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+
+
+
+
+
+
+
+
-
-
+
+
+
+
+
+
+
+
+
+
+
+
-
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/*
Bug workaround.
Mozilla’s JS parser sucks. Can’t read file bigger than 4 Mb!
So we convert huge hexadecimal string to list of numbers…
https://github.com/mozilla/addons-linter/issues/1361
*/
/*
Performance trick:
Instead of converting bytes to integers each times we parse the binary dictionary,
we do it once, then parse the array
*/
let nAcc = 0;
let lBytesBuffer = [];
let lTemp = [];
let nDivisor = (this.nBytesArc + this.nBytesNodeAddress) / 2;
for (let i = 0; i < this.sByDic.length; i+=2) {
lTemp.push(parseInt(this.sByDic.slice(i, i+2), 16));
}
lBytesBuffer.push(parseInt(this.sByDic.slice(i, i+2), 16));
if (nAcc == (this.nBytesArc - 1)) {
lTemp.push(this._convBytesToInteger(lBytesBuffer));
lBytesBuffer = [];
}
else if (nAcc == (this.nBytesArc + this.nBytesNodeAddress - 1)) {
lTemp.push(Math.round(this._convBytesToInteger(lBytesBuffer) / nDivisor)); // Math.round should be useless, BUT with JS who knowns what can happen…
lBytesBuffer = [];
nAcc = -1;
}
nAcc = nAcc + 1;
}
this.byDic = lTemp;
//this.byDic = new Uint8Array(lTemp); // not quicker, even slower
/* end of bug workaround */
if (!(this.sHeader.startsWith("/grammalecte-fsa/") || this.sHeader.startsWith("/pyfsa/"))) {
throw TypeError("# Error. Not a grammalecte-fsa binary dictionary. Header: " + this.sHeader);
}
if (!(this.nCompressionMethod == 1 || this.nCompressionMethod == 2 || this.nCompressionMethod == 3)) {
throw RangeError("# Error. Unknown dictionary compression method: " + this.nCompressionMethod);
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-
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// lexicographer module ?
this.lexicographer = null;
// JS still sucks: we’ll try importation when importation will be available in Workers. Still waiting...
if (self && self.hasOwnProperty("lexgraph_"+this.sLangCode)) { // self is the Worker
this.lexicographer = self["lexgraph_"+this.sLangCode];
}
}
getInfo () {
return ` Language: ${this.sLangName} Lang code: ${this.sLangCode} Dictionary name: ${this.sDicName}\n` +
` Compression method: ${this.nCompressionMethod} Date: ${this.sDate} Stemming: ${this.cStemming}FX\n` +
` Arcs values: ${this.nArcVal} = ${this.nChar} characters, ${this.nAff} affixes, ${this.nTag} tags\n` +
` Dictionary: ${this.nEntry} entries, ${this.nNode} nodes, ${this.nArc} arcs\n` +
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︙ | | |
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-
+
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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);
return Boolean(this.byDic[iAddr] & this._finalNodeMask);
}
getMorph (sWord) {
// retrieves morphologies list, different casing allowed
if (!sWord) {
return [];
}
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}
}
}
_suggest (oSuggResult, sRemain, nMaxSwitch=0, nMaxDel=0, nMaxHardRepl=0, nMaxJump=0, nDist=0, nDeep=0, iAddr=0, sNewWord="", bAvoidLoop=false) {
// returns a set of suggestions
// recursive function
if (this._convBytesToInteger(this.byDic.slice(iAddr, iAddr+this.nBytesArc)) & this._finalNodeMask) {
if (this.byDic[iAddr] & this._finalNodeMask) {
if (sRemain == "") {
oSuggResult.addSugg(sNewWord);
for (let sTail of this._getTails(iAddr)) {
oSuggResult.addSugg(sNewWord+sTail);
}
return;
}
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}
_getTails (iAddr, sTail="", n=2) {
// return a list of suffixes ending at a distance of <n> from <iAddr>
let aTails = new Set();
for (let [nVal, jAddr] of this._getArcs(iAddr)) {
if (nVal <= this.nChar) {
if (this._convBytesToInteger(this.byDic.slice(jAddr, jAddr+this.nBytesArc)) & this._finalNodeMask) {
if (this.byDic[jAddr] & this._finalNodeMask) {
aTails.add(sTail + this.dCharVal.get(nVal));
}
if (n && aTails.size == 0) {
aTails.gl_update(this._getTails(jAddr, sTail+this.dCharVal.get(nVal), n-1));
}
}
}
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|
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-
+
-
-
+
+
-
+
-
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-
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return [];
}
iAddr = this._lookupArcNode(this.dChar.get(c), iAddr);
if (iAddr === null) {
return [];
}
}
if (this._convBytesToInteger(this.byDic.slice(iAddr, iAddr+this.nBytesArc)) & this._finalNodeMask) {
if (this.byDic[iAddr] & this._finalNodeMask) {
let l = [];
let nRawArc = 0;
while (!(nRawArc & this._lastArcMask)) {
let iEndArcAddr = iAddr + this.nBytesArc;
nRawArc = this._convBytesToInteger(this.byDic.slice(iAddr, iEndArcAddr));
let iEndArcAddr = iAddr + 1;
nRawArc = this.byDic[iAddr];
let nArc = nRawArc & this._arcMask;
if (nArc > this.nChar) {
// This value is not a char, this is a stemming code
let sStem = ">" + this.funcStemming(sWord, this.lArcVal[nArc]);
// Now , we go to the next node and retrieve all following arcs values, all of them are tags
let iAddr2 = this._convBytesToInteger(this.byDic.slice(iEndArcAddr, iEndArcAddr+this.nBytesNodeAddress));
let iAddr2 = this.byDic[iEndArcAddr];
let nRawArc2 = 0;
while (!(nRawArc2 & this._lastArcMask)) {
let iEndArcAddr2 = iAddr2 + this.nBytesArc;
nRawArc2 = this._convBytesToInteger(this.byDic.slice(iAddr2, iEndArcAddr2));
let iEndArcAddr2 = iAddr2 + 1;
nRawArc2 = this.byDic[iAddr2];
l.push(sStem + "/" + this.lArcVal[nRawArc2 & this._arcMask]);
iAddr2 = iEndArcAddr2+this.nBytesNodeAddress;
iAddr2 = iEndArcAddr2 + 1;
}
}
iAddr = iEndArcAddr + this.nBytesNodeAddress;
iAddr = iEndArcAddr + 1;
}
return l;
}
return [];
}
_stem1 (sWord) {
// returns stems list of sWord
let iAddr = 0;
for (let c of sWord) {
if (!this.dChar.has(c)) {
return [];
}
iAddr = this._lookupArcNode(this.dChar.get(c), iAddr);
if (iAddr === null) {
return [];
}
}
if (this._convBytesToInteger(this.byDic.slice(iAddr, iAddr+this.nBytesArc)) & this._finalNodeMask) {
if (this.byDic[iAddr] & this._finalNodeMask) {
let l = [];
let nRawArc = 0;
while (!(nRawArc & this._lastArcMask)) {
let iEndArcAddr = iAddr + this.nBytesArc;
nRawArc = this._convBytesToInteger(this.byDic.slice(iAddr, iEndArcAddr));
let iEndArcAddr = iAddr + 1;
nRawArc = this.byDic[iAddr];
let nArc = nRawArc & this._arcMask;
if (nArc > this.nChar) {
// This value is not a char, this is a stemming code
l.push(this.funcStemming(sWord, this.lArcVal[nArc]));
}
iAddr = iEndArcAddr + this.nBytesNodeAddress;
iAddr = iEndArcAddr + 1;
}
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));
let iEndArcAddr = iAddr+1;
let nRawArc = this.byDic[iAddr];
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));
return this.byDic[iEndArcAddr];
}
else {
// value not found
if (nRawArc & this._lastArcMask) {
return null;
}
iAddr = iEndArcAddr + this.nBytesNodeAddress;
iAddr = iEndArcAddr + 1;
}
}
}
* _getArcs1 (iAddr) {
// generator: return all arcs at <iAddr> as tuples of (nVal, iAddr)
while (true) {
let iEndArcAddr = iAddr+this.nBytesArc;
let nRawArc = this._convBytesToInteger(this.byDic.slice(iAddr, iEndArcAddr));
yield [nRawArc & this._arcMask, this._convBytesToInteger(this.byDic.slice(iEndArcAddr, iEndArcAddr+this.nBytesNodeAddress))];
let iEndArcAddr = iAddr+1;
let nRawArc = this.byDic[iAddr];
yield [nRawArc & this._arcMask, this.byDic[iEndArcAddr]];
if (nRawArc & this._lastArcMask) {
break;
}
iAddr = iEndArcAddr+this.nBytesNodeAddress;
iAddr = iEndArcAddr+1;
}
}
// VERSION 2
_morph2 (sWord) {
// to do
}
|
︙ | | |