def _convertBTrees(self, threshold=200):

        if type(self._lexicon) is type(''):
            # Turn the name reference into a hard reference.
            self._lexicon=self.getLexicon()

        if type(self._index) is IOBTree: return

        from BTrees.convert import convert

        _index=self._index
        self._index=IOBTree()

        def convertScores(scores,
                          type=type, TupleType=TupleType, IIBTree=IIBTree
                          ):
            if type(scores) is not TupleType and type(scores) is not IIBTree():
                scores=IIBTree(scores)
            return scores

        convert(_index, self._index, threshold, convertScores)

        _unindex=self._unindex
        self._unindex=IOBTree()
        convert(_unindex, self._unindex, threshold)
Esempio n. 2
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    def _convertBTrees(self, threshold=200):
        if type(self._index) is OOBTree: return

        from BTrees.convert import convert

        _index=self._index
        self._index=OOBTree()

        def convertSet(s,
                       IITreeSet=IITreeSet, IntType=type(0),
                       type=type, len=len,
                       doneTypes = (IntType, IITreeSet)):

            if type(s) in doneTypes: return s

            if len(s) == 1:
                try: return s[0]  # convert to int
                except: pass # This is just an optimization.

            return IITreeSet(s)

        convert(_index, self._index, threshold, convertSet)

        _unindex=self._unindex
        self._unindex=IOBTree()
        convert(_unindex, self._unindex, threshold)

        self.__len__=BTrees.Length.Length(len(_index))
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    def _convertBTrees(self, threshold=200):

        if type(self._lexicon) is type(''):
            # Turn the name reference into a hard reference.
            self._lexicon = self.getLexicon()

        if type(self._index) is IOBTree: return

        from BTrees.convert import convert

        _index = self._index
        self._index = IOBTree()

        def convertScores(scores,
                          type=type,
                          TupleType=TupleType,
                          IIBTree=IIBTree):
            if type(scores) is not TupleType and type(scores) is not IIBTree():
                scores = IIBTree(scores)
            return scores

        convert(_index, self._index, threshold, convertScores)

        _unindex = self._unindex
        self._unindex = IOBTree()
        convert(_unindex, self._unindex, threshold)
    def _convertBTrees(self, threshold=200):
        Lexicon._convertBTrees(self, threshold)
        if type(self._digrams) is OOBTree: return

        from BTrees.convert import convert

        _digrams=self._digrams
        self._digrams=OOBTree()
        self._digrams._p_jar=self._p_jar
        convert(_digrams, self._digrams, threshold, IITreeSet)
Esempio n. 5
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    def _convertBTrees(self, threshold=200):
        Lexicon._convertBTrees(self, threshold)
        if type(self._digrams) is OOBTree: return

        from BTrees.convert import convert

        _digrams = self._digrams
        self._digrams = OOBTree()
        self._digrams._p_jar = self._p_jar
        convert(_digrams, self._digrams, threshold, IITreeSet)
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    def _convertBTrees(self, threshold=200):
        if (type(self._lexicon) is OIBTree and
            type(getattr(self, '_inverseLex', None)) is IOBTree):
            return

        from BTrees.convert import convert

        lexicon=self._lexicon
        self._lexicon=OIBTree()
        self._lexicon._p_jar=self._p_jar
        convert(lexicon, self._lexicon, threshold)

        try:
            inverseLex=self._inverseLex
            self._inverseLex=IOBTree()
        except AttributeError:
            # older lexicons didn't have an inverse lexicon
            self._inverseLex=IOBTree()
            inverseLex=self._inverseLex

        self._inverseLex._p_jar=self._p_jar
        convert(inverseLex, self._inverseLex, threshold)
Esempio n. 7
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    def _convertBTrees(self, threshold=200):
        if (type(self._lexicon) is OIBTree and
            type(getattr(self, '_inverseLex', None)) is IOBTree):
            return

        from BTrees.convert import convert

        lexicon=self._lexicon
        self._lexicon=OIBTree()
        self._lexicon._p_jar=self._p_jar
        convert(lexicon, self._lexicon, threshold)

        try:
            inverseLex=self._inverseLex
            self._inverseLex=IOBTree()
        except AttributeError:
            # older lexicons didn't have an inverse lexicon
            self._inverseLex=IOBTree()
            inverseLex=self._inverseLex

        self._inverseLex._p_jar=self._p_jar
        convert(inverseLex, self._inverseLex, threshold)
Esempio n. 8
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    def _convertBTrees(self, threshold=200):

        from BTrees.convert import convert

        if type(self.data) is not IOBTree:
            data=self.data
            self.data=IOBTree()
            convert(data, self.data, threshold)

            self.__len__=BTrees.Length.Length(len(data))

            uids=self.uids
            self.uids=OIBTree()
            convert(uids, self.uids, threshold)

            paths=self.paths
            self.paths=IOBTree()
            convert(paths, self.paths, threshold)


        for index in self.indexes.values():
            if hasattr(index, '__of__'): index=index.__of__(self)
            index._convertBTrees(threshold)