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sEntry = sWord + "\t" + self.funcStemming(sWord, self.lArcVal[nVal])
for nMorphVal, _ in oNextNode.arcs.items():
if not zPattern or zPattern.search(self.lArcVal[nMorphVal]):
yield sEntry + "\t" + self.lArcVal[nMorphVal]
# BINARY CONVERSION
def createBinary (self, sPathFile, nCompressionMethod, bDebug=False):
def _calculateBinary (self, nCompressionMethod):
print(" > Write DAWG as an indexable binary dictionary [method: %d]" % nCompressionMethod)
if nCompressionMethod == 1:
self.nBytesArc = ( (self.nArcVal.bit_length() + 2) // 8 ) + 1 # We add 2 bits. See DawgNode.convToBytes1()
self.nBytesOffset = 0
self._calcNumBytesNodeAddress()
self._calcNodesAddress1()
elif nCompressionMethod == 2:
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self._calcNodesAddress3()
else:
print(" # Error: unknown compression method")
print(" Arc values (chars, affixes and tags): {} -> {} bytes".format( self.nArcVal, len("\t".join(self.lArcVal).encode("utf-8")) ))
print(" Arc size: {} bytes, Address size: {} bytes -> {} * {} = {} bytes".format( self.nBytesArc, self.nBytesNodeAddress, \
self.nBytesArc+self.nBytesNodeAddress, self.nArc, \
(self.nBytesArc+self.nBytesNodeAddress)*self.nArc ))
self._writeBinary(sPathFile, nCompressionMethod)
self._writeAsJSObject(sPathFile, nCompressionMethod)
if bDebug:
self._writeNodes(sPathFile, nCompressionMethod)
def _calcNumBytesNodeAddress (self):
"how many bytes needed to store all nodes/arcs in the binary dictionary"
self.nBytesNodeAddress = 1
while ((self.nBytesArc + self.nBytesNodeAddress) * self.nArc) > (2 ** (self.nBytesNodeAddress * 8)):
self.nBytesNodeAddress += 1
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for oNextNode in self.lSortedNodes[i].arcs.values():
if 1 < (oNextNode.addr - self.lSortedNodes[i].addr) < self.nMaxOffset:
nSize -= nDiff
if self.lSortedNodes[i].size != nSize:
self.lSortedNodes[i].size = nSize
bEnd = False
def _writeAsJSObject (self, spfDst, nCompressionMethod, bInJSModule=False, bBinaryDictAsHexString=True):
def getBinaryAsJSON (self, nCompressionMethod=1, bBinaryDictAsHexString=True):
if not spfDst.endswith(".json"):
spfDst += "."+str(nCompressionMethod)+".json"
self._calculateBinary(nCompressionMethod)
byDic = b""
if nCompressionMethod == 1:
byDic = self.oRoot.convToBytes1(self.nBytesArc, self.nBytesNodeAddress)
for oNode in self.lMinimizedNodes:
byDic += oNode.convToBytes1(self.nBytesArc, self.nBytesNodeAddress)
elif nCompressionMethod == 2:
byDic = self.oRoot.convToBytes2(self.nBytesArc, self.nBytesNodeAddress)
for oNode in self.lSortedNodes:
byDic += oNode.convToBytes2(self.nBytesArc, self.nBytesNodeAddress)
elif nCompressionMethod == 3:
byDic = self.oRoot.convToBytes3(self.nBytesArc, self.nBytesNodeAddress, self.nBytesOffset)
for oNode in self.lSortedNodes:
byDic += oNode.convToBytes3(self.nBytesArc, self.nBytesNodeAddress, self.nBytesOffset)
with open(spfDst, "w", encoding="utf-8", newline="\n") as hDst:
if bInJSModule:
hDst.write('// JavaScript\n// Generated data (do not edit)\n\n"use strict";\n\nconst dictionary = ')
hDst.write(json.dumps({
"sHeader": "/pyfsa/",
return json.dumps({ "sHeader": "/pyfsa/",
"sLangCode": self.sLangCode,
"sLangName": self.sLangName,
"sDicName": self.sDicName,
"sFileName": self.sFileName,
"sDate": self._getDate(),
"nEntry": self.nEntry,
"nChar": self.nChar,
"nAff": self.nAff,
"nTag": self.nTag,
"cStemming": self.cStemming,
"dChar": self.dChar,
"nNode": self.nNode,
"nArc": self.nArc,
"nArcVal": self.nArcVal,
"lArcVal": self.lArcVal,
"nCompressionMethod": nCompressionMethod,
"nBytesArc": self.nBytesArc,
"nBytesNodeAddress": self.nBytesNodeAddress,
"nBytesOffset": self.nBytesOffset,
# JavaScript is a pile of shit, so Mozilla’s JS parser don’t like file bigger than 4 Mb!
# Mozilla’s JS parser don’t like file bigger than 4 Mb!
# So, if necessary, we use an hexadecimal string, that we will convert later in Firefox’s extension.
# https://github.com/mozilla/addons-linter/issues/1361
"sByDic": byDic.hex() if bBinaryDictAsHexString else [ e for e in byDic ]
}, ensure_ascii=False))
}, ensure_ascii=False)
def writeAsJSObject (self, spfDst, nCompressionMethod, bInJSModule=False, bBinaryDictAsHexString=True):
if not spfDst.endswith(".json"):
spfDst += "."+str(nCompressionMethod)+".json"
with open(spfDst, "w", encoding="utf-8", newline="\n") as hDst:
if bInJSModule:
hDst.write('// JavaScript\n// Generated data (do not edit)\n\n"use strict";\n\nconst dictionary = ')
hDst.write( self.getBinaryAsJSON(nCompressionMethod, bBinaryDictAsHexString) )
if bInJSModule:
hDst.write(";\n\nexports.dictionary = dictionary;\n")
def _writeBinary (self, sPathFile, nCompressionMethod):
def writeBinary (self, sPathFile, nCompressionMethod, bDebug=False):
"""
Format of the binary indexable dictionary:
Each section is separated with 4 bytes of \0
- Section Header:
/pyfsa/[compression method]
* compression method is an ASCII string
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hDst.write(self.oRoot.convToBytes2(self.nBytesArc, self.nBytesNodeAddress))
for oNode in self.lSortedNodes:
hDst.write(oNode.convToBytes2(self.nBytesArc, self.nBytesNodeAddress))
elif nCompressionMethod == 3:
hDst.write(self.oRoot.convToBytes3(self.nBytesArc, self.nBytesNodeAddress, self.nBytesOffset))
for oNode in self.lSortedNodes:
hDst.write(oNode.convToBytes3(self.nBytesArc, self.nBytesNodeAddress, self.nBytesOffset))
hDst.close()
if bDebug:
self._writeNodes(sPathFile, nCompressionMethod)
def _getDate (self):
return time.strftime("%Y.%m.%d, %H:%M")
def _writeNodes (self, sPathFile, nCompressionMethod):
"for debugging only"
print(" > Write nodes")
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for oNode in self.lSortedNodes:
hDst.write(oNode.getTxtRepr2(self.nBytesArc, self.nBytesNodeAddress, self.lArcVal)+"\n")
if nCompressionMethod == 3:
hDst.write(self.oRoot.getTxtRepr3(self.nBytesArc, self.nBytesNodeAddress, self.nBytesOffset, self.lArcVal)+"\n")
#hDst.write( ''.join( [ "%02X " % z for z in self.oRoot.convToBytes3(self.nBytesArc, self.nBytesNodeAddress, self.nBytesOffset) ] ).strip() )
for oNode in self.lSortedNodes:
hDst.write(oNode.getTxtRepr3(self.nBytesArc, self.nBytesNodeAddress, self.nBytesOffset, self.lArcVal)+"\n")
hDst.close()
def writeResults (self, sPathFile):
bFileExits = os.path.isfile("_lexicons.res.txt")
with open("_lexicons.res.txt", "a", encoding='utf-8', newline="\n") as hDst:
sFormat1 = "{:<12} {:>12} {:>5} {:>8} {:>8} {:>6} {:>8} {:>9} {:>9} {:>15} {:>12} {:>12}\n"
sFormat2 = "{:<12} {:>12,} {:>5,} {:>8,} {:>8} {:>6,} {:>8,} {:>9,} {:>9,} {:>15,} {:>12,} {:>12,}\n"
if not bFileExits:
hDst.write(sFormat1.format("Lexicon", "Entries", "Chars", "Affixes", "Stemming", "Tags", "Values", "Nodes", "Arcs", "Lexicon (Kb)", "Dict (Kb)", "LT Dict (Kb)"))
hDst.write(sFormat2.format(self.sLangName, self.nEntry, self.nChar, self.nAff, self.cStemming + "FX", self.nTag, self.nArcVal, \
self.nNode, self.nArc, os.path.getsize(self.sFileName), os.path.getsize(sPathFile), \
os.path.getsize("cfsa/dict/{}.dict".format(self.sLangName)) if os.path.isfile("cfsa/dict/{}.dict".format(self.sLangName)) else 0))
hDst.close()
class DawgNode:
NextId = 0
NextPos = 1 # (version 2)
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