytes) {
// Byte order = Big Endian (bigger first)
let nVal = 0;
let nWeight = (aBytes.length - 1) * 8;
for (let n of aBytes) {
nVal += n << nWeight;
nWeight = nWeight - 8;
}
return nVal;
}
lookup (sWord) {
// returns true if sWord in dictionary (strict verification)
let iAddr = 0;
for (let c of sWord) {
if (!this.dChar.has(c)) {
return false;
}
iAddr = this._lookupArcNode(this.dChar.get(c), iAddr);
if (iAddr === null) {
return false;
}
}
return Boolean(this._convBytesToInteger(this.byDic.slice(iAddr, iAddr+this.nBytesArc)) & this._finalNodeMask);
}
getMorph (sWord) {
// retrieves morphologies list, different casing allowed
let l = this.morph(sWord);
if (sWord[0].gl_isUpperCase()) {
l = l.concat(this.morph(sWord.toLowerCase()));
if (sWord.gl_isUpperCase() && sWord.length > 1) {
l = l.concat(this.morph(sWord.gl_toCapitalize()));
}
}
return l;
}
// morph (sWord) {
// is defined in constructor
// }
// VERSION 1
_morph1 (sWord) {
// returns morphologies of sWord
let iAddr = 0;
for (let c of sWord) {
if (!this.dChar.has(c)) {
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l.push(this.funcStemming(sWord, this.lArcVal[nArc]));
}
iAddr = iEndArcAddr + this.nBytesNodeAddress;
}
return l;
}
return [];
};
_lookupArcNode1 (nVal, iAddr) {
// looks if nVal is an arc at the node at iAddr, if yes, returns address of next node else None
while (true) {
let iEndArcAddr = iAddr+this.nBytesArc;
let nRawArc = this._convBytesToInteger(this.byDic.slice(iAddr, iEndArcAddr));
if (nVal == (nRawArc & this._arcMask)) {
// the value we are looking for
// we return the address of the next node
return this._convBytesToInteger(this.byDic.slice(iEndArcAddr, iEndArcAddr+this.nBytesNodeAddress));
}
else {
// value not found
if (nRawArc & this._lastArcMask) {
return null;
}
iAddr = iEndArcAddr + this.nBytesNodeAddress;
}
}
};
// VERSION 2
_morph2 (sWord) {
// to do
};
_stem2 (sWord) {
// to do
};
_lookupArcNode2 (nVal, iAddr) {
// to do
};
// VERSION 3
_morph3 (sWord) {
// to do
};
_stem3 (sWord) {
// to do
};
_lookupArcNode3 (nVal, iAddr) {
// to do
};
}
if (typeof(exports) !== 'undefined') {
exports.IBDAWG = IBDAWG;
}
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l.push(this.funcStemming(sWord, this.lArcVal[nArc]));
}
iAddr = iEndArcAddr + this.nBytesNodeAddress;
}
return l;
}
return [];
}
_lookupArcNode1 (nVal, iAddr) {
// looks if nVal is an arc at the node at iAddr, if yes, returns address of next node else None
while (true) {
let iEndArcAddr = iAddr+this.nBytesArc;
let nRawArc = this._convBytesToInteger(this.byDic.slice(iAddr, iEndArcAddr));
if (nVal == (nRawArc & this._arcMask)) {
// the value we are looking for
// we return the address of the next node
return this._convBytesToInteger(this.byDic.slice(iEndArcAddr, iEndArcAddr+this.nBytesNodeAddress));
}
else {
// value not found
if (nRawArc & this._lastArcMask) {
return null;
}
iAddr = iEndArcAddr + this.nBytesNodeAddress;
}
}
}
// VERSION 2
_morph2 (sWord) {
// to do
}
_stem2 (sWord) {
// to do
}
_lookupArcNode2 (nVal, iAddr) {
// to do
}
// VERSION 3
_morph3 (sWord) {
// to do
}
_stem3 (sWord) {
// to do
}
_lookupArcNode3 (nVal, iAddr) {
// to do
}
}
if (typeof(exports) !== 'undefined') {
exports.IBDAWG = IBDAWG;
}
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