Overview
Comment: | [graphspell][py] ibdawg: code cleaning, remove version 2 and 3, never used |
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Downloads: | Tarball | ZIP archive | SQL archive |
Timelines: | family | ancestors | descendants | both | graphspell | bdic_opt |
Files: | files | file ages | folders |
SHA3-256: |
4fa9631623da51ba6404c5b847e9912a |
User & Date: | olr on 2020-09-12 12:45:25 |
Other Links: | branch diff | manifest | tags |
Context
2020-09-12
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12:54 | [graphspell] code cleaning check-in: 9df0f3e6b2 user: olr tags: bdic_opt, graphspell | |
12:45 | [graphspell][py] ibdawg: code cleaning, remove version 2 and 3, never used check-in: 4fa9631623 user: olr tags: bdic_opt, graphspell | |
12:32 | [graphspell][js] ibdawg: code cleaning, remove version 2 and 3, never used check-in: b3f2f1d72a user: olr tags: bdic_opt, graphspell | |
Changes
Modified graphspell/ibdawg.py from [0fe5cbd03f] to [258f41f141].
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if self.cStemming == "S": self.funcStemming = st.changeWordWithSuffixCode elif self.cStemming == "A": self.funcStemming = st.changeWordWithAffixCode else: self.funcStemming = st.noStemming # Configuring DAWG functions according to nCompressionMethod if self.nCompressionMethod == 1: self.morph = self._morph1 self.stem = self._stem1 self._lookupArcNode = self._lookupArcNode1 self._getArcs = self._getArcs1 self._writeNodes = self._writeNodes1 elif self.nCompressionMethod == 2: self.morph = self._morph2 self.stem = self._stem2 self._lookupArcNode = self._lookupArcNode2 self._getArcs = self._getArcs2 self._writeNodes = self._writeNodes2 elif self.nCompressionMethod == 3: self.morph = self._morph3 self.stem = self._stem3 self._lookupArcNode = self._lookupArcNode3 self._getArcs = self._getArcs3 self._writeNodes = self._writeNodes3 else: raise ValueError(" # Error: unknown code: {}".format(self.nCompressionMethod)) self.bAcronymValid = False self.bNumAtLastValid = False # lexicographer module ? self.lexicographer = None try: self.lexicographer = importlib.import_module(".lexgraph_"+self.sLangCode, "grammalecte.graphspell") ................................................................................ return bool(self.byDic[iAddr] & 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 #@timethis def suggest (self, sWord, nSuggLimit=10, bSplitTrailingNumbers=False): "returns a set of suggestions for <sWord>" sWord = sWord.rstrip(".") # useful for LibreOffice sWord = st.spellingNormalization(sWord) ................................................................................ if sFlexPattern: zFlexPattern = re.compile(sFlexPattern) if sTagsPattern: zTagsPattern = re.compile(sTagsPattern) except re.error: print("# Error in regex pattern") traceback.print_exc() yield from self._select1(zFlexPattern, zTagsPattern, 0, "") # def morph (self, sWord): # is defined in __init__ # VERSION 1 def _select1 (self, zFlexPattern, zTagsPattern, iAddr, sWord): # recursive generator for nVal, jAddr in self._getArcs1(iAddr): if nVal <= self.nChar: # simple character yield from self._select1(zFlexPattern, zTagsPattern, jAddr, sWord + self.lArcVal[nVal]) else: if not zFlexPattern or zFlexPattern.search(sWord): sStem = self.funcStemming(sWord, self.lArcVal[nVal]) for nMorphVal, _ in self._getArcs1(jAddr): if not zTagsPattern or zTagsPattern.search(self.lArcVal[nMorphVal]): yield [sWord, sStem, self.lArcVal[nMorphVal]] def _morph1 (self, sWord): "returns morphologies of <sWord>" iAddr = 0 for c in sWord: if c not in self.dChar: return [] iAddr = self._lookupArcNode(self.dChar[c], iAddr) if iAddr is None: ................................................................................ nRawArc2 = self.byDic[iAddr2] l.append(sStem + "/" + self.lArcVal[nRawArc2 & self._arcMask]) iAddr2 = iEndArcAddr2 + 1 iAddr = iEndArcAddr + 1 return l return [] def _stem1 (self, sWord): "returns stems list of <sWord>" iAddr = 0 for c in sWord: if c not in self.dChar: return [] iAddr = self._lookupArcNode(self.dChar[c], iAddr) if iAddr is None: ................................................................................ if nArc > self.nChar: # This value is not a char, this is a stemming code l.append(self.funcStemming(sWord, self.lArcVal[nArc])) iAddr = iEndArcAddr + 1 return l return [] def _lookupArcNode1 (self, nVal, iAddr): "looks if <nVal> is an arc at the node at <iAddr>, if yes, returns address of next node else None" while True: iEndArcAddr = iAddr + 1 nRawArc = self.byDic[iAddr] if nVal == (nRawArc & self._arcMask): # the value we are looking for # we return the address of the next node return self.byDic[iEndArcAddr] # value not found if nRawArc & self._lastArcMask: return None iAddr = iEndArcAddr + 1 def _getArcs1 (self, iAddr): "generator: return all arcs at <iAddr> as tuples of (nVal, iAddr)" while True: iEndArcAddr = iAddr + 1 nRawArc = self.byDic[iAddr] yield nRawArc & self._arcMask, self.byDic[iEndArcAddr] if nRawArc & self._lastArcMask: break iAddr = iEndArcAddr + 1 def _writeNodes1 (self, spfDest): "for debugging only" print(" > Write binary nodes") with open(spfDest, 'w', 'utf-8', newline="\n") as hDst: iAddr = 0 hDst.write("i{:_>10} -- #{:_>10}\n".format("0", iAddr)) while iAddr < len(self.byDic): iEndArcAddr = iAddr + 1 nRawArc = self.byDic[iAddr] nArc = nRawArc & self._arcMask hDst.write(" {:<20} {:0>16} i{:>10} #{:_>10}\n".format(self.lArcVal[nArc], bin(nRawArc)[2:], "?", self.byDic[iEndArcAddr])) iAddr = iEndArcAddr + 1 if (nRawArc & self._lastArcMask) and iAddr < len(self.byDic): hDst.write("\ni{:_>10} -- #{:_>10}\n".format("?", iAddr)) hDst.close() # VERSION 2 def _morph2 (self, sWord): "returns morphologies of <sWord>" iAddr = 0 for c in sWord: if c not in self.dChar: return [] iAddr = self._lookupArcNode(self.dChar[c], iAddr) if iAddr is None: return [] if int.from_bytes(self.byDic[iAddr:iAddr+self.nBytesArc], byteorder='big') & self._finalNodeMask: l = [] nRawArc = 0 while not nRawArc & self._lastArcMask: iEndArcAddr = iAddr + self.nBytesArc nRawArc = int.from_bytes(self.byDic[iAddr:iEndArcAddr], byteorder='big') nArc = nRawArc & self._arcMask if nArc > self.nChar: # This value is not a char, this is a stemming code sStem = ">" + self.funcStemming(sWord, self.lArcVal[nArc]) # Now , we go to the next node and retrieve all following arcs values, all of them are tags if not nRawArc & self._addrBitMask: iAddr2 = int.from_bytes(self.byDic[iEndArcAddr:iEndArcAddr+self.nBytesNodeAddress], byteorder='big') else: # we go to the end of the node iAddr2 = iEndArcAddr while not nRawArc & self._lastArcMask: nRawArc = int.from_bytes(self.byDic[iAddr2:iAddr2+self.nBytesArc], byteorder='big') iAddr2 += self.nBytesArc + self.nBytesNodeAddress nRawArc2 = 0 while not nRawArc2 & self._lastArcMask: iEndArcAddr2 = iAddr2 + self.nBytesArc nRawArc2 = int.from_bytes(self.byDic[iAddr2:iEndArcAddr2], byteorder='big') l.append(sStem + "/" + self.lArcVal[nRawArc2 & self._arcMask]) iAddr2 = iEndArcAddr2+self.nBytesNodeAddress if not nRawArc2 & self._addrBitMask else iEndArcAddr2 iAddr = iEndArcAddr+self.nBytesNodeAddress if not nRawArc & self._addrBitMask else iEndArcAddr return l return [] def _stem2 (self, sWord): "returns stems list of <sWord>" iAddr = 0 for c in sWord: if c not in self.dChar: return [] iAddr = self._lookupArcNode(self.dChar[c], iAddr) if iAddr is None: return [] if int.from_bytes(self.byDic[iAddr:iAddr+self.nBytesArc], byteorder='big') & self._finalNodeMask: l = [] nRawArc = 0 while not nRawArc & self._lastArcMask: iEndArcAddr = iAddr + self.nBytesArc nRawArc = int.from_bytes(self.byDic[iAddr:iEndArcAddr], byteorder='big') nArc = nRawArc & self._arcMask if nArc > self.nChar: # This value is not a char, this is a stemming code l.append(self.funcStemming(sWord, self.lArcVal[nArc])) # Now , we go to the next node if not nRawArc & self._addrBitMask: iAddr2 = int.from_bytes(self.byDic[iEndArcAddr:iEndArcAddr+self.nBytesNodeAddress], byteorder='big') else: # we go to the end of the node iAddr2 = iEndArcAddr while not nRawArc & self._lastArcMask: nRawArc = int.from_bytes(self.byDic[iAddr2:iAddr2+self.nBytesArc], byteorder='big') iAddr2 += self.nBytesArc + self.nBytesNodeAddress iAddr = iEndArcAddr+self.nBytesNodeAddress if not nRawArc & self._addrBitMask else iEndArcAddr return l return [] def _lookupArcNode2 (self, nVal, iAddr): "looks if <nVal> is an arc at the node at <iAddr>, if yes, returns address of next node else None" while True: iEndArcAddr = iAddr+self.nBytesArc nRawArc = int.from_bytes(self.byDic[iAddr:iEndArcAddr], byteorder='big') if nVal == (nRawArc & self._arcMask): # the value we are looking for if not nRawArc & self._addrBitMask: # we return the address of the next node return int.from_bytes(self.byDic[iEndArcAddr:iEndArcAddr+self.nBytesNodeAddress], byteorder='big') # we go to the end of the node iAddr = iEndArcAddr while not nRawArc & self._lastArcMask: nRawArc = int.from_bytes(self.byDic[iAddr:iAddr+self.nBytesArc], byteorder='big') iAddr += self.nBytesArc + self.nBytesNodeAddress if not nRawArc & self._addrBitMask else self.nBytesArc return iAddr # value not found if nRawArc & self._lastArcMask: return None iAddr = iEndArcAddr+self.nBytesNodeAddress if not nRawArc & self._addrBitMask else iEndArcAddr def _writeNodes2 (self, spfDest): "for debugging only" print(" > Write binary nodes") with open(spfDest, 'w', 'utf-8', newline="\n") as hDst: iAddr = 0 hDst.write("i{:_>10} -- #{:_>10}\n".format("0", iAddr)) while iAddr < len(self.byDic): iEndArcAddr = iAddr+self.nBytesArc nRawArc = int.from_bytes(self.byDic[iAddr:iEndArcAddr], byteorder='big') nArc = nRawArc & self._arcMask if not nRawArc & self._addrBitMask: iNextNodeAddr = int.from_bytes(self.byDic[iEndArcAddr:iEndArcAddr+self.nBytesNodeAddress], byteorder='big') hDst.write(" {:<20} {:0>16} i{:>10} #{:_>10}\n".format(self.lArcVal[nArc], bin(nRawArc)[2:], "?", iNextNodeAddr)) iAddr = iEndArcAddr+self.nBytesNodeAddress else: hDst.write(" {:<20} {:0>16}\n".format(self.lArcVal[nArc], bin(nRawArc)[2:])) iAddr = iEndArcAddr if nRawArc & self._lastArcMask: hDst.write("\ni{:_>10} -- #{:_>10}\n".format("?", iAddr)) hDst.close() # VERSION 3 def _morph3 (self, sWord): "returns morphologies of <sWord>" iAddr = 0 for c in sWord: if c not in self.dChar: return [] iAddr = self._lookupArcNode(self.dChar[c], iAddr) if iAddr is None: return [] if int.from_bytes(self.byDic[iAddr:iAddr+self.nBytesArc], byteorder='big') & self._finalNodeMask: l = [] nRawArc = 0 iAddrNode = iAddr while not nRawArc & self._lastArcMask: iEndArcAddr = iAddr + self.nBytesArc nRawArc = int.from_bytes(self.byDic[iAddr:iEndArcAddr], byteorder='big') nArc = nRawArc & self._arcMask if nArc > self.nChar: # This value is not a char, this is a stemming code sStem = ">" + self.funcStemming(sWord, self.lArcVal[nArc]) # Now , we go to the next node and retrieve all following arcs values, all of them are tags if not nRawArc & self._addrBitMask: iAddr2 = int.from_bytes(self.byDic[iEndArcAddr:iEndArcAddr+self.nBytesNodeAddress], byteorder='big') else: iAddr2 = iAddrNode + int.from_bytes(self.byDic[iEndArcAddr:iEndArcAddr+self.nBytesOffset], byteorder='big') nRawArc2 = 0 while not nRawArc2 & self._lastArcMask: iEndArcAddr2 = iAddr2 + self.nBytesArc nRawArc2 = int.from_bytes(self.byDic[iAddr2:iEndArcAddr2], byteorder='big') l.append(sStem + "/" + self.lArcVal[nRawArc2 & self._arcMask]) iAddr2 = iEndArcAddr2+self.nBytesNodeAddress if not nRawArc2 & self._addrBitMask else iEndArcAddr2+self.nBytesOffset iAddr = iEndArcAddr+self.nBytesNodeAddress if not nRawArc & self._addrBitMask else iEndArcAddr+self.nBytesOffset return l return [] def _stem3 (self, sWord): "returns stems list of <sWord>" iAddr = 0 for c in sWord: if c not in self.dChar: return [] iAddr = self._lookupArcNode(self.dChar[c], iAddr) if iAddr is None: return [] if int.from_bytes(self.byDic[iAddr:iAddr+self.nBytesArc], byteorder='big') & self._finalNodeMask: l = [] nRawArc = 0 #iAddrNode = iAddr while not nRawArc & self._lastArcMask: iEndArcAddr = iAddr + self.nBytesArc nRawArc = int.from_bytes(self.byDic[iAddr:iEndArcAddr], byteorder='big') nArc = nRawArc & self._arcMask if nArc > self.nChar: # This value is not a char, this is a stemming code l.append(self.funcStemming(sWord, self.lArcVal[nArc])) iAddr = iEndArcAddr+self.nBytesNodeAddress if not nRawArc & self._addrBitMask else iEndArcAddr+self.nBytesOffset return l return [] def _lookupArcNode3 (self, nVal, iAddr): "looks if <nVal> is an arc at the node at <iAddr>, if yes, returns address of next node else None" iAddrNode = iAddr while True: iEndArcAddr = iAddr+self.nBytesArc nRawArc = int.from_bytes(self.byDic[iAddr:iEndArcAddr], byteorder='big') if nVal == (nRawArc & self._arcMask): # the value we are looking for if not nRawArc & self._addrBitMask: return int.from_bytes(self.byDic[iEndArcAddr:iEndArcAddr+self.nBytesNodeAddress], byteorder='big') return iAddrNode + int.from_bytes(self.byDic[iEndArcAddr:iEndArcAddr+self.nBytesOffset], byteorder='big') # value not found if nRawArc & self._lastArcMask: return None iAddr = iEndArcAddr+self.nBytesNodeAddress if not nRawArc & self._addrBitMask else iEndArcAddr+self.nBytesOffset def _writeNodes3 (self, spfDest): "for debugging only" print(" > Write binary nodes") with open(spfDest, 'w', 'utf-8', newline="\n") as hDst: iAddr = 0 hDst.write("i{:_>10} -- #{:_>10}\n".format("0", iAddr)) while iAddr < len(self.byDic): iEndArcAddr = iAddr+self.nBytesArc nRawArc = int.from_bytes(self.byDic[iAddr:iEndArcAddr], byteorder='big') nArc = nRawArc & self._arcMask if not nRawArc & self._addrBitMask: iNextNodeAddr = int.from_bytes(self.byDic[iEndArcAddr:iEndArcAddr+self.nBytesNodeAddress], byteorder='big') hDst.write(" {:<20} {:0>16} i{:>10} #{:_>10}\n".format(self.lArcVal[nArc], bin(nRawArc)[2:], "?", iNextNodeAddr)) iAddr = iEndArcAddr+self.nBytesNodeAddress else: iNextNodeAddr = int.from_bytes(self.byDic[iEndArcAddr:iEndArcAddr+self.nBytesOffset], byteorder='big') hDst.write(" {:<20} {:0>16} i{:>10} +{:_>10}\n".format(self.lArcVal[nArc], bin(nRawArc)[2:], "?", iNextNodeAddr)) iAddr = iEndArcAddr+self.nBytesOffset if nRawArc & self._lastArcMask: hDst.write("\ni{:_>10} -- #{:_>10}\n".format("?", iAddr)) hDst.close() |
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if self.cStemming == "S": self.funcStemming = st.changeWordWithSuffixCode elif self.cStemming == "A": self.funcStemming = st.changeWordWithAffixCode else: self.funcStemming = st.noStemming self.bAcronymValid = False self.bNumAtLastValid = False # lexicographer module ? self.lexicographer = None try: self.lexicographer = importlib.import_module(".lexgraph_"+self.sLangCode, "grammalecte.graphspell") ................................................................................ return bool(self.byDic[iAddr] & 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 #@timethis def suggest (self, sWord, nSuggLimit=10, bSplitTrailingNumbers=False): "returns a set of suggestions for <sWord>" sWord = sWord.rstrip(".") # useful for LibreOffice sWord = st.spellingNormalization(sWord) ................................................................................ if sFlexPattern: zFlexPattern = re.compile(sFlexPattern) if sTagsPattern: zTagsPattern = re.compile(sTagsPattern) except re.error: print("# Error in regex pattern") traceback.print_exc() yield from self._select(zFlexPattern, zTagsPattern, 0, "") def _select (self, zFlexPattern, zTagsPattern, iAddr, sWord): # recursive generator for nVal, jAddr in self._getArcs(iAddr): if nVal <= self.nChar: # simple character yield from self._select(zFlexPattern, zTagsPattern, jAddr, sWord + self.lArcVal[nVal]) else: if not zFlexPattern or zFlexPattern.search(sWord): sStem = self.funcStemming(sWord, self.lArcVal[nVal]) for nMorphVal, _ in self._getArcs(jAddr): if not zTagsPattern or zTagsPattern.search(self.lArcVal[nMorphVal]): yield [sWord, sStem, self.lArcVal[nMorphVal]] def _morph (self, sWord): "returns morphologies of <sWord>" iAddr = 0 for c in sWord: if c not in self.dChar: return [] iAddr = self._lookupArcNode(self.dChar[c], iAddr) if iAddr is None: ................................................................................ nRawArc2 = self.byDic[iAddr2] l.append(sStem + "/" + self.lArcVal[nRawArc2 & self._arcMask]) iAddr2 = iEndArcAddr2 + 1 iAddr = iEndArcAddr + 1 return l return [] def _stem (self, sWord): "returns stems list of <sWord>" iAddr = 0 for c in sWord: if c not in self.dChar: return [] iAddr = self._lookupArcNode(self.dChar[c], iAddr) if iAddr is None: ................................................................................ if nArc > self.nChar: # This value is not a char, this is a stemming code l.append(self.funcStemming(sWord, self.lArcVal[nArc])) iAddr = iEndArcAddr + 1 return l return [] def _lookupArcNode (self, nVal, iAddr): "looks if <nVal> is an arc at the node at <iAddr>, if yes, returns address of next node else None" while True: iEndArcAddr = iAddr + 1 nRawArc = self.byDic[iAddr] if nVal == (nRawArc & self._arcMask): # the value we are looking for # we return the address of the next node return self.byDic[iEndArcAddr] # value not found if nRawArc & self._lastArcMask: return None iAddr = iEndArcAddr + 1 def _getArcs (self, iAddr): "generator: return all arcs at <iAddr> as tuples of (nVal, iAddr)" while True: iEndArcAddr = iAddr + 1 nRawArc = self.byDic[iAddr] yield nRawArc & self._arcMask, self.byDic[iEndArcAddr] if nRawArc & self._lastArcMask: break iAddr = iEndArcAddr + 1 def _writeNodes (self, spfDest): "for debugging only" print(" > Write binary nodes") with open(spfDest, 'w', 'utf-8', newline="\n") as hDst: iAddr = 0 hDst.write("i{:_>10} -- #{:_>10}\n".format("0", iAddr)) while iAddr < len(self.byDic): iEndArcAddr = iAddr + 1 nRawArc = self.byDic[iAddr] nArc = nRawArc & self._arcMask hDst.write(" {:<20} {:0>16} i{:>10} #{:_>10}\n".format(self.lArcVal[nArc], bin(nRawArc)[2:], "?", self.byDic[iEndArcAddr])) iAddr = iEndArcAddr + 1 if (nRawArc & self._lastArcMask) and iAddr < len(self.byDic): hDst.write("\ni{:_>10} -- #{:_>10}\n".format("?", iAddr)) hDst.close() |