File: test_analysis.py

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# coding=utf-8

from __future__ import with_statement

import pytest

from whoosh import analysis, fields, qparser
from whoosh.compat import b, u, unichr
from whoosh.compat import dumps
from whoosh.filedb.filestore import RamStorage


def test_regextokenizer():
    value = u("AAAaaaBBBbbbCCCcccDDDddd")

    rex = analysis.RegexTokenizer("[A-Z]+")
    assert [t.text for t in rex(value)] == ["AAA", "BBB", "CCC", "DDD"]

    rex = analysis.RegexTokenizer("[A-Z]+", gaps=True)
    assert [t.text for t in rex(value)] == ["aaa", "bbb", "ccc", "ddd"]


def test_path_tokenizer():
    value = u("/alfa/bravo/charlie/delta/")
    pt = analysis.PathTokenizer()
    assert [t.text for t in pt(value)] == ["/alfa", "/alfa/bravo",
                                           "/alfa/bravo/charlie",
                                           "/alfa/bravo/charlie/delta"]


def test_path_tokenizer2():
    path_field = fields.TEXT(analyzer=analysis.PathTokenizer())
    st = RamStorage()
    schema = fields.Schema(path=path_field)
    index = st.create_index(schema)

    with index.writer() as writer:
        writer.add_document(path=u('/alfa/brvo/charlie/delta/'))
        writer.add_document(path=u('/home/user/file.txt'))
    assert not index.is_empty()

    with index.reader() as reader:
        items = list(reader.all_terms())
    assert 'path' in [field for field, value in items]
    assert b('/alfa') in [value for field, value in items]


def test_composition1():
    ca = analysis.RegexTokenizer() | analysis.LowercaseFilter()
    assert ca.__class__.__name__ == "CompositeAnalyzer"
    assert ca[0].__class__.__name__ == "RegexTokenizer"
    assert ca[1].__class__.__name__ == "LowercaseFilter"
    assert [t.text for t in ca(u("ABC 123"))] == ["abc", "123"]


def test_composition2():
    ca = analysis.RegexTokenizer() | analysis.LowercaseFilter()
    sa = ca | analysis.StopFilter()
    assert len(sa), 3
    assert sa.__class__.__name__ == "CompositeAnalyzer"
    assert sa[0].__class__.__name__ == "RegexTokenizer"
    assert sa[1].__class__.__name__ == "LowercaseFilter"
    assert sa[2].__class__.__name__ == "StopFilter"
    assert [t.text for t in sa(u("The ABC 123"))], ["abc", "123"]


def test_composition3():
    sa = analysis.RegexTokenizer() | analysis.StopFilter()
    assert sa.__class__.__name__ == "CompositeAnalyzer"


def test_composing_functions():
    tokenizer = analysis.RegexTokenizer()

    def filter(tokens):
        for t in tokens:
            t.text = t.text.upper()
            yield t

    with pytest.raises(TypeError):
        tokenizer | filter


def test_shared_composition():
    shared = analysis.RegexTokenizer(r"\S+") | analysis.LowercaseFilter()

    ana1 = shared | analysis.NgramFilter(3)
    ana2 = shared | analysis.DoubleMetaphoneFilter()

    assert [t.text for t in ana1(u("hello"))] == ["hel", "ell", "llo"]
    assert [t.text for t in ana2(u("hello"))] == ["HL"]


def test_multifilter():
    f1 = analysis.LowercaseFilter()
    f2 = analysis.PassFilter()
    mf = analysis.MultiFilter(a=f1, b=f2)
    ana = analysis.RegexTokenizer(r"\S+") | mf
    text = u("ALFA BRAVO CHARLIE")
    assert [t.text for t in ana(text, mode="a")] == ["alfa", "bravo", "charlie"]
    assert [t.text for t in ana(text, mode="b")] == ["ALFA", "BRAVO", "CHARLIE"]


def test_tee_filter():
    target = u("Alfa Bravo Charlie")
    f1 = analysis.LowercaseFilter()
    f2 = analysis.ReverseTextFilter()
    ana = analysis.RegexTokenizer(r"\S+") | analysis.TeeFilter(f1, f2)
    result = " ".join([t.text for t in ana(target)])
    assert result == "alfa aflA bravo ovarB charlie eilrahC"

    class ucfilter(analysis.Filter):
        def __call__(self, tokens):
            for t in tokens:
                t.text = t.text.upper()
                yield t

    f2 = analysis.ReverseTextFilter() | ucfilter()
    ana = analysis.RegexTokenizer(r"\S+") | analysis.TeeFilter(f1, f2)
    result = " ".join([t.text for t in ana(target)])
    assert result == "alfa AFLA bravo OVARB charlie EILRAHC"

    f1 = analysis.PassFilter()
    f2 = analysis.BiWordFilter()
    ana = (analysis.RegexTokenizer(r"\S+")
           | analysis.TeeFilter(f1, f2)
           | analysis.LowercaseFilter())
    result = " ".join([t.text for t in ana(target)])
    assert result == "alfa alfa-bravo bravo bravo-charlie charlie"


def test_intraword():
    iwf = analysis.IntraWordFilter(mergewords=True, mergenums=True)
    ana = analysis.RegexTokenizer(r"\S+") | iwf

    def check(text, ls):
        assert [(t.pos, t.text) for t in ana(text)] == ls

    check(u("PowerShot)"), [(0, "Power"), (1, "Shot"), (1, "PowerShot")])
    check(u("A's+B's&C's"), [(0, "A"), (1, "B"), (2, "C"), (2, "ABC")])
    check(u("Super-Duper-XL500-42-AutoCoder!"),
          [(0, "Super"), (1, "Duper"), (2, "XL"), (2, "SuperDuperXL"),
           (3, "500"), (4, "42"), (4, "50042"), (5, "Auto"), (6, "Coder"),
           (6, "AutoCoder")])


def test_intraword_chars():
    iwf = analysis.IntraWordFilter(mergewords=True, mergenums=True)
    ana = analysis.RegexTokenizer(r"\S+") | iwf | analysis.LowercaseFilter()

    target = u("WiKiWo-rd")
    tokens = [(t.text, t.startchar, t.endchar)
              for t in ana(target, chars=True)]
    assert tokens == [("wi", 0, 2), ("ki", 2, 4), ("wo", 4, 6),
                      ("rd", 7, 9), ("wikiword", 0, 9)]

    target = u("Zo WiKiWo-rd")
    tokens = [(t.text, t.startchar, t.endchar)
              for t in ana(target, chars=True)]
    assert tokens == [("zo", 0, 2), ("wi", 3, 5), ("ki", 5, 7),
                      ("wo", 7, 9), ("rd", 10, 12), ("wikiword", 3, 12)]


def test_intraword_possessive():
    iwf = analysis.IntraWordFilter(mergewords=True, mergenums=True)
    ana = analysis.RegexTokenizer(r"\S+") | iwf | analysis.LowercaseFilter()

    target = u("O'Malley's-Bar")
    tokens = [(t.text, t.startchar, t.endchar)
              for t in ana(target, chars=True)]
    assert tokens == [("o", 0, 1), ("malley", 2, 8), ("bar", 11, 14),
                      ("omalleybar", 0, 14)]


def test_word_segments():
    wordset = set(u("alfa bravo charlie delta").split())

    cwf = analysis.CompoundWordFilter(wordset, keep_compound=True)
    ana = analysis.RegexTokenizer(r"\S+") | cwf
    target = u("alfacharlie bravodelta delto bravo subalfa")
    tokens = [t.text for t in ana(target)]
    assert tokens == ["alfacharlie", "alfa", "charlie", "bravodelta",
                      "bravo", "delta", "delto", "bravo", "subalfa"]

    cwf = analysis.CompoundWordFilter(wordset, keep_compound=False)
    ana = analysis.RegexTokenizer(r"\S+") | cwf
    target = u("alfacharlie bravodelta delto bravo subalfa")
    tokens = [t.text for t in ana(target)]
    assert tokens == ["alfa", "charlie", "bravo", "delta", "delto", "bravo",
                      "subalfa"]


def test_biword():
    ana = analysis.RegexTokenizer(r"\w+") | analysis.BiWordFilter()
    result = [t.copy() for t
              in ana(u("the sign of four"), chars=True, positions=True)]
    assert ["the-sign", "sign-of", "of-four"] == [t.text for t in result]
    assert [(0, 8), (4, 11), (9, 16)] == [(t.startchar, t.endchar)
                                          for t in result]
    assert [0, 1, 2] == [t.pos for t in result]

    result = [t.copy() for t in ana(u("single"))]
    assert len(result) == 1
    assert result[0].text == "single"


def test_shingles():
    ana = analysis.RegexTokenizer(r"\w+") | analysis.ShingleFilter(3, " ")
    source = u("better a witty fool than a foolish wit")
    results = [t.copy() for t in ana(source, positions=True, chars=True)]
    assert [t.text for t in results] == [u('better a witty'), u('a witty fool'),
                                         u('witty fool than'), u('fool than a'),
                                         u('than a foolish'),
                                         u('a foolish wit')]
    assert [t.pos for t in results] == list(range(len(results)))
    for t in results:
        assert t.text == source[t.startchar:t.endchar]


def test_unicode_blocks():
    from whoosh.support.unicode import blocks, blockname, blocknum

    assert blockname(u('a')) == 'Basic Latin'
    assert blockname(unichr(0x0b80)) == 'Tamil'
    assert blockname(unichr(2048)) is None
    assert blocknum(u('a')) == 0
    assert blocknum(unichr(0x0b80)) == 22
    assert blocknum(unichr(2048)) is None
    assert blocknum(u('a')) == blocks.Basic_Latin  # @UndefinedVariable
    assert blocknum(unichr(0x0b80)) == blocks.Tamil  # @UndefinedVariable


def test_double_metaphone():
    from whoosh.lang.dmetaphone import double_metaphone

    names = {'maurice': ('MRS', None),
             'aubrey': ('APR', None),
             'cambrillo': ('KMPRL', 'KMPR'),
             'heidi': ('HT', None),
             'katherine': ('K0RN', 'KTRN'),
             'Thumbail': ('0MPL', 'TMPL'),
             'catherine': ('K0RN', 'KTRN'),
             'richard': ('RXRT', 'RKRT'),
             'bob': ('PP', None),
             'eric': ('ARK', None),
             'geoff': ('JF', 'KF'),
             'Through': ('0R', 'TR'),
             'Schwein': ('XN', 'XFN'),
             'dave': ('TF', None),
             'ray': ('R', None),
             'steven': ('STFN', None),
             'bryce': ('PRS', None),
             'randy': ('RNT', None),
             'bryan': ('PRN', None),
             'Rapelje': ('RPL', None),
             'brian': ('PRN', None),
             'otto': ('AT', None),
             'auto': ('AT', None),
             'Dallas': ('TLS', None),
             'maisey': ('MS', None),
             'zhang': ('JNK', None),
             'Chile': ('XL', None),
             'Jose': ('HS', None),
             'Arnow': ('ARN', 'ARNF'),
             'solilijs': ('SLLS', None),
             'Parachute': ('PRKT', None),
             'Nowhere': ('NR', None),
             'Tux': ('TKS', None)}

    dmn = name = None
    for name in names.keys():
        dmn = double_metaphone(name)
    assert dmn == names[name]

    mf = (analysis.RegexTokenizer()
          | analysis.LowercaseFilter()
          | analysis.DoubleMetaphoneFilter())
    results = [(t.text, t.boost) for t in mf(u("Spruce View"))]
    assert results == [('SPRS', 1.0), ('F', 1.0), ('FF', 0.5)]

    mf = (analysis.RegexTokenizer()
          | analysis.LowercaseFilter()
          | analysis.DoubleMetaphoneFilter(combine=True))
    results = [(t.text, t.boost) for t in mf(u("Spruce View"))]
    assert results == [('spruce', 1.0), ('SPRS', 1.0), ('view', 1.0),
                       ('F', 1.0), ('FF', 0.5)]

    namefield = fields.TEXT(analyzer=mf)
    texts = list(namefield.process_text(u("Spruce View"), mode="query"))
    assert texts == [u('spruce'), 'SPRS', u('view'), 'F', 'FF']


def test_substitution():
    mf = analysis.RegexTokenizer(r"\S+") | analysis.SubstitutionFilter("-", "")
    assert ([t.text for t in mf(u("one-two th-re-ee four"))]
            == ["onetwo", "threee", "four"])

    mf = (analysis.RegexTokenizer(r"\S+")
          | analysis.SubstitutionFilter("([^=]*)=(.*)", r"\2=\1"))
    assert [t.text for t in mf(u("a=b c=d ef"))] == ["b=a", "d=c", "ef"]


def test_delimited_attribute():
    ana = analysis.RegexTokenizer(r"\S+") | analysis.DelimitedAttributeFilter()
    results = [(t.text, t.boost) for t in ana(u("image render^2 file^0.5"))]
    assert results == [("image", 1.0), ("render", 2.0), ("file", 0.5)]


def test_porter2():
    from whoosh.lang.porter2 import stem

    plurals = ['caresses', 'flies', 'dies', 'mules', 'denied',
               'died', 'agreed', 'owned', 'humbled', 'sized',
               'meeting', 'stating', 'siezing', 'itemization',
               'sensational', 'traditional', 'reference', 'colonizer',
               'plotted']
    singles = [stem(w) for w in plurals]

    assert singles == ['caress', 'fli', 'die', 'mule', 'deni', 'die',
                       'agre', 'own', 'humbl', 'size', 'meet', 'state',
                       'siez', 'item', 'sensat', 'tradit', 'refer',
                       'colon', 'plot']
    assert stem("bill's") == "bill"
    assert stem("y's") == "y"


#def test_pystemmer():
#    Stemmer = pytest.importorskip("Stemmer")
#
#    ana = (analysis.RegexTokenizer()
#           | analysis.LowercaseFilter()
#           | analysis.PyStemmerFilter())
#    schema = fields.Schema(text=fields.TEXT(analyzer=ana))
#    st = RamStorage()
#
#    ix = st.create_index(schema)
#    with ix.writer() as w:
#        w.add_document(text=u("rains falling strangely"))
#
#    ix = st.open_index()
#    with ix.writer() as w:
#        w.add_document(text=u("pains stalling strongly"))
#
#    ix = st.open_index()
#    with ix.reader() as r:
#        assert (list(r.field_terms("text"))
#                == ["fall", "pain", "rain", "stall", "strang", "strong"])


def test_url():
    sample = u("Visit http://bitbucket.org/mchaput/whoosh or " +
               "urn:isbn:5930502 or http://www.apple.com/.")

    anas = [analysis.SimpleAnalyzer(analysis.url_pattern),
            analysis.StandardAnalyzer(analysis.url_pattern, stoplist=None)]
    for ana in anas:
        ts = [t.text for t in ana(sample)]
        assert ts == [u('visit'), u('http://bitbucket.org/mchaput/whoosh'),
                      u('or'), u('urn:isbn:5930502'), u('or'),
                      u('http://www.apple.com/')]


def test_name_field():
    ana = (analysis.RegexTokenizer(r"\S+")
           | analysis.LowercaseFilter()
           | analysis.DoubleMetaphoneFilter(combine=True))
    namefield = fields.TEXT(analyzer=ana, multitoken_query="or")
    schema = fields.Schema(id=fields.STORED, name=namefield)

    ix = RamStorage().create_index(schema)
    w = ix.writer()
    w.add_document(id=u("one"), name=u("Leif Ericson"))
    w.commit()

    s = ix.searcher()
    qp = qparser.QueryParser("name", schema)
    q = qp.parse(u("leaf eriksen"), normalize=False)
    r = s.search(q)
    assert len(r) == 1


def test_start_pos():
    from whoosh import formats
    ana = analysis.RegexTokenizer(r"\S+") | analysis.LowercaseFilter()
    kw = {"positions": True}
    tks = formats.tokens(u("alfa bravo charlie delta"), ana, kw)
    assert [t.pos for t in tks] == [0, 1, 2, 3]

    kw["start_pos"] = 3
    ts = [t.copy() for t in formats.tokens(u("A B C D").split(), ana, kw)]
    assert " ".join([t.text for t in ts]) == "A B C D"
    assert [t.pos for t in ts] == [3, 4, 5, 6]


def test_frowny_face():
    # See https://bitbucket.org/mchaput/whoosh/issue/166/
    ana = analysis.RegexTokenizer(r"\S+") | analysis.IntraWordFilter()
    # text is all delimiters
    tokens = [t.text for t in ana(u(":-("))]
    assert tokens == []

    # text has consecutive delimiters
    tokens = [t.text for t in ana(u("LOL:)"))]
    assert tokens == ["LOL"]


def test_ngrams():
    s = u("abcdefg h ij klm")
    tk = analysis.RegexTokenizer(r"\S+")

    def dotest(f):
        ana = tk | f
        tokens = ana(s, positions=True, chars=True)
        return "/".join(t.text for t in tokens)

    f = analysis.NgramFilter(3, 4)
    assert dotest(f) == "abc/abcd/bcd/bcde/cde/cdef/def/defg/efg/klm"

    f = analysis.NgramFilter(3, 4, at="start")
    assert dotest(f) == "abc/abcd/klm"

    f = analysis.NgramFilter(3, 4, at="end")
    assert dotest(f) == "defg/efg/klm"

    ana = tk | analysis.NgramFilter(2, 5, at="end")
    tokens = [(t.text, t.startchar, t.endchar) for t in ana(s, chars=True)]
    assert tokens == [("cdefg", 2, 7), ("defg", 3, 7), ("efg", 4, 7),
                      ("fg", 5, 7), ("ij", 10, 12), ("klm", 13, 16),
                      ("lm", 14, 16)]


@pytest.mark.skipif("sys.version_info < (2,6)")
def test_language_analyzer():
    domain = [("da", u("Jeg gik mig over s\xf8 og land"),
               [u('gik'), u('s\xf8'), u('land')]),

              ("nl", u("Daar komt een muisje aangelopen"),
               [u('komt'), u('muisj'), u('aangelop')]),

              ("de", u("Berlin war ihm zu gro\xdf, da baut' er sich ein Schlo\xdf."),
               [u('berlin'), u('gross'), u('baut'), u('schloss')]),

              ("es", u("Por el mar corren las liebres"),
               ['mar', 'corr', 'liebr']),
              ]

    for lang, source, target in domain:
        ana = analysis.LanguageAnalyzer(lang)
        words = [t.text for t in ana(source)]
        assert words == target


@pytest.mark.skipif("sys.version_info < (2,6)")
def test_la_pickleability():
    ana = analysis.LanguageAnalyzer("en")
    _ = dumps(ana, -1)


def test_charset_pickeability():
    from whoosh.support import charset
    charmap = charset.charset_table_to_dict(charset.default_charset)
    ana = analysis.StandardAnalyzer() | analysis.CharsetFilter(charmap)
    _ = dumps(ana, -1)

    ana = analysis.CharsetTokenizer(charmap)
    _ = dumps(ana, -1)


def test_shingle_stopwords():
    # Note that the stop list is None here
    ana = (analysis.RegexTokenizer()
           | analysis.StopFilter(stoplist=None, minsize=3)
           | analysis.ShingleFilter(size=3))

    texts = [t.text for t
             in ana(u("some other stuff and then some things To Check     "))]
    assert texts == ["some-other-stuff", "other-stuff-and", "stuff-and-then",
                     "and-then-some", "then-some-things", "some-things-Check"]

    # Use a stop list here
    ana = (analysis.RegexTokenizer()
           | analysis.LowercaseFilter()
           | analysis.StopFilter()
           | analysis.ShingleFilter(size=3))

    texts = [t.text for t
             in ana(u("some other stuff and then some things To Check     "))]
    assert texts == ["some-other-stuff", "other-stuff-then", "stuff-then-some",
                     "then-some-things", "some-things-check"]


def test_biword_stopwords():
    # Note that the stop list is None here
    ana = (analysis.RegexTokenizer()
           | analysis.StopFilter(stoplist=None, minsize=3)
           | analysis.BiWordFilter())

    texts = [t.text for t in ana(u("stuff and then some"))]
    assert texts == ["stuff-and", "and-then", "then-some"]

    # Use a stop list here
    ana = (analysis.RegexTokenizer()
           | analysis.LowercaseFilter()
           | analysis.StopFilter()
           | analysis.BiWordFilter())

    texts = [t.text for t in ana(u("stuff and then some"))]
    assert texts == ["stuff-then", "then-some"]


@pytest.mark.skipif("sys.version_info < (2,6)")
def test_stop_lang():
    stopper = analysis.RegexTokenizer() | analysis.StopFilter()
    ls = [token.text for token in stopper(u("this is a test"))]
    assert ls == [u("test")]

    es_stopper = analysis.RegexTokenizer() | analysis.StopFilter(lang="es")
    ls = [token.text for token in es_stopper(u("el lapiz es en la mesa"))]
    assert ls == ["lapiz", "mesa"]


def test_issue358():
    t = analysis.RegexTokenizer(r"\w+")
    with pytest.raises(analysis.CompositionError):
        _ = t | analysis.StandardAnalyzer()


def test_ngramwords_tokenizer():
    tk = analysis.CommaSeparatedTokenizer()
    tags = fields.NGRAMWORDS(minsize=3, maxsize=50, tokenizer=tk, stored=True,
                             queryor=True)
    schema = fields.Schema(tags=tags)