def test_column_with_number():
    column = Column.of(1)

    expected_value = "&1"
    assert column.value == expected_value
    assert column.clean_value == expected_value
    assert column.get_key() == f"Column⁝{expected_value}"
    assert column.lemmatizable is False

    serialized = {"type": "Column", "number": 1}
    assert_token_serialization(column, serialized)
class LemmatizedFragmentFactory(TransliteratedFragmentFactory):
    text = Text((
        TextLine.of_iterable(
            LineNumber(1, True),
            (
                Word.of([UnidentifiedSign.of()]),
                Word.of([
                    Logogram.of_name(
                        "BA",
                        surrogate=[
                            Reading.of_name("ku"),
                            Joiner.hyphen(),
                            Reading.of_name("u", 4),
                        ],
                    )
                ]),
                Column.of(),
                Tabulation.of(),
                Word.of([
                    BrokenAway.open(),
                    UnknownNumberOfSigns.of(),
                    Joiner.hyphen(),
                    Reading.of_name("ku"),
                    BrokenAway.close(),
                    Joiner.hyphen(),
                    Reading.of_name("nu"),
                    Joiner.hyphen(),
                    Reading.of_name("ši"),
                ]),
                Variant.of(Divider.of(":"), Reading.of_name("ku")),
                Word.of([
                    BrokenAway.open(),
                    UnknownNumberOfSigns.of(),
                    BrokenAway.close(),
                ]),
                Column.of(2),
                Divider.of(":", ("@v", ), (Flag.DAMAGE, )),
                CommentaryProtocol.of("!qt"),
                Word.of([Number.of_name("10", flags=[Flag.DAMAGE])]),
            ),
        ),
        TextLine.of_iterable(
            LineNumber(2, True),
            (
                Word.of([BrokenAway.open(),
                         UnknownNumberOfSigns.of()]),
                Word.of([Logogram.of_name("GI", 6)],
                        unique_lemma=(WordId("ginâ I"), )),
                Word.of([Reading.of_name("ana")],
                        unique_lemma=(WordId("ana I"), )),
                Word.of(
                    [
                        Reading.of_name("u₄"),
                        Joiner.hyphen(),
                        Reading.of_name("š[u"),
                    ],
                    unique_lemma=(WordId("ūsu I"), ),
                ),
                Word.of([UnknownNumberOfSigns.of(),
                         BrokenAway.close()]),
            ),
        ),
        TextLine.of_iterable(
            LineNumber(3, True),
            (
                Word.of([BrokenAway.open(),
                         UnknownNumberOfSigns.of()]),
                Word.of(
                    unique_lemma=(WordId("kīdu I"), ),
                    parts=[
                        Reading.of((
                            ValueToken.of("k"),
                            BrokenAway.close(),
                            ValueToken.of("i"),
                        )),
                        Joiner.hyphen(),
                        Reading.of_name("du"),
                    ],
                ),
                Word.of(unique_lemma=(WordId("u I"), ),
                        parts=[Reading.of_name("u")]),
                Word.of(
                    unique_lemma=(WordId("bamātu I"), ),
                    parts=[
                        Reading.of_name("ba"),
                        Joiner.hyphen(),
                        Reading.of_name("ma"),
                        Joiner.hyphen(),
                        Reading.of((
                            ValueToken.of("t"),
                            BrokenAway.open(),
                            ValueToken.of("i"),
                        )),
                    ],
                ),
                Word.of([UnknownNumberOfSigns.of(),
                         BrokenAway.close()]),
            ),
        ),
        TextLine.of_iterable(
            LineNumber(6, True),
            (
                Word.of([
                    BrokenAway.open(),
                    UnknownNumberOfSigns.of(),
                    BrokenAway.close(),
                ]),
                Word.of([UnclearSign.of([Flag.DAMAGE])]),
                Word.of(unique_lemma=(WordId("mu I"), ),
                        parts=[Reading.of_name("mu")]),
                Word.of(
                    unique_lemma=(WordId("tamalāku I"), ),
                    parts=[
                        Reading.of_name("ta"),
                        Joiner.hyphen(),
                        Reading.of_name("ma"),
                        InWordNewline.of(),
                        Joiner.hyphen(),
                        Reading.of_name("tu", 2),
                    ],
                ),
            ),
        ),
        TextLine.of_iterable(
            LineNumber(7, True),
            (
                Word.of([
                    Variant.of(Reading.of_name("šu"),
                               CompoundGrapheme.of(["BI×IS"]))
                ]),
                LanguageShift.normalized_akkadian(),
                AkkadianWord.of([ValueToken.of("kur")],
                                unique_lemma=(WordId("normalized I"), )),
            ),
        ),
        StateDollarLine(
            atf.Qualification.AT_LEAST,
            1,
            ScopeContainer(atf.Surface.OBVERSE, ""),
            atf.State.MISSING,
            None,
        ),
        ImageDollarLine("1", None, "numbered diagram of triangle"),
        RulingDollarLine(atf.Ruling.SINGLE),
        LooseDollarLine("this is a loose line"),
        SealDollarLine(1),
        SealAtLine(1),
        HeadingAtLine(1),
        ColumnAtLine(ColumnLabel([atf.Status.COLLATION], 1)),
        SurfaceAtLine(
            SurfaceLabel([atf.Status.COLLATION], atf.Surface.SURFACE,
                         "stone wig")),
        ObjectAtLine(
            ObjectLabel([atf.Status.COLLATION], atf.Object.OBJECT,
                        "stone wig")),
        DiscourseAtLine(atf.Discourse.DATE),
        DivisionAtLine("paragraph", 5),
        CompositeAtLine(atf.Composite.DIV, "part", 1),
        NoteLine((
            StringPart("a note "),
            EmphasisPart("italic"),
            LanguagePart.of_transliteration(
                Language.AKKADIAN, (Word.of([Reading.of_name("bu")]), )),
        )),
        ParallelComposition(False, "my name", LineNumber(1)),
        ParallelText(
            True,
            TextId(CorpusGenre.LITERATURE, 1, 1),
            ChapterName(Stage.OLD_BABYLONIAN, "", "my name"),
            LineNumber(1),
            False,
        ),
        ParallelFragment(False, MuseumNumber.of("K.1"), True, Labels(),
                         LineNumber(1), False),
    ))
class TransliteratedFragmentFactory(FragmentFactory):
    text = Text((
        TextLine.of_iterable(
            LineNumber(1, True),
            (
                Word.of([UnidentifiedSign.of()]),
                Word.of([
                    Logogram.of_name(
                        "BA",
                        surrogate=[
                            Reading.of_name("ku"),
                            Joiner.hyphen(),
                            Reading.of_name("u", 4),
                        ],
                    )
                ]),
                Column.of(),
                Tabulation.of(),
                Word.of([
                    BrokenAway.open(),
                    UnknownNumberOfSigns.of(),
                    Joiner.hyphen(),
                    Reading.of_name("ku"),
                    BrokenAway.close(),
                    Joiner.hyphen(),
                    Reading.of_name("nu"),
                    Joiner.hyphen(),
                    Reading.of_name("ši"),
                ]),
                Variant.of(Divider.of(":"), Reading.of_name("ku")),
                Word.of([
                    BrokenAway.open(),
                    UnknownNumberOfSigns.of(),
                    BrokenAway.close(),
                ]),
                Column.of(2),
                Divider.of(":", ("@v", ), (Flag.DAMAGE, )),
                CommentaryProtocol.of("!qt"),
                Word.of([Number.of_name("10", flags=[Flag.DAMAGE])]),
            ),
        ),
        TextLine.of_iterable(
            LineNumber(2, True),
            (
                Word.of([
                    BrokenAway.open(),
                    UnknownNumberOfSigns.of(),
                    BrokenAway.close(),
                ]),
                Word.of([Logogram.of_name("GI", 6)]),
                Word.of([Reading.of_name("ana")]),
                Word.of([
                    Reading.of_name("u", 4),
                    Joiner.hyphen(),
                    Reading.of((
                        ValueToken.of("š"),
                        BrokenAway.open(),
                        ValueToken.of("u"),
                    )),
                ]),
                Word.of([UnknownNumberOfSigns.of(),
                         BrokenAway.close()]),
            ),
        ),
        TextLine.of_iterable(
            LineNumber(3, True),
            (
                Word.of([BrokenAway.open(),
                         UnknownNumberOfSigns.of()]),
                Word.of([
                    Reading.of((
                        ValueToken.of("k"),
                        BrokenAway.close(),
                        ValueToken.of("i"),
                    )),
                    Joiner.hyphen(),
                    Reading.of_name("du"),
                ]),
                Word.of([Reading.of_name("u")]),
                Word.of([
                    Reading.of_name("ba"),
                    Joiner.hyphen(),
                    Reading.of_name("ma"),
                    Joiner.hyphen(),
                    Reading.of((
                        ValueToken.of("t"),
                        BrokenAway.open(),
                        ValueToken.of("i"),
                    )),
                ]),
                Word.of([UnknownNumberOfSigns.of(),
                         BrokenAway.close()]),
            ),
        ),
        TextLine.of_iterable(
            LineNumber(6, True),
            (
                Word.of([
                    BrokenAway.open(),
                    UnknownNumberOfSigns.of(),
                    BrokenAway.close(),
                ]),
                Word.of([UnclearSign.of([Flag.DAMAGE])]),
                Word.of([Reading.of_name("mu")]),
                Word.of([
                    Reading.of_name("ta"),
                    Joiner.hyphen(),
                    Reading.of_name("ma"),
                    InWordNewline.of(),
                    Joiner.hyphen(),
                    Reading.of_name("tu", 2),
                ]),
            ),
        ),
        TextLine.of_iterable(
            LineNumber(7, True),
            (
                Word.of([
                    Variant.of(Reading.of_name("šu"),
                               CompoundGrapheme.of(["BI×IS"]))
                ]),
                LanguageShift.normalized_akkadian(),
                AkkadianWord.of([ValueToken.of("kur")]),
            ),
        ),
        StateDollarLine(
            atf.Qualification.AT_LEAST,
            1,
            ScopeContainer(atf.Surface.OBVERSE, ""),
            atf.State.MISSING,
            None,
        ),
        ImageDollarLine("1", None, "numbered diagram of triangle"),
        RulingDollarLine(atf.Ruling.SINGLE),
        LooseDollarLine("this is a loose line"),
        SealDollarLine(1),
        SealAtLine(1),
        HeadingAtLine(1),
        ColumnAtLine(ColumnLabel([atf.Status.COLLATION], 1)),
        SurfaceAtLine(
            SurfaceLabel([atf.Status.COLLATION], atf.Surface.SURFACE,
                         "stone wig")),
        ObjectAtLine(
            ObjectLabel([atf.Status.COLLATION], atf.Object.OBJECT,
                        "stone wig")),
        DiscourseAtLine(atf.Discourse.DATE),
        DivisionAtLine("paragraph", 5),
        CompositeAtLine(atf.Composite.DIV, "part", 1),
        NoteLine((
            StringPart("a note "),
            EmphasisPart("italic"),
            LanguagePart.of_transliteration(
                Language.AKKADIAN, (Word.of([Reading.of_name("bu")]), )),
        )),
        ParallelComposition(False, "my name", LineNumber(1)),
        ParallelText(
            True,
            TextId(CorpusGenre.LITERATURE, 1, 1),
            ChapterName(Stage.OLD_BABYLONIAN, "", "my name"),
            LineNumber(1),
            False,
        ),
        ParallelFragment(False, MuseumNumber.of("K.1"), True, Labels(),
                         LineNumber(1), False),
    ))
    signs = (
        "X BA KU ABZ075 ABZ207a\\u002F207b\\u0020X ABZ377n1/KU ABZ377n1 ABZ411\n"
        "MI DIŠ UD ŠU\n"
        "KI DU ABZ411 BA MA TI\n"
        "X MU TA MA UD\n"
        "ŠU/|BI×IS|")
    folios = Folios((Folio("WGL", "3"), Folio("XXX", "3")))
    record = Record((RecordEntry("test", RecordType.TRANSLITERATION), ))
    line_to_vec = ((
        LineToVecEncoding.TEXT_LINE,
        LineToVecEncoding.TEXT_LINE,
        LineToVecEncoding.TEXT_LINE,
        LineToVecEncoding.TEXT_LINE,
        LineToVecEncoding.TEXT_LINE,
        LineToVecEncoding.SINGLE_RULING,
    ), )
 def ebl_atf_text_line__column_token(self, number):
     return Column.of(number and int(number))
def test_invalid_column():
    with pytest.raises(ValueError):
        Column.of(-1)
예제 #6
0
 def make_token(self, data, **kwargs):
     return (
         Column.of(data["number"])
         .set_enclosure_type(frozenset(data["enclosure_type"]))
         .set_erasure(data["erasure"])
     )
     [
         TextLine.of_iterable(
             LineNumber(1),
             (
                 Word.of([Removal.open(),
                          Reading.of_name("en")]),
                 Word.of((UnknownNumberOfSigns.of(), Removal.close())),
             ),
         )
     ],
 ),
 (
     "1. & &12",
     [
         TextLine.of_iterable(LineNumber(1),
                              (Column.of(), Column.of(12)))
     ],
 ),
 (
     "1. | : :' :\" :. :: ; /",
     [
         TextLine.of_iterable(
             LineNumber(1),
             (
                 LineBreak.of(),
                 Divider.of(":"),
                 Divider.of(":'"),
                 Divider.of(':"'),
                 Divider.of(":."),
                 Divider.of("::"),
                 Divider.of(";"),