def main(args):
    data = Data()

    dataset = common.Dataset(
        id=u'An Crúbadán',
        name=u'An Crúbadán',
        publisher_name="Saint Louis University",
        publisher_place="Saint Louis, USA",
        publisher_url="http://www.slu.edu/",
        description=
        "Linguistic datasets for over 2000 languages created from web-crawled text corpora",
        contact="*****@*****.**",
        license='http://creativecommons.org/licenses/by/4.0/',
        jsondata={
            'license_icon':
            'https://licensebuttons.net/l/by/4.0/88x31.png',
            'license_name':
            'Creative Commons Attribution 4.0 International License',
        },
        domain='crubadan.org',
    )

    DBSession.add(dataset)
    DBSession.flush()

    editor = data.add(common.Contributor,
                      "Kevin Scannell",
                      id="Kevin Scannell",
                      name="Kevin Scannell",
                      email="*****@*****.**")
    common.Editor(dataset=dataset, contributor=editor, ord=0)
    DBSession.flush()

    fillTable(DBSession)
Beispiel #2
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def main(args):
    data = Data()

    # fetch language data from glottolog:
    glottolog = glottocodes_by_isocode(
        'postgresql://robert@/glottolog3', ['id', 'name', 'latitude', 'longitude'])

    dataset = common.Dataset(
        id=jcld.__name__,
        name="Journal of Cross-Linguistic Databases",
        domain='jcld.clld.org')
    DBSession.add(dataset)

    contribution = data.add(common.Contribution, '1', id='1', name='fb')

    for i, row in enumerate(reader(file(args.data_file('fb_jcld.tab')), namedtuples=True, encoding='latin1')):
        if row.Feature not in data['Parameter']:
            parameter = data.add(common.Parameter, row.Feature, id='1', name=row.Feature)
        else:
            parameter = data['Parameter'][row.Feature]

        if row.Value not in data['DomainElement']:
            de = data.add(
                common.DomainElement, row.Value,
                id='%s-%s' % (parameter.id, slug(row.Value)), parameter=parameter, name=row.Value)
        else:
            de = data['DomainElement'][row.Value]

        if row.Language not in data['Language']:
            if row.Language not in glottolog:
                print '--->', row.Language
                continue
            glottocode, name, lat, lon = glottolog[row.Language]
            language = data.add(
                common.Language, row.Language,
                id=slug(row.Language), name=name, latitude=lat, longitude=lon)
        else:
            language = data['Language'][row.Language]

        id_ = str(i + 1)  #'%s-%s' % (parameter.id, language.id)
        vs = common.ValueSet(
            id=id_,
            parameter=parameter,
            language=language,
            contribution=contribution,
            description=row.Comment,
            source=row.Source)
        common.Value(valueset=vs, name=row.Value, domainelement=de)
Beispiel #3
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def test_add_language_codes(env):
    from clld.db.models.common import Language
    from clld.scripts.util import Data, add_language_codes

    add_language_codes(Data(),
                       Language(),
                       'iso',
                       glottocodes=dict(iso='glot1234'))
Beispiel #4
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def main(args):
    data = Data()

    dataset = common.Dataset(
        id=cognition.__name__,
        name="COSTATOL",
        description="Cognitive Structures across the Tree of Life",
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="http://www.shh.mpg.de",
        license="http://creativecommons.org/licenses/by/4.0/",
        domain='cognition.clld.org',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})

    DBSession.add(dataset)

    #
    # TODO: add editors!
    #

    for rec in Database.from_file(args.data_file('sources.bib')):
        data.add(common.Source, rec.id, _obj=bibtex2source(rec))

    contrib = common.Contribution(id='costatol', name='COSTATOL')
    for datapoint in reader(args.data_file('values.csv'), delimiter=',', dicts=True):
        param = data['Parameter'].get(datapoint['cognitive capacity'])
        if not param:
            name = datapoint['cognitive capacity']
            param = data.add(common.Parameter, name, id=slug(name), name=name)

        species = data['Language'].get(datapoint['species'])
        if not species:
            name = datapoint['species']
            species = data.add(common.Language, name, id=slug(name), name=name)

        vid = '%s-%s' % (species.id, param.id)
        vs = data.add(
            common.ValueSet,
            vid,
            id=vid,
            language=species,
            parameter=param,
            contribution=contrib)
        data.add(common.Value, vid, id=vid, name=datapoint['value'], valueset=vs)
        match = source_pattern.match(datapoint['source'])
        if match:
            DBSession.add(common.ValueSetReference(
                valueset=vs,
                source=data['Source'][match.group('key')],
                description=match.group('pages')))

    for species in reader(args.data_file('species.csv'), delimiter=',', namedtuples=True):
        data['Language'][species.name].longitude = species.longitude
        data['Language'][species.name].latitude = species.latitude
Beispiel #5
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def main(args):
    data = Data()
    data.add(
        common.Dataset,
        "starling",
        id="starling",
        name="Starling",
        domain="starling.rinet.ru",
        description=" The Global Lexicostatistical Database",
        publisher_name="Russian State University for the Humanities, Moscow")
    data.add(common.Contribution, "starling", name="Starling", id="starling")

    def row_to_dict(row_entry):
        swadesh_id_idx, swadesh_word_idx, form_idx, cognation_idx, notes_idx = range(
            0, 5)
        return {
            "swadesh_id": row_entry[swadesh_id_idx].value,
            "swadesh_word": row_entry[swadesh_word_idx].value,
            "form": row_entry[form_idx].value,
            "cognation_index": row_entry[cognation_idx].value,
            "notes": row_entry[notes_idx].value,
        }

    data_dir = "./gld/scripts/data/"
    for path in os.listdir(data_dir):
        data_file_path = os.path.join(data_dir, path)
        book = load_workbook(data_file_path)
        sheet = book.active
        lang_name = sheet["C1"].value
        data.add(common.Language,
                 lang_name,
                 id=lang_name,
                 name=lang_name,
                 latitude=52.0,
                 longitude=0.0)

        fields = [
            "swadesh_id", "swadesh_word", "form", "cognation_index", "notes"
        ]
        for row in sheet.iter_rows(min_row=2, min_col=1):
            row_data = row_to_dict(row)
            w = data.add(Word,
                         "%s_%s" % (row_data["swadesh_id"], row_data["form"]),
                         name=row_data["form"],
                         description="Description",
                         jsondata={k: row_data[k]
                                   for k in fields})
            w.language = data["Language"][lang_name]

        DBSession.flush()
Beispiel #6
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def main(args):
    #TODO explain etc diachronic_strength
    #sigtests of dependencies
    #isogloss-maps
    data = Data()
    dataset = common.Dataset(
        id=grambank.__name__,
        name="Grambank",
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="http://shh.mpg.de",
        license="http://creativecommons.org/licenses/by/4.0/",
        domain='grambank.clld.org',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})
    DBSession.add(dataset)
    glottolog = Glottolog(GLOTTOLOG_REPOS)
    languoids = {l.id: l for l in glottolog.languoids()}

    import_gb20_features(GRAMBANK_REPOS, data)
    import_cldf(os.path.join(GRAMBANK_REPOS, 'datasets'), data, languoids)
    load_families(
        data,
        data['GrambankLanguage'].values(),
        glottolog=languoids,
        isolates_icon='tcccccc')

    # Add isolates
    for lg in data['GrambankLanguage'].values():
        gl_language = languoids.get(lg.id)
        if not gl_language.family:
            family = data.add(
                Family, gl_language.id,
                id=gl_language.id,
                name=gl_language.name,
                description=common.Identifier(
                    name=gl_language.id,
                    type=common.IdentifierType.glottolog.value).url(),
                jsondata={"icon": 'tcccccc'})
            lg.family = family
    return 
Beispiel #7
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def test_Data(mocker):
    from clld.db.models.common import Language
    from clld.scripts.util import Data

    session = set()
    mocker.patch('clld.scripts.util.DBSession', session)
    d = Data(jsondata={})
    d.add(Language, 'l', id='l', name='l')
    assert session
    d.add(Language, 'l2', _obj=5)
    with pytest.raises(ValueError):
        d.add(Language, 'l3', id='l.3')
Beispiel #8
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def main(args):
    data = Data()

    dataset = common.Dataset(
        id=cdk.__name__,
        name="CDK",
        description="Comprehensive Dictionary of Ket",
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="http://www.shh.mpg.de",
        license="http://creativecommons.org/licenses/by/4.0/",
        domain='cdk.clld.org',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})

    DBSession.add(dataset)

    contrib = common.Contribution(id='ket', name=dataset.name)
    DBSession.add(contrib)
    for i, (id, name) in enumerate([
        ('kotorov', 'E.G. Kotorova'), ('nefedov', 'A.V. Nefedov'),
    ]):
        dataset.editors.append(
            common.Editor(contributor=common.Contributor(id=id, name=name), ord=i))

    ket = data.add(
        common.Language, 'ket',
        id='ket',
        name='Ket',
        latitude=63.76,
        longitude=87.55)
    add_language_codes(data, ket, 'ket', glottocode='kett1243')
    for abbr, name in DIALECTS.items():
        data.add(common.Language, abbr, id=abbr, name=name)

    with args.data_file('sources.txt').open(encoding='utf8') as fp:
        for i, chunk in enumerate(fp.read().split('\n\n\n')):
            try:
                id_, year, author, desc = chunk.split('\n')
            except:
                print(chunk)
                raise
            data.add(
                common.Source,
                id_,
                id=str(i + 1),
                name=id_,
                author=author,
                year=year,
                description=desc)

    with UnicodeReader(args.data_file('Ket_nouns_and_other_pos_table.docx.csv')) as reader:
        load(data, reader, ket, contrib, verbs=False)

    with UnicodeReader(args.data_file('Ket_verbs_table.docx.csv')) as reader:
        load(data, reader, ket, contrib)

    print('parsing examples problematic in %s cases' % len(PROBLEMS))
Beispiel #9
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def main(args):
    Index('ducet', collkey(common.Value.name)).create(DBSession.bind)
    repos = Path(
        os.path.expanduser('~')).joinpath('venvs/lexirumah/lexirumah-data')

    with transaction.manager:
        dataset = common.Dataset(
            id=lexirumah.__name__,
            name="lexirumah",
            publisher_name=
            "Max Planck Institute for the Science of Human History",
            publisher_place="Jena",
            publisher_url="http://shh.mpg.de",
            license="http://creativecommons.org/licenses/by/4.0/",
            domain='lexirumah.model-ling.eu',
            contact='*****@*****.**',
            jsondata={
                'license_icon':
                'cc-by.png',
                'license_name':
                'Creative Commons Attribution 4.0 International License'
            })
        DBSession.add(dataset)

    glottolog_repos = Path(
        lexirumah.__file__).parent.parent.parent.parent.joinpath(
            'glottolog3', 'glottolog')
    languoids = {l.id: l for l in Glottolog(glottolog_repos).languoids()}
    concepticon = Concepticon(
        Path(lexirumah.__file__).parent.parent.parent.parent.joinpath(
            'concepticon', 'concepticon-data'))
    conceptsets = {c.id: c for c in concepticon.conceptsets.values()}

    skip = True
    for dname in sorted(repos.joinpath('datasets').iterdir(),
                        key=lambda p: p.name):
        #if dname.name == 'benuecongo':
        #    skip = False
        #if skip:
        #    continue
        if dname.is_dir() and dname.name != '_template':
            mdpath = dname.joinpath('cldf', 'metadata.json')
            if mdpath.exists():
                print(dname.name)
                import_cldf(dname, load(mdpath), languoids, conceptsets)

    with transaction.manager:
        load_families(Data(),
                      DBSession.query(LexiRumahLanguage),
                      glottolog_repos=glottolog_repos,
                      isolates_icon='tcccccc')
Beispiel #10
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def test_Data(mocker):
    from clld.db.models.common import Language
    from clld.scripts.util import Data

    session = set()
    mocker.patch('clld.scripts.util.DBSession', session)
    d = Data(jsondata={})
    d.add(Language, 'l', id='l', name='l')
    assert session
    d.add(Language, 'l2', _obj=5)
    with pytest.raises(ValueError):
        d.add(Language, 'l3', id='l.3')
Beispiel #11
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def main(args):
    data = Data()

    dataset = common.Dataset(id=moslex.__name__,
                             domain='moslex.clld.org',
                             name='MosLex',
                             license='https://creativecommons.org'
                             '/licenses/by-nc/4.0/',
                             jsondata={
                                 'license_icon':
                                 'cc-by-nc.png',
                                 'license_name':
                                 'Creative Commons '
                                 'Attribution-NC 4.0 '
                                 'International License'
                             })

    editor = data.add(common.Contributor,
                      'editor',
                      id='editor',
                      name='Alexei Kassian')
    common.Editor(dataset=dataset, contributor=editor)

    with open('languoids.json') as file:
        languoids = json.load(file)

    with open('concepts.json') as file:
        concepts = json.load(file)

    with open('forms.json') as file:
        forms = json.load(file)

    add_languoids(data, languoids)
    add_concepts(data, concepts)
    add_forms(data, forms)

    DBSession.add(dataset)
Beispiel #12
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def main(args):
    data = Data()

    dataset = common.Dataset(id=moslex.__name__,
                             domain='moslex.clld.org',
                             name='MosLex',
                             license='https://creativecommons.org'
                             '/licenses/by-nc/4.0/',
                             jsondata={
                                 'license_icon':
                                 'cc-by-nc.png',
                                 'license_name':
                                 'Creative Commons '
                                 'Attribution-NC 4.0 '
                                 'International License'
                             })

    editor = data.add(common.Contributor,
                      'editor',
                      id='editor',
                      name='Alexei Kassian',
                      email='*****@*****.**')
    common.Editor(dataset=dataset, contributor=editor)

    with open(os.environ['MOSLEX_CONCEPTS']) as file:
        concepts = json.load(file)
    add_concepts(data, concepts)

    data_folders = [
        path
        for path in glob.glob(os.path.join(os.environ['MOSLEX_DATA'], '*'))
        if os.path.isdir(path)
    ]
    for folder in data_folders:
        add_data_folder(folder, data)

    DBSession.add(dataset)
Beispiel #13
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    def test_Data(self):
        from clld.db.models.common import Language
        from clld.scripts.util import Data

        session = set()
        with patch('clld.scripts.util.DBSession', session):
            d = Data(jsondata={})
            d.add(Language, 'l', id='l', name='l')
            assert session
            d.add(Language, 'l2', _obj=5)
            self.assertRaises(ValueError, d.add, Language, 'l3', id='l.3')
Beispiel #14
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def main(args):
    glottocodes = {}
    if getuser() == "robert":
        glottocodes = glottocodes_by_isocode("postgresql://robert@/glottolog3")

    data = Data()
    dataset = common.Dataset(id=autotyp.__name__, name="AUTOTYP", description="AUTOTYP", domain="autotyp.clld.org")
    DBSession.add(dataset)

    bib = Database.from_file(args.data_file("LenaBib.bib"), lowercase=True)

    for i, spec in enumerate(
        [
            ("bickel", "Balthasar Bickel", "University of Zurich"),
            ("nichols", "Johanna Nichols", "University of California, Berkeley"),
        ]
    ):
        contributor = data.add(common.Contributor, spec[0], id=spec[0], name=spec[1])
        DBSession.add(common.Editor(dataset=dataset, ord=i + 1, contributor=contributor))

    for l in rows(
        args.data_file("backbone_09Jan2014_directexport.tab"), newline="\r", encoding="macroman", namedtuples=True
    ):
        # LID	language	ISO639.3.2013	stock	continent	area	latitude	longitude
        if l.stock not in data["Stock"]:
            stock = data.add(models.Stock, l.stock, id=slug(l.stock), name=l.stock)
        else:
            stock = data["Stock"][l.stock]

        if l.continent not in data["Continent"]:
            continent = data.add(models.Continent, l.continent, id=slug(l.continent), name=l.continent)
        else:
            continent = data["Continent"][l.continent]

        if l.area not in data["Area"]:
            area = data.add(models.Area, l.area, id=slug(l.area), name=l.area, continent=continent)
        else:
            area = data["Area"][l.area]

        lang = data.add(
            models.Languoid,
            l.LID,
            id=l.LID,
            name=l.language,
            latitude=coord(l.latitude),
            longitude=coord(l.longitude),
            stock=stock,
            area=area,
        )
        add_language_codes(data, lang, l.ISO639_3_2013, glottocodes=glottocodes)

    loader.case_alignment(args, data, bib)
    loader.inclusive_excusive(args, data, bib)
Beispiel #15
0
def import_cldf(srcdir, md, languoids, conceptsets):
    with transaction.manager:
        contrib = Provider(
            id=srcdir.name,
            name=md['dc:title'],
            description=md.get('dc:bibliographicCitation'),
            url=md.get('dc:identifier'),
            license=md.get('dc:license'),
            aboutUrl=md.get('aboutUrl'),
        )
        DBSession.add(contrib)
        sources = {}
        cldfdir = srcdir.joinpath('cldf')
        values = Data()
        for fname in tqdm(list(cldfdir.glob('*' + MD_SUFFIX)), leave=False):
            ds = Dataset.from_metadata(fname)
            for src in ds.sources.items():
                if src.id not in sources:
                    sources[src.id] = cldf2clld(src, contrib, len(sources) + 1)
            import_dataset(ds, contrib, languoids, conceptsets, sources,
                           values)
            DBSession.flush()
        # import cognates:
        if cldfdir.joinpath('cognates.csv').exists():
            for csid, cognates in groupby(
                    reader(cldfdir.joinpath('cognates.csv'), dicts=True),
                    lambda i: i['Cognate_set_ID']):
                cs = Cognateset(id=unique_id(contrib, csid),
                                contribution=contrib)
                for cognate in cognates:
                    cp = values['Counterpart'].get(cognate['Word_ID'])
                    if cp:
                        DBSession.add(
                            CognatesetCounterpart(
                                cognateset=cs,
                                counterpart=cp,
                                cognate_detection_method=cognate[
                                    'Cognate_detection_method'],
                                alignment=cognate['Alignment'],
                                alignment_method=cognate['Alignment_method'],
                                doubt=cognate['Doubt'] == 'True'))
Beispiel #16
0
    def test_load_families(self):
        from clld_glottologfamily_plugin.util import load_families

        class Languoid(object):
            id = 'abcd1234'
            iso_code = 'abc'
            name = 'language'
            latitude = 1.0
            longitude = 1.0
            macroareas = ['Area']

            @property
            def family(self):
                return self

        class Glottolog(object):
            def languoid(self, code):
                return Languoid()

        load_families(Data(),
                      DBSession.query(LanguageWithFamily),
                      glottolog=Glottolog())
Beispiel #17
0
def main(args):
    meta = parse_meta(args)
    sources = {}
    for m in meta.values():
        for s in m.sources:
            sources[s] = None
    for i, s in enumerate(sources):
        sources[s] = get_source(s, i + 1)

    glottocodes = glottocodes_by_isocode('postgresql://robert@/glottolog3')

    data = Data()

    wals = create_engine('postgresql://robert@/wals3')
    wals_families = {}
    for row in wals.execute('select name, id from family'):
        wals_families[row[0]] = row[1]
        wals_families[row[1]] = row[1]

    #for item in reader(args.data_file('WALSFamilyAbbreviations.tab'), namedtuples=True, encoding='latin1'):
    #    name = item.FAMILY
    #    if name not in wals_families:
    #        name = slug(name)
    #        if name not in wals_families:
    #            print('missing wals family:', item.FAMILY)
    #            name = None
    #    if name:
    #        wals_families[item.ABBREVIATION] = wals_families[name]

    wals_genera = {row[0]: row[0] for row in wals.execute('select id from genus')}

    with args.data_file('listss18.txt').open(encoding='latin1') as fp:
        wordlists = ['\n'.join(lines) for lines in parse(fp)]

    dataset = common.Dataset(
        id=asjp.__name__,
        name="The ASJP Database",
        contact="*****@*****.**",
        description="The Automated Similarity Judgment Program",
        domain='asjp.clld.org',
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="https://www.shh.mpg.de",
        license='http://creativecommons.org/licenses/by/4.0/',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})
    DBSession.add(dataset)

    transcribers = get_transcriber_map(args)
    for i, spec in enumerate([
        ('SW', "Søren Wichmann"),
        ('AM', "André Müller"),
        ('AKW', "Annkathrin Wett"),
        ('VV', "Viveka Velupillai"),
        ('JB', "Julia Bischoffberger"),
        ('CB', "Cecil H. Brown"),
        ('EH', "Eric W. Holman"),
        ('SS', "Sebastian Sauppe"),
        ('ZM', "Zarina Molochieva"),
        ('PB', "Pamela Brown"),
        ('HH', "Harald Hammarström"),
        ('OB', "Oleg Belyaev"),
        ('JML', "Johann-Mattis List"),
        ('DBA', "Dik Bakker"),
        ('DE', "Dmitry Egorov"),
        ('MU', "Matthias Urban"),
        ('RM', "Robert Mailhammer"),
        ('AC', "Agustina Carrizo"),
        ('MSD', "Matthew S. Dryer"),
        ('EK', "Evgenia Korovina"),
        ('DB', "David Beck"),
        ('HG', "Helen Geyer"),
        ('PE', "Patience Epps"),
        ('AG', "Anthony Grant"),
        ('PS', "Paul Sidwell"),  # not in citation
        ('KTR', "K. Taraka Rama"),  # not in citation
        ('PV', "Pilar Valenzuela"),
        ('MD', "Mark Donohue"),  # not in citation
    ]):
        id_, name = spec
        if id_ in transcribers:
            assert name == transcribers.pop(id_)
        contributor = data.add(common.Contributor, id_, id=id_, name=name)
        if id_ in ['SW', 'EH', 'CB']:
            DBSession.add(common.Editor(
                dataset=dataset,
                ord=i + 1,
                contributor=contributor))
    for id_, name in transcribers.items():
        data.add(common.Contributor, id_, id=id_, name=name)

    for id_ in sorted(models.MEANINGS_ALL.keys()):
        data.add(
            models.Meaning, id_,
            id=str(id_), name=models.MEANINGS_ALL[id_], core=id_ in models.MEANINGS)

    for n, l in enumerate(wordlists):
        #if n > 100:
        #    break
        lang = models.Doculect.from_txt(l)
        if lang.classification_wals:
            family, genus = lang.classification_wals.split('.')
            lang.wals_family = wals_families.get(family)
            lang.wals_genus = wals_genera.get(slug(genus))
        lang.code_glottolog = glottocodes.get(lang.code_iso)
        add_codes(lang)
        data.add(models.Doculect, lang.id, _obj=lang)
        DBSession.flush()
        md = meta.pop(lang.id, None)
        assert md
        # associate transcribers and sources
        for i, transcriber in enumerate(md.transcribers):
            common.ContributionContributor(
                contribution=lang.wordlist,
                contributor=data['Contributor'][transcriber],
                ord=i + 1)
        for source in md.sources:
            DBSession.add(
                common.LanguageSource(language_pk=lang.pk, source_pk=sources[source].pk))

    print(list(meta.keys()))
Beispiel #18
0
def load(args):
    glottolog = args.repos
    fts.index('fts_index', models.Ref.fts, DBSession.bind)
    DBSession.execute("CREATE EXTENSION IF NOT EXISTS unaccent WITH SCHEMA public;")
    version = assert_release(glottolog.repos)
    dataset = common.Dataset(
        id='glottolog',
        name="{0} {1}".format(glottolog.publication.web.name, version),
        publisher_name=glottolog.publication.publisher.name,
        publisher_place=glottolog.publication.publisher.place,
        publisher_url=glottolog.publication.publisher.url,
        license=glottolog.publication.license.url,
        domain=purl.URL(glottolog.publication.web.url).domain(),
        contact=glottolog.publication.web.contact,
        jsondata={'license_icon': 'cc-by.png', 'license_name': glottolog.publication.license.name},
    )
    data = Data()

    for e in glottolog.editors.values():
        if e.current:
            ed = data.add(common.Contributor, e.id, id=e.id, name=e.name)
            common.Editor(dataset=dataset, contributor=ed, ord=int(e.ord))
    DBSession.add(dataset)

    contrib = data.add(common.Contribution, 'glottolog', id='glottolog', name='Glottolog')
    DBSession.add(common.ContributionContributor(
        contribution=contrib, contributor=data['Contributor']['hammarstroem']))

    #
    # Add Parameters:
    #
    add = functools.partial(add_parameter, data)
    add('fc', name='Family classification')
    add('sc', name='Subclassification')
    add('aes',
        args.repos.aes_status.values(),
        name=args.repos.aes_status.__defaults__['name'],
        pkw=dict(
            jsondata=dict(
                reference_id=args.repos.aes_status.__defaults__['reference_id'],
                sources=[attr.asdict(v) for v in args.repos.aes_sources.values()],
                scale=[attr.asdict(v) for v in args.repos.aes_status.values()])),
        dekw=lambda de: dict(name=de.name, number=de.ordinal, jsondata=dict(icon=de.icon)),
    )
    add('med',
        args.repos.med_types.values(),
        name='Most Extensive Description',
        dekw=lambda de: dict(
            name=de.name, description=de.description, number=de.rank, jsondata=dict(icon=de.icon)),
    )
    add('macroarea',
        args.repos.macroareas.values(),
        pkw=dict(
            description=args.repos.macroareas.__defaults__['description'],
            jsondata=dict(reference_id=args.repos.macroareas.__defaults__['reference_id'])),
        dekw=lambda de: dict(
            name=de.name,
            description=de.description,
            jsondata=dict(geojson=read_macroarea_geojson(args.repos, de.name, de.description)),
        ),
    )
    add('ltype',
        args.repos.language_types.values(),
        name='Language Type',
        dekw=lambda de: dict(name=de.category, description=de.description),
        delookup='category',
    )
    add('country',
        args.repos.countries,
        dekw=lambda de: dict(name=de.id, description=de.name),
    )

    legacy = jsonlib.load(gc2version(args))
    for gc, version in legacy.items():
        data.add(models.LegacyCode, gc, id=gc, version=version)

    #
    # Now load languoid data, keeping track of relations that can only be inserted later.
    #
    lgsources = defaultdict(list)
    # Note: We rely on languoids() yielding languoids in the "right" order, i.e. such that top-level
    # nodes will precede nested nodes. This order must be preserved using an `OrderedDict`:
    nodemap = OrderedDict([(l.id, l) for l in glottolog.languoids()])
    lgcodes = {k: v.id for k, v in args.repos.languoids_by_code(nodemap).items()}
    for lang in nodemap.values():
        for ref in lang.sources:
            lgsources['{0.provider}#{0.bibkey}'.format(ref)].append(lang.id)
        load_languoid(glottolog, data, lang, nodemap)

    for gc in glottolog.glottocodes:
        if gc not in data['Languoid'] and gc not in legacy:
            common.Config.add_replacement(gc, None, model=common.Language)

    for obj in jsonlib.load(glottolog.references_path('replacements.json')):
        common.Config.add_replacement(
            '{0}'.format(obj['id']),
            '{0}'.format(obj['replacement']) if obj['replacement'] else None,
            model=common.Source)

    DBSession.flush()

    for doctype in glottolog.hhtypes:
        data.add(
            models.Doctype, doctype.id, id=doctype.id,
            name=doctype.name,
            description=doctype.description,
            abbr=doctype.abbv,
            ord=doctype.rank)

    for bib in glottolog.bibfiles:
        data.add(
            models.Provider,
            bib.id,
            id=bib.id,
            name=bib.title,
            description=bib.description,
            abbr=bib.abbr,
            url=bib.url)
    DBSession.flush()

    s = time()
    for i, entry in enumerate(
            BibFile(glottolog.build_path('monster-utf8.bib'), api=glottolog).iterentries()):
        if i % 10000 == 0:
            args.log.info('{0}: {1:.3}'.format(i, time() - s))
            s = time()
        ref = load_ref(data, entry, lgcodes, lgsources)
        if 'macro_area' in entry.fields:
            mas = []
            for ma in split_text(entry.fields['macro_area'], separators=',;', strip=True):
                ma = 'North America' if ma == 'Middle America' else ma
                ma = glottolog.macroareas.get('Papunesia' if ma == 'Papua' else ma)
                mas.append(ma.name)
            ref.macroareas = ', '.join(mas)
Beispiel #19
0
def main(args):
    # determine if we run on a machine where other databases are available for lookup
    # locally:
    data = Data()
    genera = get_genera(data) if astroman else {}
    glottocodes, lnames, geocoords = {}, {}, {}
    if astroman:
        for k, v in glottocodes_by_isocode(
                'postgresql://robert@/glottolog3',
                cols=['id', 'name', 'latitude', 'longitude']).items():
            glottocodes[k] = v[0]
            lnames[k] = v[1]
            geocoords[k] = (v[2], v[3])

    refs = defaultdict(list)
    for row in get_rows(args, 'BibtexKey'):
        if row[1] == 'NO SOURCE GIVEN':
            refs[row[0]] = []
        else:
            refs[row[0]].append(row[1])
    add_sources(args, data)

    dataset = data.add(
        common.Dataset, 'phoible',
        id='phoible',
        name='PHOIBLE Online',
        description='PHOIBLE Online',
        publisher_name="Max Planck Institute for Evolutionary Anthropology",
        publisher_place="Leipzig",
        publisher_url="http://www.eva.mpg.de",
        domain='phoible.org',
        license='http://creativecommons.org/licenses/by-sa/3.0/',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'http://i.creativecommons.org/l/by-sa/3.0/88x31.png',
            'license_name':
                'Creative Commons Attribution-ShareAlike 3.0 Unported License'})

    for i, spec in enumerate([
        ('moran', "Steven Moran"),
        ('mccloy', "Daniel McCloy"),
        ('wright', "Richard Wright"),
    ]):
        DBSession.add(common.Editor(
            dataset=dataset,
            ord=i + 1,
            contributor=common.Contributor(id=spec[0], name=spec[1])))

    squibs = defaultdict(list)
    for row in get_rows(args, 'Squib'):
        squibs[row[0]].append(row[1])

    source_urls = dict(get_rows(args, 'URL'))
    ia_urls = dict(get_rows(args, 'InternetArchive'))

    aggregated = list(reader(args.data_file('phoible-aggregated.tsv'), namedtuples=True))
    inventory_names = {}
    for key, items in groupby(
            sorted(aggregated, key=lambda t: (t.LanguageCode, t.Source)),
            key=lambda t: (t.LanguageCode, t.Source)):
        items = list(items)

        lname = lnames.get(key[0])
        if not lname:
            lname = items[0].LanguageName
            lnames[key[0]] = lname

        if len(items) == 1:
            inventory_names[items[0].InventoryID] = '%s (%s)' % (lname, key[1])
        else:
            for i, item in enumerate(items):
                inventory_names[item.InventoryID] = '%s %s (%s)' % (lname, i + 1, key[1])

    family_map = {
        ("Arawakan", "arwk"): "Arawakan",
        ("Trans-New Guinea", "trng"): "Trans-New Guinea",
        ("Moklen", "anes"): "Austronesian",
        ("Oko", "ncon"): "Niger-Congo",
        ("Muniche", "saso"): "Muniche",
        ("Tinigua", "saso"): "Tinigua",
        ("Vilela", "luvi"): "Vilela",
        ("Ofayé", "macg"): "Kamakanan",
        ("Purian", "macg"): "PurianPrint",
        ("Mixed language", "saml"): "Mixed language",
        ("Tupian", "tupi"): "Tupian",
        ("Yuwana", "saun"): "YuwanaPrint",
    }
    family_code_map = {k[1]: v for k, v in family_map.items()}

    for row in aggregated:
        lang = data['Variety'].get(row.LanguageCode)
        if not lang:
            if row.LanguageFamilyGenus == 'UNCLASSIFIED':
                genus = None
            else:
                genus_id = slug(strip_quotes(row.LanguageFamilyGenus))
                genus = genera.get(genus_id)
                if not genus:
                    genus = genera.get(row.LanguageCode)
                    if not genus:
                        #print(row.LanguageFamilyGenus, row.LanguageFamilyRoot)
                        family = family_map.get(
                            (row.LanguageFamilyGenus, row.LanguageFamilyRoot))
                        genus = genera[genus_id] = data.add(
                            models.Genus, genus_id,
                            id=genus_id,
                            name=row.LanguageFamilyGenus,
                            description=family or row.LanguageFamilyRoot,
                            active=False,
                            root=row.LanguageFamilyRoot)

                if not genus.root:
                    genus.root = row.LanguageFamilyRoot

                if genus.description in family_code_map:
                    genus.description = family_code_map[genus.description]

            if row.LanguageCode in geocoords:
                coords = geocoords[row.LanguageCode]
            elif row.Latitude != 'NULL' and row.Longitude != 'NULL':
                coords = (float(row.Latitude), float(row.Longitude))
            lang = data.add(
                models.Variety, row.LanguageCode,
                id=row.LanguageCode,
                name=lnames[row.LanguageCode],
                genus=genus,
                country=strip_quotes(row.Country),
                area=strip_quotes(row.Area),
                latitude=coords[0],
                longitude=coords[1],
                jsondata=dict(inventory_id=row.InventoryID))
            add_language_codes(data, lang, row.LanguageCode, glottocodes=glottocodes)

        contributor = data['Contributor'].get(row.Source)
        if not contributor:
            contributor = data.add(
                common.Contributor, row.Source,
                id=row.Source,
                name=SOURCES[row.Source][0],
                description=SOURCES[row.Source][2])
            for ref in SOURCES[row.Source][1]:
                DBSession.add(models.ContributorReference(
                    source=data['Source'][ref], contributor=contributor))

        contrib = data.add(
            models.Inventory, row.InventoryID,
            id=row.InventoryID,
            language=lang,
            source=row.Source,
            source_url=source_urls.get(row.InventoryID),
            internetarchive_url=ia_urls.get(row.InventoryID),
            name=inventory_names[row.InventoryID],
            description=row.LanguageName)

        DBSession.add(common.ContributionContributor(
            contribution=contrib, contributor=contributor))

        for j, squib in enumerate(squibs.get(row.InventoryID, [])):
            f = common.Contribution_files(
                object=contrib,
                id='squib-%s-%s.pdf' % (contrib.id, j + 1),
                name='Phonological squib',
                description=squib,
                mime_type='application/pdf')
            assert f
            # f.create(files_dir, file(args.data_file('phonological_squibs', src)).read())

    DBSession.flush()
    unknown_refs = {}

    for row in reader(args.data_file('phoible-phonemes.tsv'), namedtuples=True):
        inventory = data['Inventory'][row.InventoryID]
        segment = data['Segment'].get(row.Phoneme)
        if not segment:
            unicode_desc = [(c, unicodedata.name(c)) for c in row.Phoneme]
            description = ' - '.join([t[1] for t in unicode_desc])
            segment = data.add(
                models.Segment, row.Phoneme,
                id=b16encode(md5(description).digest()),
                name=row.Phoneme,
                description=description,
                equivalence_class=''.join(
                    [t[0] for t in unicode_desc
                     if t[1].split()[0] not in ['COMBINING', 'MODIFIER']]),
                segment_class=row.Class,
                combined_class=row.CombinedClass)
            DBSession.flush()

        vs = common.ValueSet(
            id=row.PhonemeID,
            contribution=inventory,
            language=inventory.language,
            parameter=segment)

        for ref in refs.get(row.InventoryID, []):
            if ref not in data['Source']:
                if ref not in unknown_refs:
                    print('-------', ref)
                unknown_refs[ref] = 1
                continue
            DBSession.add(common.ValueSetReference(
                source=data['Source'][ref],
                valueset=vs))

        DBSession.add(common.Value(
            id=row.PhonemeID,
            name='%s %s' % (row.Phoneme, data['Inventory'][row.InventoryID].name),
            valueset=vs))
        DBSession.flush()

    for inventory_id in refs:
        for ref in refs[inventory_id]:
            if ref not in data['Source']:
                continue
            data.add(
                common.ContributionReference, '%s-%s' % (inventory_id, ref),
                source=data['Source'][ref],
                contribution=data['Inventory'][inventory_id])

    for i, row in enumerate(reader(args.data_file('phoible-segments-features.tsv'))):
        if i == 0:
            features = list(map(feature_name, row))
            continue

        if row[0] not in data['Segment']:
            # print('skipping feature vector:', row)
            continue
        for j, value in enumerate(row):
            if j and value != '0':
                DBSession.add(common.Parameter_data(
                    key=features[j],
                    value=value,
                    ord=j,
                    object_pk=data['Segment'][row[0]].pk))
    DBSession.flush()
Beispiel #20
0
def main(args):
    if DBSession.bind.dialect.name == 'postgresql':
        Index('ducet', collkey(common.Value.name)).create(DBSession.bind)

    def data_file(*comps):
        return Path(args.data_repos).joinpath('tsammalexdata', 'data', *comps)

    data = Data()
    data.add(
        common.Dataset,
        'tsammalex',
        id="tsammalex",
        name="Tsammalex",
        description="Tsammalex: A lexical database on plants and animals",
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="http://www.shh.mpg.de",
        domain='tsammalex.clld.org',
        license='http://creativecommons.org/licenses/by/4.0/',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})
    data.add(common.Contribution, 'tsammalex', name="Tsammalex", id="tsammalex")

    for rec in Database.from_file(data_file('sources.bib'), lowercase=True):
        data.add(models.Bibrec, rec.id, _obj=bibtex2source(rec, cls=models.Bibrec))

    load_ecoregions(data_file, data)
    load_countries(data)
    second_languages = {}

    def languoid_visitor(lang, row, _):
        add_language_codes(
            data, lang, lang.id.split('-')[0], None, glottocode=row[2] or None)
        second_languages[row[0]] = row[8]

    def habitat_visitor(cat, *_):
        cat.is_habitat = True

    def taxon_visitor(auto, taxon, *_):
        if auto.get(taxon.id):
            update_taxon_data(taxon, auto[taxon.id], data)
        else:
            print('--> missing in taxa.json:', taxon.id, taxon.name)
        taxon.countries_str = ' '.join([e.id for e in taxon.countries])
        taxon.ecoregions_str = ' '.join([e.id for e in taxon.ecoregions])

    auto = {s['id']: s for s in jsonload(data_file('taxa.json'))}
    for model, kw in [
        (models.Lineage, {}),
        (models.Use, {}),
        (models.TsammalexContributor, {}),
        (models.Languoid, dict(visitor=languoid_visitor)),
        (models.Category, dict(name='categories')),
        (models.Category, dict(name='habitats', visitor=habitat_visitor)),
        (models.Taxon, dict(visitor=partial(taxon_visitor, auto))),
        (models.Name, dict(filter_=lambda r: 'xxx' not in r[1])),
    ]:
        from_csv(data_file, model, data, **kw)

    for key, ids in second_languages.items():
        target = data['Languoid'][key]
        for lid in models.split_ids(ids):
            if lid in data['Languoid']:
                # we ignore 2nd languages which are not yet in Tsammalex.
                target.second_languages.append(data['Languoid'][lid])

    def image_url(source_url, type_):
        return re.sub('\.[a-zA-Z]+$', '.jpg', source_url).replace(
            '/original/', '/%s/' % type_)

    for fname in data_files(data_file, 'images.csv'):

        for image in reader(fname, namedtuples=True, delimiter=","):
            if image.taxa__id not in data['Taxon']:
                continue

            url = URL(image.source_url)
            if url.host() != 'edmond.mpdl.mpg.de':
                continue

            jsondata = dict(
                url=image.source_url,
                thumbnail=image_url(image.source_url, 'thumbnail'),
                web=image_url(image.source_url, 'web'))

            f = common.Parameter_files(
                object=data['Taxon'][image.taxa__id],
                id=image.id,
                name=image.tags,
                jsondata=jsondata,
                mime_type=image.mime_type)
            for k in 'source creator date place comments permission'.split():
                v = getattr(image, k)
                if v:
                    models.ImageData(key=k, value=v, image=f)
Beispiel #21
0
def main(args):
    # determine if we run on a machine where other databases are available for lookup
    # locally:
    data = Data()
    genera = get_genera(data) if astroman else {}
    glottocodes, lnames, geocoords = {}, {}, {}
    if astroman:
        for k, v in glottocodes_by_isocode(
                'postgresql://robert@/glottolog3',
                cols=['id', 'name', 'latitude', 'longitude']).items():
            glottocodes[k] = v[0]
            lnames[k] = v[1]
            geocoords[k] = (v[2], v[3])

    refs = defaultdict(list)
    for row in get_rows(args, 'BibtexKey'):
        if row[1] == 'NO SOURCE GIVEN':
            refs[row[0]] = []
        else:
            refs[row[0]].append(row[1])
    add_sources(args, data)

    dataset = data.add(
        common.Dataset,
        'phoible',
        id='phoible',
        name='PHOIBLE Online',
        description='PHOIBLE Online',
        publisher_name="Max Planck Institute for Evolutionary Anthropology",
        publisher_place="Leipzig",
        publisher_url="http://www.eva.mpg.de",
        domain='phoible.org',
        license='http://creativecommons.org/licenses/by-sa/3.0/',
        contact='*****@*****.**',
        jsondata={
            'license_icon':
            'http://i.creativecommons.org/l/by-sa/3.0/88x31.png',
            'license_name':
            'Creative Commons Attribution-ShareAlike 3.0 Unported License'
        })

    for i, spec in enumerate([
        ('moran', "Steven Moran"),
        ('mccloy', "Daniel McCloy"),
        ('wright', "Richard Wright"),
    ]):
        DBSession.add(
            common.Editor(dataset=dataset,
                          ord=i + 1,
                          contributor=common.Contributor(id=spec[0],
                                                         name=spec[1])))

    squibs = defaultdict(list)
    for row in get_rows(args, 'Squib'):
        squibs[row[0]].append(row[1])

    source_urls = dict(get_rows(args, 'URL'))
    ia_urls = dict(get_rows(args, 'InternetArchive'))

    aggregated = list(
        reader(args.data_file('phoible-aggregated.tsv'), namedtuples=True))
    inventory_names = {}
    for key, items in groupby(sorted(aggregated,
                                     key=lambda t: (t.LanguageCode, t.Source)),
                              key=lambda t: (t.LanguageCode, t.Source)):
        items = list(items)

        lname = lnames.get(key[0])
        if not lname:
            lname = items[0].LanguageName
            lnames[key[0]] = lname

        if len(items) == 1:
            inventory_names[items[0].InventoryID] = '%s (%s)' % (lname, key[1])
        else:
            for i, item in enumerate(items):
                inventory_names[item.InventoryID] = '%s %s (%s)' % (lname, i +
                                                                    1, key[1])

    family_map = {
        ("Arawakan", "arwk"): "Arawakan",
        ("Trans-New Guinea", "trng"): "Trans-New Guinea",
        ("Moklen", "anes"): "Austronesian",
        ("Oko", "ncon"): "Niger-Congo",
        ("Muniche", "saso"): "Muniche",
        ("Tinigua", "saso"): "Tinigua",
        ("Vilela", "luvi"): "Vilela",
        ("Ofayé", "macg"): "Kamakanan",
        ("Purian", "macg"): "PurianPrint",
        ("Mixed language", "saml"): "Mixed language",
        ("Tupian", "tupi"): "Tupian",
        ("Yuwana", "saun"): "YuwanaPrint",
    }
    family_code_map = {k[1]: v for k, v in family_map.items()}

    for row in aggregated:
        lang = data['Variety'].get(row.LanguageCode)
        if not lang:
            if row.LanguageFamilyGenus == 'UNCLASSIFIED':
                genus = None
            else:
                genus_id = slug(strip_quotes(row.LanguageFamilyGenus))
                genus = genera.get(genus_id)
                if not genus:
                    genus = genera.get(row.LanguageCode)
                    if not genus:
                        #print(row.LanguageFamilyGenus, row.LanguageFamilyRoot)
                        family = family_map.get(
                            (row.LanguageFamilyGenus, row.LanguageFamilyRoot))
                        genus = genera[genus_id] = data.add(
                            models.Genus,
                            genus_id,
                            id=genus_id,
                            name=row.LanguageFamilyGenus,
                            description=family or row.LanguageFamilyRoot,
                            active=False,
                            root=row.LanguageFamilyRoot)

                if not genus.root:
                    genus.root = row.LanguageFamilyRoot

                if genus.description in family_code_map:
                    genus.description = family_code_map[genus.description]

            if row.LanguageCode in geocoords:
                coords = geocoords[row.LanguageCode]
            elif row.Latitude != 'NULL' and row.Longitude != 'NULL':
                coords = (float(row.Latitude), float(row.Longitude))
            lang = data.add(models.Variety,
                            row.LanguageCode,
                            id=row.LanguageCode,
                            name=lnames[row.LanguageCode],
                            genus=genus,
                            country=strip_quotes(row.Country),
                            area=strip_quotes(row.Area),
                            latitude=coords[0],
                            longitude=coords[1],
                            jsondata=dict(inventory_id=row.InventoryID))
            add_language_codes(data,
                               lang,
                               row.LanguageCode,
                               glottocodes=glottocodes)

        contributor = data['Contributor'].get(row.Source)
        if not contributor:
            contributor = data.add(common.Contributor,
                                   row.Source,
                                   id=row.Source,
                                   name=SOURCES[row.Source][0],
                                   description=SOURCES[row.Source][2])
            for ref in SOURCES[row.Source][1]:
                DBSession.add(
                    models.ContributorReference(source=data['Source'][ref],
                                                contributor=contributor))

        contrib = data.add(models.Inventory,
                           row.InventoryID,
                           id=row.InventoryID,
                           language=lang,
                           source=row.Source,
                           source_url=source_urls.get(row.InventoryID),
                           internetarchive_url=ia_urls.get(row.InventoryID),
                           name=inventory_names[row.InventoryID],
                           description=row.LanguageName)

        DBSession.add(
            common.ContributionContributor(contribution=contrib,
                                           contributor=contributor))

        for j, squib in enumerate(squibs.get(row.InventoryID, [])):
            f = common.Contribution_files(object=contrib,
                                          id='squib-%s-%s.pdf' %
                                          (contrib.id, j + 1),
                                          name='Phonological squib',
                                          description=squib,
                                          mime_type='application/pdf')
            assert f
            # f.create(files_dir, file(args.data_file('phonological_squibs', src)).read())

    DBSession.flush()
    unknown_refs = {}

    for row in reader(args.data_file('phoible-phonemes.tsv'),
                      namedtuples=True):
        inventory = data['Inventory'][row.InventoryID]
        segment = data['Segment'].get(row.Phoneme)
        if not segment:
            unicode_desc = [(c, unicodedata.name(c)) for c in row.Phoneme]
            description = ' - '.join([t[1] for t in unicode_desc])
            segment = data.add(
                models.Segment,
                row.Phoneme,
                id=b16encode(md5(description).digest()),
                name=row.Phoneme,
                description=description,
                equivalence_class=''.join([
                    t[0] for t in unicode_desc
                    if t[1].split()[0] not in ['COMBINING', 'MODIFIER']
                ]),
                segment_class=row.Class,
                combined_class=row.CombinedClass)
            DBSession.flush()

        vs = common.ValueSet(id=row.PhonemeID,
                             contribution=inventory,
                             language=inventory.language,
                             parameter=segment)

        for ref in refs.get(row.InventoryID, []):
            if ref not in data['Source']:
                if ref not in unknown_refs:
                    print('-------', ref)
                unknown_refs[ref] = 1
                continue
            DBSession.add(
                common.ValueSetReference(source=data['Source'][ref],
                                         valueset=vs))

        DBSession.add(
            common.Value(
                id=row.PhonemeID,
                name='%s %s' %
                (row.Phoneme, data['Inventory'][row.InventoryID].name),
                valueset=vs))
        DBSession.flush()

    for inventory_id in refs:
        for ref in refs[inventory_id]:
            if ref not in data['Source']:
                continue
            data.add(common.ContributionReference,
                     '%s-%s' % (inventory_id, ref),
                     source=data['Source'][ref],
                     contribution=data['Inventory'][inventory_id])

    for i, row in enumerate(
            reader(args.data_file('phoible-segments-features.tsv'))):
        if i == 0:
            features = list(map(feature_name, row))
            continue

        if row[0] not in data['Segment']:
            # print('skipping feature vector:', row)
            continue
        for j, value in enumerate(row):
            if j and value != '0':
                DBSession.add(
                    common.Parameter_data(
                        key=features[j],
                        value=value,
                        ord=j,
                        object_pk=data['Segment'][row[0]].pk))
    DBSession.flush()
Beispiel #22
0
def main(args):
    db = create_engine('sqlite:///' + args.data_file('sqlite3.db').resolve().as_posix())

    data = Data()

    dataset = common.Dataset(
        id=tsezacp.__name__,
        name="The Tsez Annotated Corpus Project",
        publisher_name="Max Planck Institute for Evolutionary Anthropology",
        publisher_place="Leipzig",
        publisher_url="http://www.eva.mpg.de",
        contact='*****@*****.**',
        domain='tsezacp.clld.org',
        license='http://creativecommons.org/licenses/by/4.0/',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})
    DBSession.add(dataset)

    #
    # TODO: add editors!
    #

    lang = data.add(common.Language, 'tsez', id='tsez', name='Tsez')

    for row in db.execute('select * from texts_data_text'):
        data.add(
            models.Text, row.id,
            id=str(row.Number),
            ord=row.Number,
            name=row.Title_in_Tsez,
            description=row.Title_in_English,
            russian=row.Title_in_Russian)

    for row in db.execute('select * from texts_data_line'):
        text = data['Text'][row.to_Text_id]
        data.add(
            models.Line, row.id,
            id='%s-%s' % (text.id, row.Line_Position),
            ord=row.Line_Position,
            language=lang,
            text=text,
            name=row.Tsez_Line,
            description=row.English_Translation,
            russian=row.Russian_Translation)

    for row in db.execute('select w.id, w.to_Line_id, w.Lex_Position, w.Word_in_Phrase, w.Word_Clear, m.id, m.Position, m.Value, m.Gloss, m.Part_of_Speech from texts_data_word as w, texts_data_morpheme as m where m.to_Word_id = w.id order by w.to_Line_id, w.Lex_Position, m.Position'):
        wid, lid, wpos, wname, wclear, mid, mpos, mname, mgloss, mpartofspeech = row
        if wid in data['WordInLine']:
            w = data['WordInLine'][wid]
        else:
            w = data.add(
                models.WordInLine, wid,
                id=str(wid),
                ord=wpos,
                name=wname,
                description=wclear,
                line=data['Line'][lid])

        w.morphemes.append(models.MorphemeInWord(
            id=str(mid),
            ord=mpos,
            name=mname,
            description=mgloss,
            normgloss=mgloss[1:] if mgloss.startswith('-') else mgloss,
            pos=mpartofspeech.replace('-', '').strip()))

    for lid in sorted(data['Line'].keys()):
        line = data['Line'][lid]
        #print line.name
        #print '  '.join(w.name for w in line.words)
        line.analyzed = '\t'.join('\t'.join(m.name for m in w.morphemes) for w in line.words)
        line.gloss = '\t'.join('\t'.join(m.description for m in w.morphemes) for w in line.words)

    for row in db.execute('select * from texts_data_glossary'):
        data.add(
            models.Morpheme, row.id,
            id=str(row.id),
            name=row.Value,
            language=lang,
            description=row.Gloss,
            notes=row.Notes,
            pos=row.Part_of_Speech.replace('-', '').strip())
Beispiel #23
0
def main(args):
    data = Data()

    for rec in Database.from_file(
            data_path('references.bib'), lowercase=False):
        source = data.add(common.Source, rec.id, _obj=bibtex2source(rec))
    
    dataset = common.Dataset(
        id=clts.__name__,
        name="CLTS",
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="http://www.shh.mpg.de",
        license="http://creativecommons.org/licenses/by/4.0/",
        contact='*****@*****.**',
        domain='clts.clld.org',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})
    DBSession.add(dataset)
    for i, name in enumerate(['Johann-Mattis List', 'Cormac Anderson', 'Tiago Tresoldi', 
        'Thiago Chacon', 'Robert Forkel']):
        c = common.Contributor(id=slug(name), name=name)
        dataset.editors.append(common.Editor(contributor=c, ord=i))

    for i, line in enumerate(reader(data_path('sounds.tsv'), delimiter='\t',
            namedtuples=True)):
        if not i % 100:
            print('-', end="")
        key = line.NAME.replace(' ', '_')
        data.add(
                models.SoundSegment,
                key,
                id=key,
                name = line.NAME,
                grapheme=line.GRAPHEME,
                aliases=line.ALIASES,
                representation=len(line.REFLEXES.split(',')),
                reflexes = line.REFLEXES,
                generated = True if line.GENERATED else False,
                unicode = line.UNICODE,
                )
    print('')
    english = data.add(
        common.Language, 'eng',
        id='eng',
        name='English')



    contributions = {}
    for line in reader(data_path('datasets.tsv'),
            delimiter='\t', namedtuples=True):
        contributions[line.NAME] = data.add(
                models.CLTSDataSet,
                line.NAME,
                id=line.NAME,
                name=line.NAME,
                description=line.DESCRIPTION,
                datatype=line.TYPE
                )
        for id_ in line.REFS.split(', '):
            common.ContributionReference(
                    source=data['Source'][id_],
                    contribution=contributions[line.NAME])
    
        
    visited = set()
    for i, line in enumerate(reader(data_path('graphemes.tsv'), delimiter="\t",
            namedtuples=True)):
        if not i % 100: print('-', end='')
        key = line.DATASET + ':' + line.NAME+':'+line.GRAPHEME
        if key not in visited:
            sound_id = line.NAME.replace(' ', '_')
            vs = common.ValueSet(
                    id=key,
                    description=line.NAME,
                    language=english,
                    contribution=contributions[line.DATASET],
                    parameter=data['SoundSegment'][sound_id]
                    )
            data.add(
                    models.Grapheme,
                    key,
                    id=key,
                    grapheme=line.GRAPHEME,
                    bipa_grapheme=line.BIPA,
                    name=line.NAME,
                    dataset=line.DATASET,
                    datatype=line.DATATYPE,
                    frequency=line.FREQUENCY or 0,
                    image=line.IMAGE,
                    url=line.URL,
                    valueset=vs
                    )
            visited.add(key)
    print('-')
Beispiel #24
0
def main(args):
    Index('ducet', collkey(common.Value.name)).create(DBSession.bind)
    data = Data()

    def read(table):
        return list(dsv.reader(
            args.data_file(table + '.csv'), delimiter=',', namedtuples=True))

    dataset = common.Dataset(
        id=ids.__name__,
        name="IDS",
        description="The Intercontinental Dictionary Series",
        #published=date(2009, 8, 15),
        publisher_name="Max Planck Institute for Evolutionary Anthropology",
        publisher_place="Leipzig",
        publisher_url="http://www.eva.mpg.de",
        license='http://creativecommons.org/licenses/by-nc-nd/2.0/de/deed.en',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'http://i.creativecommons.org/l/by-nc-nd/2.0/de/88x31.png',
            'license_name':
                'Creative Commons Attribution-NonCommercial-NoDerivs 2.0 Germany License',
        },
        domain='ids.clld.org')

    DBSession.add(dataset)
    data_desc = defaultdict(dict)
    for l in read('x_lg_data'):
        data_desc[l.lg_id][l.map_ids_data] = l.header

    # language lang
    exclude = []
    for l in read('lang'):
        if l.status == '1':
            exclude.append(l.lg_id)
            continue
        lang = data.add(models.IdsLanguage, l.lg_id, id=l.lg_id, name=l.lg_name)
        data.add(
            models.Dictionary, l.lg_id,
            id=l.lg_id, name=l.lg_name,
            language=lang,
            default_representation=data_desc[l.lg_id].get('1'),
            alt_representation=data_desc[l.lg_id].get('2'),
            jsondata=dict(status=l.status, date=l.date))

    iso_codes = {l.id: l.sil_code for l in read('sil_lang')}
    languages = {l.lg_id: iso_codes[l.sil_id]
                 for l in read('x_lg_sil') if l.lg_id not in exclude}
    load_families(Data(), [(v, data['IdsLanguage'][k]) for k, v in languages.items()])

    contributors = defaultdict(list)
    sources = defaultdict(list)
    for l in read('lang_compilers'):
        if l.lg_id in exclude:
            continue
        if l.name == "BIBIKO":
            continue
        #name	lg_id	what_did_id
        if int(l.what_did_id) in models.ROLES:
            contributors[slug(l.name)].append((l.name, int(l.what_did_id), l.lg_id))
        else:
            if int(l.what_did_id) not in [4, 395]:
                print(l.what_did_id)
                raise ValueError
            sources[l.name].append(l.lg_id)

    for s, roles in contributors.items():
        name = roles[0][0]
        c = data.add(common.Contributor, s, id=s, name=name)
        if name == 'Mary Ritchie Key':
            c.address = 'University of California, Irvine'
        for lg, specs in groupby(sorted(roles, key=lambda r: r[2]), key=lambda r: r[2]):
            sroles = sorted(
                [s[1] for s in specs],
                reverse=True,
                key=lambda what: what + 2 if what == 2 else what)
            what = sroles[0]
            DBSession.add(common.ContributionContributor(
                contribution=data['Dictionary'][lg],
                contributor=c,
                ord=what,
                primary=what == 2))

    data.add(
        common.Contributor, 'bernardcomrie',
        id='bernardcomrie',
        name="Bernard Comrie",
        address="Max Planck Institute for Evolutionary Anthropology, Leipzig")

    for i, editor in enumerate(['maryritchiekey', 'bernardcomrie']):
        common.Editor(dataset=dataset, contributor=data['Contributor'][editor], ord=i + 1)

    for i, name in enumerate(sorted(sources.keys())):
        c = data.add(common.Source, name, id=str(i + 1), name=name, description=name)

    DBSession.flush()
    for name, lgs in sources.items():
        for lg in lgs:
            if lg in exclude:
                continue
            try:
                DBSession.add(common.LanguageSource(
                    language_pk=data['IdsLanguage'][lg].pk,
                    source_pk=data['Source'][name].pk))
            except KeyError:
                print(name, lgs)
                continue

    altnames = {}
    for i, l in enumerate(read('alt_names')):
        if l.name in altnames:
            identifier = altnames[l.name]
        else:
            identifier = data.add(
                common.Identifier, l.name,
                id='name-%s' % i, type='name', name=l.name, description='IDS')
            altnames[l.name] = identifier
        if l.lg_id not in exclude and l.name != data['IdsLanguage'][l.lg_id].name:
            DBSession.add(common.LanguageIdentifier(
                identifier=identifier,
                language=data['IdsLanguage'][l.lg_id]))

    # parameter chapter/entry
    for l in read('chapter'):
        data.add(models.Chapter, l.chap_id, id=l.chap_id, name=l.chap_title)

    entries = {}
    for l in read('entry'):
        id_ = '%s-%s' % (l.chap_id, l.entry_id)
        name = l.trans_english
        if name in entries:
            entries[name] += 1
            name = name + ' (%s)' % entries[name]
        else:
            entries[name] = 1
        kw = {'id': id_, 'name': name, 'chapter': data['Chapter'][l.chap_id]}
        for ll in 'french russian spanish portugese'.split():
            kw[ll] = getattr(l, 'trans_' + ll)
        data.add(models.Entry, id_, sub_code=l.entry_id, **kw)

    misaligned = []

    DBSession.flush()
    for entity in 'IdsLanguage Entry Chapter Dictionary'.split():
        for k in data[entity].keys()[:]:
            data[entity][k] = data[entity][k].pk

    synsets = set()

    for lg_id, entries in groupby(
            sorted(read('ids'), key=lambda t: t.lg_id), lambda k: k.lg_id):
        if lg_id in exclude or not lg_id:
            continue

        # keep the memory footprint reasonable
        transaction.commit()
        transaction.begin()

        try:
            language = common.Language.get(data['IdsLanguage'][lg_id])
        except KeyError:
            print(list(entries))
            raise
        desc = data_desc.get(lg_id, {})
        words = defaultdict(list)
        for l in entries:
            if empty.match(l.data_1):
                continue

            entry_id = '%s-%s' % (l.chap_id, l.entry_id)
            if entry_id not in data['Entry']:
                data.add(
                    models.Entry, entry_id,
                    id=entry_id,
                    name=entry_id,
                    #active=False,
                    sub_code=l.entry_id,
                    chapter_pk=data['Chapter'][l.chap_id])
                DBSession.flush()
                data['Entry'][entry_id] = data['Entry'][entry_id].pk

            id_ = '%s-%s' % (entry_id, l.lg_id)
            if id_ in synsets:
                vs = models.Synset.get(id_)
            else:
                vs = models.Synset(
                    id=id_,
                    comment=get_string(l.comment or ''),
                    alt_representation=get_string(l.data_2),
                    language=language,
                    contribution_pk=data['Dictionary'][l.lg_id],
                    parameter_pk=data['Entry'][entry_id])
                synsets.add(id_)

            trans1 = list(split_counterparts(l.data_1))
            trans2 = None if empty.match(l.data_2) else list(split_counterparts(l.data_2))

            if trans2:
                if len(trans2) != len(trans1):
                    if language.id != '238':
                        misaligned.append((l.chap_id, l.entry_id, l.lg_id))
                        #print('===', language.id, language.name)
                        #print(l.data_1)
                        #print(l.data_2)
                    #assert language.id == '238'  # Rapa Nui has problems!
                    trans2 = None

            for i, word in enumerate(trans1):
                v = models.Counterpart(
                    id=id_ + '-' + str(i + 1 + len(vs.values)),
                    name=word,
                    description=desc.get('1'),
                    valueset=vs)
                words[word].append((v, trans2[i] if trans2 else None))

        for i, form in enumerate(words.keys()):
            # Since we identify words based on their string representation, we have to
            # make sure a word has the same alternative transcription for all meanings.
            if language.id == '238':
                alt_names = []
            else:
                alt_names = set(norm(w[1] or '', desc.get('2'), language.id)
                                for w in words[form])
            alt_names = nfilter(alt_names)
            try:
                assert len(alt_names) <= 1
            except AssertionError:
                print('---', language.id, language.name)
                print(alt_names)
            word = models.Word(
                id='%s-%s' % (language.id, i + 1),
                name=form,
                description=desc.get('1'),
                language=language,
                alt_name=', '.join(alt_names) if alt_names else None,
                alt_description=desc.get('2')
            )
            for v, _ in words[form]:
                word.counterparts.append(v)
            DBSession.add(word)

        DBSession.flush()

    with dsv.UnicodeWriter(args.data_file('misaligned.csv')) as fp:
        fp.writerows(misaligned)
Beispiel #25
0
def main(args):  # pragma: no cover
    wl = Wordlist.from_metadata(args.data_file('cldf', 'cldf-metadata.json'))

    data = Data()
    data.add(
        common.Contributor, 'barthwolfgang',
        id='barthwolfgang',
        name="Wolfgang Barth",
        url="http://www.dynamicsoflanguage.edu.au/")
    #
    # FIXME: get dataset attributes from CLDF metadata!
    #
    dataset = common.Dataset(
        id='parabank',
        name='Parabank Pronouns',
        description='Database of pronouns',
        domain='parabank.clld.org',
        publisher_name="CoEDL Centre of Excellence for the Dynamics of Language",
        publisher_place="Canberra, Australia",
        publisher_url="http://www.dynamicsoflanguage.edu.au/",
        license='http://creativecommons.org/licenses/by/4.0/',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0'})
    DBSession.add(dataset)

    for i, editor in enumerate(['barthwolfgang']):
        common.Editor(dataset=dataset, contributor=data['Contributor'][editor], ord=i + 1)

    contrib = common.Contribution(id='contrib', name='the contribution')

    for l in wl['LanguageTable']:
        lang = data.add(
            models.ParabankLanguage,
            l['ID'],
            id=l['ID'],
            name=l['Name'],
            description=l['Notes'],
            source=l['Source_Citation'],
            classification=l['Classification'],
        )
        add_language_codes(data, lang, None, glottocode=l['Glottocode'])

    for p in wl['ParameterTable']:
        data.add(
            common.Parameter,
            p['ID'],
            id=p['ID'],
            name='{0} ({1})'.format(p['Name'], p['ID']),
            #description=p['Description'],
        )

    for f in wl['FormTable']:
        vsid = '{0}-{1}'.format(f['Parameter_ID'], f['Language_ID'])
        vs = data['ValueSet'].get(vsid)
        if not vs:
            vs = data.add(
                common.ValueSet,
                vsid,
                id=vsid,
                language=data['ParabankLanguage'][f['Language_ID']],
                parameter=data['Parameter'][f['Parameter_ID']],
                contribution=contrib)

        DBSession.add(models.Word(
            id=f['ID'],
            name=f['Form'],
            comment=f.get('Comment'),
            original=f['Original_parameter'],
            valueset=vs))

    load_families(
        data,
        [(l.glottocode, l) for l in data['ParabankLanguage'].values()],
        glottolog_repos=args.data_file('glottolog'),
        isolates_icon='tcccccc')
Beispiel #26
0
def import_dataset(ds, contrib, languoids, conceptsets, sources, values):
    data = Data()
    concepts = {p.id: p for p in DBSession.query(Concept)}
    langs = {l.id: l for l in DBSession.query(LexibankLanguage)}

    for i, row in enumerate(ds.rows):
        if not row['Value'] or not row['Parameter_ID'] or not row['Language_ID']:
            continue

        lid = row['Language_ID'].lower()
        if lid == 'none':
            continue

        language = langs.get(lid)
        if language is None:
            languoid = languoids.get(lid)
            if not languoid:
                continue
            langs[lid] = language = LexibankLanguage(
                id=lid,
                name=languoid.name,
                level=text_type(languoid.level.name),
                latitude=languoid.latitude,
                longitude=languoid.longitude)

        concept = concepts.get(row['Parameter_ID'])
        if concept is None:
            cs = conceptsets[row['Parameter_ID']]
            concepts[row['Parameter_ID']] = concept = Concept(
                # FIXME: get gloss and description from concepticon!
                id=row['Parameter_ID'], name=cs['GLOSS'], description=cs['DEFINITION'], semanticfield=cs['SEMANTICFIELD'])

        vsid = unique_id(contrib, '%s-%s-%s' % (ds.name, language.id, concept.id))
        vid = unique_id(contrib, row['ID'])

        vs = data['ValueSet'].get(vsid)
        if vs is None:
            vs = data.add(
                ValueSet, vsid,
                id=vsid,
                parameter=concept,
                language=language,
                contribution=contrib,
                source=None)  # FIXME: add sources!

        counterpart = values.add(
            Counterpart, row['ID'],
            id=vid,
            valueset=vs,
            name=row['Value'],
            description=row.get('Comment'),
            context=row.get('Context'),
            variety_name=row.get('Language_name'),
            loan=row.get('Loan', False),
        )

        for ref in row.refs:
            CounterpartReference(
                counterpart=counterpart,
                source=sources[ref.source.id],
                description=ref.description)
Beispiel #27
0
def main(args):
    old_db = create_engine(DB)
    data = Data()

    #
    # migrate contributor table: complete
    #
    for row in old_db.execute("select * from contributor"):
        data.add(common.Contributor,
                 row['id'],
                 id=row['id'],
                 name='%(firstname)s %(lastname)s' % row,
                 url=row['homepage'],
                 description=row['note'],
                 email=row['email'],
                 address=row['address'])
    data.add(common.Contributor,
             'haspelmathmartin',
             id='haspelmathmartin',
             name="Martin Haspelmath",
             url="http://email.eva.mpg.de/~haspelmt/")
    DBSession.flush()

    dataset = common.Dataset(
        id='wold',
        name='WOLD',
        description='World Loanword Database',
        domain='wold.clld.org',
        published=date(2009, 8, 15),
        license='http://creativecommons.org/licenses/by/3.0/de/',
        contact='*****@*****.**',
        jsondata={
            'license_icon':
            'http://i.creativecommons.org/l/by/3.0/de/88x31.png',
            'license_name': 'Creative Commons Attribution 3.0 Germany License'
        })
    DBSession.add(dataset)

    for i, editor in enumerate(['haspelmathmartin', 'tadmoruri']):
        common.Editor(dataset=dataset,
                      contributor=data['Contributor'][editor],
                      ord=i + 1)

    #
    # migrate semantic_field table: complete
    #
    for row in old_db.execute("select * from semantic_field"):
        if row['id'] != 25:
            kw = dict((key, row[key]) for key in ['id', 'name', 'description'])
            data.add(models.SemanticField, row['id'], **kw)

    #
    # migrate language table: complete
    # recipient flag is replaced by vocabulary_pk!
    #
    for row in old_db.execute("select * from language order by id"):
        kw = dict((key, row[key]) for key in [
            'fm_dl_id', 'name', 'latitude', 'longitude', 'wals_equivalent',
            'affiliation', 'family', 'genus', 'countries'
        ])
        data.add(models.WoldLanguage, row['id'], id=str(row['id']), **kw)

    #
    # migrate language_code table: complete
    #
    for row in old_db.execute("select * from language_code"):
        _id = '%(type)s-%(code)s' % row
        data.add(common.Identifier,
                 _id,
                 id=_id,
                 type=row['type'],
                 name=row['code'])
        if row['type'] == 'iso639-3' and row['code'] in glottocodes:
            gc = glottocodes[row['code']]
            data.add(common.Identifier,
                     gc,
                     id=gc,
                     type=common.IdentifierType.glottolog.value,
                     name=gc)
    DBSession.flush()

    #
    # migrate language_code_language table: complete
    #
    for row in old_db.execute("select * from language_code_language"):
        _id = '%(type)s-%(code)s' % row
        data.add(common.LanguageIdentifier,
                 '%s-%s' % (_id, row['language_id']),
                 identifier_pk=data['Identifier'][_id].pk,
                 language_pk=data['WoldLanguage'][row['language_id']].pk)
        if row['type'] == 'iso639-3' and row['code'] in glottocodes:
            gc = glottocodes[row['code']]
            data.add(common.LanguageIdentifier,
                     '%s-%s' % (gc, row['language_id']),
                     identifier_pk=data['Identifier'][gc].pk,
                     language_pk=data['WoldLanguage'][row['language_id']].pk)
    DBSession.flush()

    #
    # migrate vocabulary table: complete
    #
    for row in old_db.execute("select * from vocabulary order by id"):
        jsondata = {}
        for key in row.keys():
            if key.startswith('fd_') or key in [
                    'other_information', 'abbreviations'
            ]:
                jsondata[key] = row[key]
        vocab = data.add(models.Vocabulary,
                         row['id'],
                         id=str(row['id']),
                         name=row['name'],
                         color=row['color'],
                         jsondata=jsondata)
        DBSession.flush()
        data['WoldLanguage'][row['language_id']].vocabulary_pk = vocab.pk
    DBSession.flush()

    #
    # migrate contact_situation and age tables: complete
    # contact situations and ages are unitdomainelements!
    #
    contact_situation = common.UnitParameter(id='cs', name='Contact Situation')
    age = common.UnitParameter(id='a', name='Age')

    DBSession.add(contact_situation)
    DBSession.add(age)
    DBSession.flush()

    for row in old_db.execute("select * from contact_situation"):
        if row['vocabulary_id'] is None:
            continue
        kw = dict((key, row[key]) for key in ['description', 'id', 'name'])
        kw['id'] = 'cs-%s' % kw['id']
        p = data.add(models.WoldUnitDomainElement, row['id'], **kw)
        p.vocabulary = data['Vocabulary'][row['vocabulary_id']]
        p.unitparameter_pk = contact_situation.pk

    for row in old_db.execute("select * from age"):
        id_ = '%(vocabulary_id)s-%(label)s' % row
        kw = dict((key, row[key]) for key in ['start_year', 'end_year'])
        p = data.add(models.WoldUnitDomainElement,
                     id_,
                     id='a-%s' % id_,
                     name=row['label'],
                     description=row['description'],
                     jsondata=kw)
        p.vocabulary = data['Vocabulary'][row['vocabulary_id']]
        p.unitparameter_pk = age.pk

    #
    # migrate meaning table: complete
    #
    for row in old_db.execute("select * from meaning"):
        kw = dict((key, row[key]) for key in [
            'description', 'core_list', 'ids_code', 'typical_context',
            'semantic_category'
        ])
        p = data.add(
            models.Meaning,
            row['id'],
            id=row['id'].replace('.', '-'),
            name=row['label'],
            sub_code=row['id'].split('.')[1] if '.' in row['id'] else '',
            semantic_field=data['SemanticField'][row['semantic_field_id']],
            **kw)
        DBSession.flush()

        for field in ['french', 'spanish', 'german', 'russian']:
            DBSession.add(
                models.Translation(name=row[field], lang=field, meaning=p))

        for key in data['WoldLanguage']:
            lang = data['WoldLanguage'][key]
            data.add(common.ValueSet,
                     '%s-%s' % (key, row['id']),
                     id='%s-%s' % (key, row['id'].replace('.', '-')),
                     language=lang,
                     contribution=lang.vocabulary,
                     parameter=p)

    DBSession.flush()

    #
    # migrate word table:
    # TODO: all the other word properties!!
    #
    fields = [
        'age_label',
        'original_script',
        'grammatical_info',
        'comment_on_word_form',
        'gloss',
        "comment_on_borrowed",
        "calqued",
        "borrowed_base",
        "numeric_frequency",
        "relative_frequency",
        "effect",
        "integration",
        "salience",
        "reference",
        "other_comments",
        "register",
        "loan_history",
        'colonial_word',
        'paraphrase_in_dutch',
        'word_source',
        'paraphrase_in_german',
        'lexical_stratum',
        'comparison_with_mandarin',
        'year',
        'comparison_with_korean',
        'czech_translation',
        'hungarian_translation',
        'early_romani_reconstruction',
        'etymological_note',
        'boretzky_and_igla_etymology',
        'manuss_et_al_etymology',
        'vekerdi_etymology',
        'turner_etymology',
        'other_etymologies',
        'mayrhofer_etymology',
    ]
    word_to_vocab = {}
    for row in old_db.execute("select * from word"):
        word_to_vocab[row['id']] = row['vocabulary_id']
        kw = dict((key, row[key]) for key in [
            'id', 'age_score', 'borrowed', 'borrowed_score', 'analyzability',
            'simplicity_score'
        ])
        w = data.add(models.Word,
                     row['id'],
                     name=row['form'],
                     description=row['free_meaning'],
                     jsondata={k: row[k]
                               for k in fields},
                     **kw)
        w.language = data['Vocabulary'][row['vocabulary_id']].language

        if row['age_label']:
            DBSession.add(
                common.UnitValue(
                    id='%(id)s-a' % row,
                    unit=w,
                    unitparameter=age,
                    unitdomainelement=data['WoldUnitDomainElement'][
                        '%(vocabulary_id)s-%(age_label)s' % row],
                    contribution=data['Vocabulary'][row['vocabulary_id']]))

        if row['contact_situation_id'] and row[
                'contact_situation_id'] != '9129144185487768':
            DBSession.add(
                common.UnitValue(
                    id='%(id)s-cs' % row,
                    unit=w,
                    unitparameter=contact_situation,
                    unitdomainelement=data['WoldUnitDomainElement'][
                        row['contact_situation_id']],
                    contribution=data['Vocabulary'][row['vocabulary_id']]))

    DBSession.flush()

    #
    # migrate word_meaning table: complete
    #
    for i, row in enumerate(old_db.execute("select * from word_meaning")):
        data.add(
            models.Counterpart,
            i,
            id=i,
            description='%(relationship)s (%(comment_on_relationship)s)' % row,
            name=data['Word'][row['word_id']].name,
            valueset=data['ValueSet']['%s-%s' % (word_to_vocab[row['word_id']],
                                                 row['meaning_id'])],
            word=data['Word'][row['word_id']])
    DBSession.flush()

    #
    # migrate vocabulary_contributor table: complete
    #
    for row in old_db.execute("select * from vocabulary_contributor"):
        DBSession.add(
            common.ContributionContributor(
                ord=row['ordinal'],
                primary=row['primary'],
                contributor_pk=data['Contributor'][row['contributor_id']].pk,
                contribution_pk=data['Vocabulary'][row['vocabulary_id']].pk))

    DBSession.flush()

    #
    # source words: we have to make sure a word does only belong to one language.
    # thus, we have to reassign identifier!
    #
    # loop over source_word, source_word_donor_language pairs keeping track of source_word ids:
    known_ids = {}

    for row in old_db.execute(
            "select sw.id, sw.meaning, sw.form, dl.language_id from source_word as sw, source_word_donor_language as dl where sw.id = dl.source_word_id"
    ):
        if row['id'] in known_ids:
            # source_word was already seen associated to a different donor language!
            assert row['language_id'] not in known_ids[row['id']]
            known_ids[row['id']].append(row['language_id'])
            id_ = '%s-%s' % (row['id'], len(known_ids[row['id']]))
        else:
            id_ = '%s-%s' % (row['id'], 1)
            known_ids[row['id']] = [row['language_id']]

        new = data.add(models.Word,
                       id_,
                       id=id_,
                       name=row['form'],
                       description=row['meaning'])
        new.language = data['WoldLanguage'][row['language_id']]

    # source words may end up as words without language!
    for row in old_db.execute(
            "select id, meaning, form from source_word where id not in (select source_word_id from source_word_donor_language)"
    ):
        id_ = '%s-%s' % (row['id'], 1)
        new = data.add(models.Word,
                       id_,
                       id=id_,
                       name=row['form'],
                       description=row['meaning'])

    DBSession.flush()

    #
    # migrate word_source_word relations
    # TODO: should be modelled as UnitParameter!
    #
    j = 0
    for row in old_db.execute("select * from word_source_word"):
        # there may be more than one word associated with a source_word_id (see above)
        source_words = []
        for i in range(4):  # but we guess no more than 4 :)
            id_ = '%s-%s' % (row['source_word_id'], i + 1)
            if id_ in data['Word']:
                source_words.append(data['Word'][id_])
        if not source_words:
            j += 1
            #print(row['source_word_id'])
            #raise ValueError(row['source_word_id'])

        for sw in source_words:
            DBSession.add(
                models.Loan(source_word=sw,
                            target_word=data['Word'][row['word_id']],
                            relation=row['relationship'],
                            certain=len(source_words) == 1))

    print('%s source words not migrated because they have no donor language!' %
          j)
Beispiel #28
0
def main(args):
    data = Data()

    dataset = common.Dataset(
        id=abvd.__name__,
        name='ABVD',
        description='',
        domain='abvd.clld.org',
        published=date.today(),
        license='https://creativecommons.org/licenses/by/4.0/',
        contact='',
        jsondata={
            'doi': args.doi,
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})
    DBSession.add(dataset)

    for name in ['Simon Greenhill', 'Robert Blust', 'Russell Gray']:
        common.Editor(contributor=contributor(data, name), dataset=dataset)

    cnames = Counter()
    families = Counter([l['Family'] for l in args.cldf['LanguageTable']])
    colors = dict(
        zip([i[0] for i in families.most_common()], color.qualitative_colors(len(families))))
    cid2l = {}
    for lang in args.cldf['LanguageTable']:
        lid = (lang['Name'], lang['Glottocode'])
        l = data['Language'].get(lid)
        if not l:
            l = data.add(
                common.Language, lid,
                id=lang['ID'],
                name=lang['Name'],
                latitude=lang['Latitude'],
                longitude=lang['Longitude'],
                jsondata=dict(
                    family=lang['Family'],
                    icon='{0}{1}'.format('c' if lang['Family'] else 't', colors[lang['Family']]),
                ),
            )
            if lang['Glottocode'] or lang['ISO639P3code']:
                add_language_codes(
                    data, l, isocode=lang['ISO639P3code'], glottocode=lang['Glottocode'])
        cid2l[lang['ID']] = l
        cname = '{0} ({1})'.format(lang['Name'], lang['author'])
        cnames.update([cname])
        if cnames[cname] > 1:
            cname += ' {0}'.format(cnames[cname])
        c = data.add(
            models.Wordlist, lang['ID'],
            id=lang['ID'],
            name=cname,
            description=lang['author'],
            language=l,
            notes=lang['notes'],
        )
        i = 0
        typers = (lang['typedby'] or '').split(' and ')
        checkers = (lang['checkedby'] or '').split(' and ')
        for name in typers:
            i += 1
            DBSession.add(common.ContributionContributor(
                contribution=c,
                contributor=contributor(data, name),
                ord=i,
                jsondata=dict(type='typedby and checkedby' if name in checkers else 'typedby'),
            ))
        for name in checkers:
            if name in typers:
                continue
            i += 1
            DBSession.add(common.ContributionContributor(
                contribution=c,
                contributor=contributor(data, name),
                ord=i,
                jsondata=dict(type='checkedby'),
            ))

    for param in args.cldf['ParameterTable']:
        data.add(
            common.Parameter, param['ID'],
            id=param['ID'],
            name=param['Name'],
        )

    #
    # FIXME: add sources!
    #
    vsrs = set()
    for row in args.cldf['FormTable']:
        vs = data['ValueSet'].get((row['Language_ID'], row['Parameter_ID']))
        if not vs:
            vs = data.add(
                common.ValueSet,
                (row['Language_ID'], row['Parameter_ID']),
                id='{0}-{1}'.format(row['Language_ID'], row['Parameter_ID']),
                language=cid2l[row['Language_ID']],
                parameter=data['Parameter'][row['Parameter_ID']],
                contribution=data['Wordlist'][row['Language_ID']],
            )
        v = data.add(
            common.Value,
            row['ID'],
            id=row['ID'],
            name=row['Form'],
            valueset=vs
        )

    for row in args.cldf['CognateTable']:
        cc = data['Cognateset'].get(row['Cognateset_ID'])
        if not cc:
            cc = data.add(Cognateset, row['Cognateset_ID'], id=row['Cognateset_ID'])
        data.add(
            Cognate,
            row['ID'],
            cognateset=cc,
            counterpart=data['Value'][row['Form_ID']],
            doubt=row['Doubt'],
        )
Beispiel #29
0
def main(args):
    meta = parse_meta(args)
    print(len(meta))
    print(sum(len(m.sources) for m in meta.values()))
    sources = {}
    for m in meta.values():
        for s in m.sources:
            sources[s] = None
    print(len(sources), 'distinct')
    for i, s in enumerate(sources):
        sources[s] = get_source(s, i + 1)

    glottocodes = glottocodes_by_isocode('postgresql://robert@/glottolog3')

    data = Data()

    wals = create_engine('postgresql://robert@/wals3')
    wals_families = {}
    for row in wals.execute('select name, id from family'):
        wals_families[row[0]] = row[1]
        wals_families[row[1]] = row[1]

    #for item in reader(args.data_file('WALSFamilyAbbreviations.tab'), namedtuples=True, encoding='latin1'):
    #    name = item.FAMILY
    #    if name not in wals_families:
    #        name = slug(name)
    #        if name not in wals_families:
    #            print('missing wals family:', item.FAMILY)
    #            name = None
    #    if name:
    #        wals_families[item.ABBREVIATION] = wals_families[name]

    wals_genera = {
        row[0]: row[0]
        for row in wals.execute('select id from genus')
    }

    with args.data_file('listss17.txt').open(encoding='latin1') as fp:
        wordlists = ['\n'.join(lines) for lines in parse(fp)]

    dataset = common.Dataset(
        id=asjp.__name__,
        name="The ASJP Database",
        contact="*****@*****.**",
        description="The Automated Similarity Judgment Program",
        domain='asjp.clld.org',
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="https://www.shh.mpg.de",
        license='http://creativecommons.org/licenses/by/4.0/',
        jsondata={
            'license_icon':
            'cc-by.png',
            'license_name':
            'Creative Commons Attribution 4.0 International License'
        })
    DBSession.add(dataset)

    transcribers = get_transcriber_map(args)
    for i, spec in enumerate([
        ('SW', "Søren Wichmann"),
        ('AM', "André Müller"),
        ('AKW', "Annkathrin Wett"),
        ('VV', "Viveka Velupillai"),
        ('JB', "Julia Bischoffberger"),
        ('CB', "Cecil H. Brown"),
        ('EH', "Eric W. Holman"),
        ('SS', "Sebastian Sauppe"),
        ('ZM', "Zarina Molochieva"),
        ('PB', "Pamela Brown"),
        ('HH', "Harald Hammarström"),
        ('OB', "Oleg Belyaev"),
        ('JML', "Johann-Mattis List"),
        ('DBA', "Dik Bakker"),
        ('DE', "Dmitry Egorov"),
        ('MU', "Matthias Urban"),
        ('RM', "Robert Mailhammer"),
        ('AC', "Agustina Carrizo"),
        ('MSD', "Matthew S. Dryer"),
        ('EK', "Evgenia Korovina"),
        ('DB', "David Beck"),
        ('HG', "Helen Geyer"),
        ('PE', "Patience Epps"),
        ('AG', "Anthony Grant"),
        ('PS', "Paul Sidwell"),  # not in citation
        ('KTR', "K. Taraka Rama"),  # not in citation
        ('PV', "Pilar Valenzuela"),
        ('MD', "Mark Donohue"),  # not in citation
    ]):
        id_, name = spec
        if id_ in transcribers:
            assert name == transcribers.pop(id_)
        contributor = data.add(common.Contributor, id_, id=id_, name=name)
        if id_ in ['SW', 'CB', 'EH']:
            DBSession.add(
                common.Editor(dataset=dataset,
                              ord=i + 1,
                              contributor=contributor))
    for id_, name in transcribers.items():
        data.add(common.Contributor, id_, id=id_, name=name)

    for id_ in sorted(models.MEANINGS_ALL.keys()):
        data.add(models.Meaning,
                 id_,
                 id=str(id_),
                 name=models.MEANINGS_ALL[id_],
                 core=id_ in models.MEANINGS)

    for n, l in enumerate(wordlists):
        #if n > 100:
        #    break
        lang = models.Doculect.from_txt(l)
        if lang.classification_wals:
            family, genus = lang.classification_wals.split('.')
            lang.wals_family = wals_families.get(family)
            lang.wals_genus = wals_genera.get(slug(genus))
        lang.code_glottolog = glottocodes.get(lang.code_iso)
        add_codes(lang)
        data.add(models.Doculect, lang.id, _obj=lang)
        DBSession.flush()
        md = meta.pop(lang.id, None)
        assert md
        # associate transcribers and sources
        for i, transcriber in enumerate(md.transcribers):
            common.ContributionContributor(
                contribution=lang.wordlist,
                contributor=data['Contributor'][transcriber],
                ord=i + 1)
        for source in md.sources:
            DBSession.add(
                common.LanguageSource(language_pk=lang.pk,
                                      source_pk=sources[source].pk))

    assert not list(meta.keys())
Beispiel #30
0
def main(args):
    Index('ducet', collkey(common.Value.name)).create(DBSession.bind)
    data = Data()
    concept_list = Concepticon(CONCEPTICON_REPOS).conceptlist('Key-2016-1310')

    def concepticon_id(ids_code):
        for item in concept_list:
            if item['IDS_ID'] == ids_code:
                return int(item['CONCEPTICON_ID']) if item['CONCEPTICON_ID'] else None

    def read(table):
        fname = args.data_file(table + '.all.csv')
        if not fname.exists():
            fname = args.data_file(table + '.csv')
        return list(dsv.reader(fname, namedtuples=True))

    dataset = common.Dataset(
        id=ids.__name__,
        name="IDS",
        description="The Intercontinental Dictionary Series",
        published=date(2015, 5, 25),
        publisher_name="Max Planck Institute for Evolutionary Anthropology",
        publisher_place="Leipzig",
        publisher_url="http://www.eva.mpg.de",
        license='http://creativecommons.org/licenses/by/4.0/',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name':
                'Creative Commons Attribution 4.0 International License',
        },
        domain='ids.clld.org')

    DBSession.add(dataset)

    for rec in Database.from_file(args.data_file('sources.bib'), lowercase=True):
        if rec.id not in data['Source']:
            data.add(common.Source, rec.id, _obj=bibtex2source(rec))
    DBSession.flush()

    data_desc = defaultdict(dict)
    for l in read('x_lg_data'):
        data_desc[l.lg_id][l.map_ids_data] = l.header

    # language lang
    iso_codes = {l.id: l.sil_code for l in read('sil_lang')}
    iso_codes = {l.lg_id: iso_codes[l.sil_id] for l in read('x_lg_sil')}
    languages = []

    exclude = []
    for l in read('lang'):
        if l.status == '1':
            exclude.append(l.lg_id)
            continue
        lang_changed = LANGS.get(int(l.lg_id), {})
        code = lang_changed.get('glotto') or lang_changed.get('iso') or iso_codes.get(l.lg_id)
        lang = data.add(models.IdsLanguage, l.lg_id, id=l.lg_id, name=lang_changed.get('name', l.lg_name))
        if code:
            languages.append((code, lang))
        data.add(
            models.Dictionary, l.lg_id,
            id=l.lg_id, name=l.lg_name,
            language=lang,
            default_representation=data_desc[l.lg_id].get('1'),
            alt_representation=data_desc[l.lg_id].get('2'),
            jsondata=dict(status=l.status, date=l.date))

    iso2glotto = {}
    for l in walk_tree(tree=languoids_path('tree', GLOTTOLOG_REPOS)):
        if l.iso:
            iso2glotto[l.iso] = l.id

    load_families(
        Data(), [(iso2glotto.get(c, c), l) for c, l in languages], glottolog=Glottolog(GLOTTOLOG_REPOS), isolates_icon='tcccccc')

    contributors = defaultdict(list)
    sources = defaultdict(list)
    for l in read('lang_compilers'):
        if l.lg_id in exclude:
            continue
        if l.name == "BIBIKO":
            continue
        #name	lg_id	what_did_id
        if int(l.what_did_id) in models.ROLES:
            contributors[slug(l.name)].append((l.name, int(l.what_did_id), l.lg_id))
        else:
            assert int(l.what_did_id) in [4, 395]
            sources[l.name].append(l.lg_id)

    for s, roles in contributors.items():
        name = roles[0][0]
        c = data.add(common.Contributor, s, id=s, name=name)
        if name == 'Mary Ritchie Key':
            c.address = 'University of California, Irvine'
        for lg, specs in groupby(sorted(roles, key=lambda r: r[2]), key=lambda r: r[2]):
            sroles = sorted(
                [s[1] for s in specs],
                reverse=True,
                key=lambda what: what + 2 if what == 2 else what)
            what = sroles[0]
            DBSession.add(common.ContributionContributor(
                contribution=data['Dictionary'][lg],
                contributor=c,
                ord=what,
                primary=what == 2))

    data.add(
        common.Contributor, 'bernardcomrie',
        id='bernardcomrie',
        name="Bernard Comrie",
        address="University of California, Santa Barbara")

    for i, editor in enumerate(['maryritchiekey', 'bernardcomrie']):
        common.Editor(dataset=dataset, contributor=data['Contributor'][editor], ord=i + 1)

    #for i, name in enumerate(sorted(sources.keys())):
    #    c = data.add(common.Source, name, id=str(i + 1), name=name, description=name)

    DBSession.flush()
    for name, lgs in sources.items():
        for _src in name.split(';'):
            src = data['Source'].get(_src.strip())
            if not src:
                print('-- missing source --', _src)
                raise ValueError
            for lg in lgs:
                if lg in exclude:
                    continue
                assert lg in data['Dictionary']
                DBSession.add(common.ContributionReference(
                    contribution_pk=data['Dictionary'][lg].pk, source_pk=src.pk))

    altnames = {}
    for i, l in enumerate(read('alt_names')):
        if l.name in altnames:
            identifier = altnames[l.name]
        else:
            identifier = data.add(
                common.Identifier, l.name,
                id='name-%s' % i, type='name', name=l.name, description='IDS')
            altnames[l.name] = identifier
        if l.lg_id not in exclude and l.name != data['IdsLanguage'][l.lg_id].name:
            DBSession.add(common.LanguageIdentifier(
                identifier=identifier,
                language=data['IdsLanguage'][l.lg_id]))

    # parameter chapter/entry
    for l in read('chapter'):
        data.add(models.Chapter, l.chap_id, id=l.chap_id, name=l.chap_title)

    entries = {}
    for l in read('entry'):
        id_ = '%s-%s' % (l.chap_id, l.entry_id)
        name = l.trans_english
        if name in entries:
            entries[name] += 1
            name = name + ' (%s)' % entries[name]
        else:
            entries[name] = 1
        kw = {
            'id': id_,
            'name': name,
            'concepticon_id': concepticon_id(id_),
            'chapter': data['Chapter'][l.chap_id]}
        for ll in 'french russian spanish portugese'.split():
            kw[ll] = getattr(l, 'trans_' + ll)
        data.add(models.Entry, id_, sub_code=l.entry_id, **kw)

    misaligned = []

    DBSession.flush()
    for entity in 'IdsLanguage Entry Chapter Dictionary'.split():
        for k in data[entity].keys()[:]:
            data[entity][k] = data[entity][k].pk

    synsets = set()
    counterparts = set()
    problems = defaultdict(list)

    for lg_id, entries in groupby(
            sorted(read('ids'), key=lambda t: t.lg_id), lambda k: k.lg_id):
        if lg_id in exclude or not lg_id:
            continue

        # keep the memory footprint reasonable
        transaction.commit()
        transaction.begin()

        language = common.Language.get(data['IdsLanguage'][lg_id])
        desc = data_desc.get(lg_id, {})
        words = defaultdict(list)
        for l in entries:
            if empty.match(l.data_1):
                continue

            entry_id = '%s-%s' % (l.chap_id, l.entry_id)
            if entry_id not in data['Entry']:
                continue
                #data.add(
                #    models.Entry, entry_id,
                #    id=entry_id,
                #    name=entry_id,
                #    concepticon_id=concepticon_id(entry_id),
                #    sub_code=l.entry_id,
                #    chapter_pk=data['Chapter'][l.chap_id])
                #DBSession.flush()
                #data['Entry'][entry_id] = data['Entry'][entry_id].pk

            id_ = '%s-%s' % (entry_id, l.lg_id)
            if id_ in synsets:
                vs = models.Synset.get(id_)
            else:
                vs = models.Synset(
                    id=id_,
                    comment=get_string(l.comment or ''),
                    alt_representation=get_string(l.data_2),
                    language=language,
                    contribution_pk=data['Dictionary'][l.lg_id],
                    parameter_pk=data['Entry'][entry_id])
                synsets.add(id_)

            trans1 = list(split_counterparts(l.data_1))
            trans2 = None if empty.match(l.data_2) else list(split_counterparts(l.data_2))

            if trans2:
                if len(trans2) != len(trans1):
                    if language.id != '238':
                        misaligned.append((l.chap_id, l.entry_id, l.lg_id))
                        #print('===', language.id, language.name)
                        #print(l.data_1)
                        #print(l.data_2)
                    # 83 cases of misaligned transcriptions
                    trans2 = None

            for i, word in enumerate(trans1):
                cid = id_ + '-' + str(i + 1 + len(vs.values))
                if cid not in counterparts:
                    v = models.Counterpart(
                        id=cid,
                        name=word,
                        description=desc.get('1'),
                        valueset=vs)
                    words[word].append((v, trans2[i] if trans2 else None))
                    counterparts.add(cid)
                else:
                    print(cid)
                    #12 - 420 - 811 - 3
                    #5 - 390 - 818 - 3
                    #2 - 930 - 819 - 3
                    #2 - 930 - 819 - 3
                    #3 - 120 - 819 - 3
                    #10 - 140 - 822 - 3
                    #9 - 160 - 825 - 3
                    #2 - 430 - 829 - 4

        for i, form in enumerate(words.keys()):
            # Since we identify words based on their string representation, we have to
            # make sure a word has the same alternative transcription for all meanings.
            if language.id == '238':
                alt_names = []
            else:
                alt_names = set(norm(w[1] or '', desc.get('2'), language.id)
                                for w in words[form])
            alt_names = nfilter(alt_names)
            try:
                assert len(alt_names) <= 1
            except AssertionError:
                problems[(language.id, language.name)].append(alt_names)
            word = models.Word(
                id='%s-%s' % (language.id, i + 1),
                name=form,
                description=desc.get('1'),
                language=language,
                alt_name=', '.join(alt_names) if alt_names else None,
                alt_description=desc.get('2')
            )
            for v, _ in words[form]:
                word.counterparts.append(v)
            DBSession.add(word)

        DBSession.flush()

    with dsv.UnicodeWriter(args.data_file('misaligned.csv')) as fp:
        fp.writerows(misaligned)

    # about 250 cases where alternative transcriotions do not covary across meanings.
    for k, v in problems.items():
        print(k, len(v))
Beispiel #31
0
def main(args):
    data = Data()

    dataset = common.Dataset(
        id=dictionaria.__name__,
        name="Dictionaria",
        description="The Dictionary Journal",
        published=date(2015, 10, 1),
        contact='*****@*****.**',
        domain='dictionaria.clld.org',
        license="http://creativecommons.org/licenses/by/4.0/",
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})

    ed = data.add(
        common.Contributor, 'hartmanniren', id='hartmanniren', name='Iren Hartmann')
    common.Editor(dataset=dataset, contributor=ed)
    DBSession.add(dataset)

    for id_, name in LGR_ABBRS.items():
        DBSession.add(common.GlossAbbreviation(id=id_, name=name))

    comparison_meanings = {}
    comparison_meanings_alt_labels = {}

    print('loading concepts ...')

    concepticon = Concepticon()
    for i, concept_set in enumerate(concepticon.resources('parameter').members):
        concept_set = concepticon.resource(concept_set)
        cm = ComparisonMeaning(
            id=concept_set.id,
            name=concept_set.name.lower(),
            description=concept_set.description,
            concepticon_url='%s' % concept_set.uriref)
        DBSession.add(cm)
        comparison_meanings[cm.name] = cm
        for label in concept_set.alt_labels:
            comparison_meanings_alt_labels.setdefault(label.lower(), cm)

    DBSession.flush()

    print('... done')

    comparison_meanings = {k: v.pk for k, v in comparison_meanings.items()}
    comparison_meanings_alt_labels = {
        k: v.pk for k, v in comparison_meanings_alt_labels.items()}

    submissions = []

    for submission in REPOS.joinpath('submissions').glob('*'):
        if not submission.is_dir():
            continue

        try:
            submission = Submission(submission)
        except ValueError:
            continue

        md = submission.md
        id_ = submission.id
        lmd = md['language']

        language = data['Variety'].get(lmd['glottocode'])
        if not language:
            language = data.add(
                Variety, lmd['glottocode'], id=lmd['glottocode'], name=lmd['name'])

        dictionary = data.add(
            Dictionary,
            id_,
            id=id_,
            name=lmd['name'] + ' Dictionary',
            language=language,
            published=date(*map(int, md['published'].split('-'))))

        for i, cname in enumerate(md['authors']):
            name = HumanName(cname)
            cid = slug('%s%s' % (name.last, name.first))
            contrib = data['Contributor'].get(cid)
            if not contrib:
                contrib = data.add(common.Contributor, cid, id=cid, name=cname)
            DBSession.add(common.ContributionContributor(
                ord=i + 1,
                primary=True,
                contributor=contrib,
                contribution=dictionary))

        submissions.append((dictionary.id, language.id, submission))
    transaction.commit()

    for did, lid, submission in submissions:
        try:
            mod = __import__(
                'dictionaria.loader.' + submission.id, fromlist=['MARKER_MAP'])
            marker_map = mod.MARKER_MAP
        except ImportError:
            marker_map = {}

        transaction.begin()
        print('loading %s ...' % submission.id)
        submission.load(
            did,
            lid,
            comparison_meanings,
            comparison_meanings_alt_labels,
            marker_map)
        transaction.commit()
        print('... done')

        #('hoocak', 'Hooca\u0328k', 43.5, -88.5, [('hartmanniren', 'Iren Hartmann')]),
        #('yakkha', 'Yakkha', 27.37, 87.93, [('schackowdiana', 'Diana Schackow')]),
        #('palula', 'Palula', 35.51, 71.84, [('liljegrenhenrik', 'Henrik Liljegren')], {}),
        #('daakaka', 'Daakaka', -16.27, 168.01, [('vonprincekilu', 'Kilu von Prince')],
        # {'published': date(2015, 9, 30), 'iso': 'bpa', 'glottocode': 'daka1243'}),
        #('teop', 'Teop', -5.67, 154.97, [('moselulrike', 'Ulrike Mosel')],
        # {'published': date(2015, 9, 30), 'iso': 'tio', 'glottocode': 'teop1238', 'encoding': 'latin1'}),

    transaction.begin()
    load_families(Data(), DBSession.query(Variety))
Beispiel #32
0
def import_dataset(ds, contrib, languoids, conceptsets, sources, values):
    data = Data()
    concepts = {p.id: p for p in DBSession.query(Concept)}
    langs = {l.id: l for l in DBSession.query(LexiRumahLanguage)}

    for i, row in enumerate(ds.rows):
        if not row['Value'] or not row['Parameter_ID'] or not row[
                'Language_ID']:
            continue

        lid = row['Language_ID'].lower()
        if lid == 'none':
            continue

        if not row['Parameter_ID'].strip():
            continue

        language = langs.get(lid)
        if language is None:
            languoid = languoids.get(lid)
            if not languoid:
                continue
            langs[lid] = language = LexiRumahLanguage(
                id=lid,
                name=languoid.name,
                level=text_type(languoid.level.name),
                latitude=languoid.latitude
                if languoid.id != 'plau1238' else -10,
                longitude=languoid.longitude)

        concept = concepts.get(row['Parameter_ID'])
        if concept is None:
            cs = conceptsets[row['Parameter_ID']]
            concepts[row['Parameter_ID']] = concept = Concept(
                id=row['Parameter_ID'],
                name=cs.gloss,
                description=cs.definition,
                semanticfield=cs.semanticfield)

        vsid = unique_id(contrib,
                         '%s-%s-%s' % (ds.name, language.id, concept.id))
        vid = unique_id(contrib, row['ID'])

        vs = data['ValueSet'].get(vsid)
        if vs is None:
            vs = data.add(ValueSet,
                          vsid,
                          id=vsid,
                          parameter=concept,
                          language=language,
                          contribution=contrib,
                          source=None)  # FIXME: add sources!

        counterpart = values.add(
            Counterpart,
            row['ID'],
            id=vid,
            valueset=vs,
            name=row['Form'],
            description=row.get('Comment'),
            context=row['Value'],
            variety_name=row.get('Language_name'),
            loan=row.get('Loan', False),
        )

        for ref in row.refs:
            CounterpartReference(counterpart=counterpart,
                                 source=sources[ref.source.id],
                                 description=ref.description)
Beispiel #33
0
def main(args):
    data = Data()

    files_dir.rmtree()
    files_dir.mkdir()

    editors = OrderedDict()
    editors['Susanne Maria Michaelis'] = None
    editors['Philippe Maurer'] = None
    editors['Martin Haspelmath'] = None
    editors['Magnus Huber'] = None

    for row in read('People'):
        name = row['First name'] + ' ' if row['First name'] else ''
        name += row['Last name']
        kw = dict(
            name=name,
            id=slug('%(Last name)s%(First name)s' % row),
            url=row['Contact Website'].split()[0] if row['Contact Website'] else None,
            address=row['Comments on database'],
        )
        contrib = data.add(common.Contributor, row['Author ID'], **kw)
        if kw['name'] in editors:
            editors[kw['name']] = contrib

    DBSession.flush()

    dataset = common.Dataset(
        id='apics',
        name='APiCS Online',
        description='Atlas of Pidgin and Creole Language Structures Online',
        domain='apics-online.info',
        published=date(2013, 8, 15),
        #
        # TODO: switch license!
        #
        license='http://creativecommons.org/licenses/by/3.0/',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 3.0 Unported License'})
    DBSession.add(dataset)
    for i, editor in enumerate(editors.values()):
        common.Editor(dataset=dataset, contributor=editor, ord=i + 1)

    colors = dict((row['ID'], row['RGB_code']) for row in read('Colours'))

    abbrs = {}
    for id_, name in LGR_ABBRS.items():
        DBSession.add(common.GlossAbbreviation(id=id_, name=name))
        abbrs[id_] = 1

    for id_, name in {
        'C**T': 'clitic',
        'IMPF': 'imperfect',
        'INTERM': 'intermediate',
        'NCOMPL': 'noncompletive',
        'NONFUT': 'nonfuture',
        'NPROX': 'nonproximal',
        'NSG': 'nonsingular',
        'PP': 'past participle',
        'PROP': 'proprietive',
        'TMA': 'tense-mood-aspect',
    }.items():
        DBSession.add(common.GlossAbbreviation(id=id_, name=name))
        abbrs[id_] = 1

    with open(data_dir.joinpath('non-lgr-gloss-abbrs.csv'), 'rb') as csvfile:
        for row in csv.reader(csvfile):
            for match in GLOSS_ABBR_PATTERN.finditer(row[1]):
                if match.group('abbr') not in abbrs:
                    abbrs[match.group('abbr')] = 1
                    DBSession.add(
                        common.GlossAbbreviation(id=match.group('abbr'), name=row[0]))

    non_bibs = {}
    for row in read('References', 'Reference_ID'):
        if row['Reference_type'] == 'Non-bib':
            non_bibs[row['Reference_ID']] = row['Reference_name']
            continue

        if isinstance(row['Year'], int):
            year_int = row['Year']
            year = str(row['Year'])
        elif row['Year']:
            year_int = None
            for m in re.finditer('(?P<year>(1|2)[0-9]{3})', row['Year']):
                year_int = int(m.group('year'))
                break
            year = row['Year']
        else:
            year, year_int = None, None

        title = row['Article_title'] or row['Book_title']
        attrs = {}
        jsondata = {}
        for attr, field in {
            'Additional_information': 'note',
            'Article_title': 'title',
            'Book_title': 'booktitle',
            'City': 'address',
            'Editors': 'editor',
            'Full_reference': None,
            'Issue': None,
            'Journal': 'journal',
            'Language_codes': None,
            'LaTeX_cite_key': None,
            'Pages': 'pages',
            'Publisher': 'publisher',
            'Reference_type': 'type',
            'School': 'school',
            'Series_title': 'series',
            'URL': 'url',
            'Volume': 'volume',
        }.items():
            value = row.get(attr)
            if not isinstance(value, int):
                value = (value or '').strip()
            if attr == 'Issue' and value:
                try:
                    value = str(int(value))
                except ValueError:
                    pass
            if value:
                if field:
                    attrs[field] = value
                else:
                    jsondata[attr] = value
        p = data.add(
            common.Source, row['Reference_ID'],
            id=row['Reference_ID'],
            name=row['Reference_name'],
            description=title,
            author=row['Authors'],
            year=year,
            year_int=year_int,
            bibtex_type=getattr(EntryType, row['BibTeX_type'] or 'misc'),
            jsondata=jsondata,
            **attrs)
        if p.bibtex_type.value == 'misc' and not p.description:
            p.description = p.note
        DBSession.flush()

    DBSession.flush()

    gt = {}
    p = re.compile('[0-9]+\_(?P<name>[^\_]+)\_(GT|Text)')
    for d in data_dir.joinpath('gt').files():
        m = p.search(unicode(d.basename()))
        if m:
            for part in m.group('name').split('&'):
                # make sure we prefer files named "Text_for_soundfile"
                if slug(unicode(part)) not in gt or 'Text_for_' in d.basename():
                    gt[slug(unicode(part))] = d
    gt_audio = {}
    p = re.compile('(?P<name>[^\.]+)\.mp3')
    for d in data_dir.joinpath('gt', 'audio').files():
        m = p.search(unicode(d.basename()))
        assert m
        for part in m.group('name').split('&'):
            gt_audio[slug(unicode(part))] = d

    with open(args.data_file('infobox.json')) as fp:
        infobox = json.load(fp)
    for row in read('Languages', 'Order_number'):
        lon, lat = [float(c.strip()) for c in row['map_coordinates'].split(',')]
        kw = dict(
            name=row['Language_name'],
            id=str(row['Order_number']),
            latitude=lat,
            longitude=lon,
            region=row['Category_region'],
            #base_language=row['Category_base_language'],
        )
        lect = data.add(models.Lect, row['Language_ID'], **kw)
        DBSession.flush()

        for i, item in enumerate(infobox[lect.id]):
            DBSession.add(common.Language_data(
                object_pk=lect.pk, ord=i, key=item[0], value=item[1]))

        if row["Languages_contribution_documentation::Lect_description_checked_status"] == "Checked":
            desc = row.get('Languages_contribution_documentation::Lect description', '')
        else:
            desc = ''

        c = data.add(
            models.ApicsContribution, row['Language_ID'],
            id=row['Order_number'],
            name=row['Language_name'],
            description=desc,
            survey_reference=data['Source'][row['Survey_reference_ID']],
            language=lect)

        if slug(row['Language_name']) in gt:
            f = common.Contribution_files(
                object=c, id='%s-gt.pdf' % c.id, name='Glossed text', mime_type='application/pdf')
            f.create(files_dir, file(gt[slug(row['Language_name'])]).read())
        else:
            print '--- no glossed text for:', row['Language_name']
        if slug(row['Language_name']) in gt_audio:
            f = common.Contribution_files(
                object=c, id='%s-gt.mp3' % c.id, name='Glossed text audio', mime_type='audio/mpeg')
            f.create(files_dir, file(gt_audio[slug(row['Language_name'])]).read())
        else:
            print '--- no audio for:', row['Language_name']

        #
        # TODO: for michif, 75, add link http://www.youtube.com/watch?v=f0C4cODsSyE
        #

        iso = None
        if row['ISO_code'] and len(row['ISO_code']) == 3:
            iso = row['ISO_code'].lower()
            if 'iso:%s' % row['ISO_code'] not in data['Identifier']:
                data.add(
                    common.Identifier, 'iso:%s' % row['ISO_code'],
                    id=row['ISO_code'].lower(),
                    name=row['ISO_code'].lower(),
                    type='iso639-3')

            DBSession.add(common.LanguageIdentifier(
                language=data['Lect'][row['Language_ID']],
                identifier=data['Identifier']['iso:%s' % row['ISO_code']]))

        if row['Language_name_ethnologue']:
            if row['Language_name_ethnologue'] not in data['Identifier']:
                data.add(
                    common.Identifier, row['Language_name_ethnologue'],
                    id=iso or 'ethnologue:%s' % row['Language_name_ethnologue'],
                    name=row['Language_name_ethnologue'],
                    type='ethnologue')

            DBSession.add(common.LanguageIdentifier(
                language=data['Lect'][row['Language_ID']],
                identifier=data['Identifier'][row['Language_name_ethnologue']]))

    example_count = {}
    soundfiles = {}
    for p in data_dir.joinpath('Soundfiles_Examples').files():
        soundfiles[p.namebase] = p
    for row in read('Examples', 'Order_number'):
        assert row['Language_ID']
        lang = data['Lect'][row['Language_ID']]
        id_ = '%(Language_ID)s-%(Example_number)s' % row
        atext, gloss = igt(row)
        example_count[row['Language_ID']] = max([example_count.get(row['Language_ID'], 1), row['Example_number']])
        p = data.add(
            common.Sentence, id_,
            id='%s-%s' % (lang.id, row['Example_number']),
            name=row['Text'] or row['Analyzed_text'],
            description=row['Translation'],
            type=row['Type'].strip().lower() if row['Type'] else None,
            comment=row['Comments'],
            gloss=gloss,
            analyzed=atext,
            markup_text=normalize_markup(row['z_calc_Text_CSS']),
            markup_gloss=normalize_markup(row['z_calc_Gloss_CSS']),
            markup_comment=normalize_markup(row['z_calc_Comments_CSS']),
            markup_analyzed=normalize_markup(row['z_calc_Analyzed_text_CSS']),
            original_script=row['Original_script'],
            jsondata={'sort': row['Order_number']},
            language=lang)

        if id_ in soundfiles:
            #print '---> sound', id_
            f = common.Sentence_files(
                object=p, id='%s.mp3' % p.id, name='Audio', mime_type='audio/mpeg')
            f.create(files_dir, file(soundfiles[id_]).read())

        if row['Reference_ID']:
            if row['Reference_ID'] in data['Source']:
                source = data['Source'][row['Reference_ID']]
                DBSession.add(common.SentenceReference(
                    sentence=p,
                    source=source,
                    key=source.id,
                    description=row['Reference_pages'],
                ))
            else:
                p.source = non_bibs[row['Reference_ID']]

    DBSession.flush()

    for row in read('Language_references'):
        if row['Reference_ID'] not in data['Source']:
            assert row['Reference_ID'] in non_bibs
            continue
        assert row['Language_ID'] in data['ApicsContribution']
        source = data['Source'][row['Reference_ID']]
        DBSession.add(common.ContributionReference(
            contribution=data['ApicsContribution'][row['Language_ID']],
            source=source,
            description=row['Pages'],
            key=source.id))

    #
    # global counter for features - across feature types
    #
    feature_count = 0
    for row in read('Features', 'Feature_number'):
        id_ = str(row['Feature_number'])
        if int(id_) > feature_count:
            feature_count = int(id_)
        wals_id = None
        if row['WALS_match'] == 'Total':
            if isinstance(row['WALS_No.'], int):
                wals_id = row['WALS_No.']
            else:
                wals_id = int(row['WALS_No.'].split('.')[0].strip())

        p = data.add(
            models.Feature, row['Feature_code'],
            name=row['Feature_name'],
            id=id_,
            description=row['Feature_annotation_publication'],
            markup_description=normalize_markup(row['z_calc_Feature_annotation_publication_CSS']),
            feature_type='primary',
            multivalued=row['Value_relation_type'] != 'Single',
            area=row['Feature_area'],
            wals_id=wals_id)

        names = {}
        for i in range(1, 10):
            if not row['Value%s_publication' % i] or not row['Value%s_publication' % i].strip():
                continue
            name = row['Value%s_publication' % i].strip()
            if name in names:
                name += ' (%s)' % i
            names[name] = 1
            de = data.add(
                common.DomainElement, '%s-%s' % (row['Feature_code'], i),
                id='%s-%s' % (id_, i),
                name=name,
                parameter=p,
                abbr=row['Value%s_for_book_maps' % i] if p.id != '0' else name,
                number=int(row['Value%s_value_number_for_publication' % i]),
                jsondata={'color': colors[row['Value_%s_colour_ID' % i]]},
            )

        if row['Authors_FeatureArticles']:
            authors, _ = row['Authors_FeatureArticles'].split('and the APiCS')
            authors = authors.strip()
            if authors.endswith(','):
                authors = authors[:-1].strip()
            for i, name in enumerate(authors.split(',')):
                assert name.strip() in editors
                p._authors.append(models.FeatureAuthor(
                    ord=i + 1, contributor=editors[name.strip()]))

        DBSession.flush()

    primary_to_segment = {123: 63, 126: 35, 128: 45, 130: 41}
    segment_to_primary = dict(zip(
        primary_to_segment.values(), primary_to_segment.keys()))
    number_map = {}
    names = {}
    for row in read('Segment_features', 'Order_number'):
        symbol = row['Segment_symbol']
        if row['Segment_name'] == 'voiceless dental/alveolar sibilant affricate':
            symbol = 't\u0361s'
        truth = lambda s: s and s.strip().lower() == 'yes'
        name = '%s - %s' % (symbol, row['Segment_name'])

        if name in names:
            number_map[row['Segment_feature_number']] = names[name]
            continue

        number_map[row['Segment_feature_number']] = row['Segment_feature_number']
        names[name] = row['Segment_feature_number']
        feature_count += 1
        if row['Segment_feature_number'] in segment_to_primary:
            primary_to_segment[segment_to_primary[row['Segment_feature_number']]] = str(feature_count)
        p = data.add(
            models.Feature, row['Segment_feature_number'],
            name=name,
            id=str(feature_count),
            feature_type='segment',
            area='Vowels' if truth(row['Vowel']) else (
                'Obstruent consonants' if truth(row['Obstruent'])
                else 'Sonorant consonants'),
            jsondata=dict(
                number=int(row['Segment_feature_number']),
                vowel=truth(row['Vowel']),
                consonant=truth(row['Consonant']),
                obstruent=truth(row['Obstruent']),
                core_list=truth(row['Core_list_segment']),
                symbol=symbol,
            ))

        for i, spec in SEGMENT_VALUES.items():
            data.add(
                common.DomainElement,
                '%s-%s' % (row['Segment_feature_number'], spec[0]),
                id='%s-%s' % (p.id, i),
                name=spec[0],
                parameter=p,
                jsondata={'color': spec[1]},
                number=i)

    print '--> remapped:', primary_to_segment
    DBSession.flush()

    for row in read('Sociolinguistic_features', 'Sociolinguistic_feature_number'):
        feature_count += 1
        p = data.add(
            models.Feature, row['Sociolinguistic_feature_code'],
            name=row['Sociolinguistic_feature_name'],
            id='%s' % feature_count,
            area='Sociolinguistic',
            feature_type='sociolinguistic')

        names = {}

        for i in range(1, 7):
            id_ = '%s-%s' % (row['Sociolinguistic_feature_code'], i)
            if row['Value%s' % i] and row['Value%s' % i].strip():
                name = row['Value%s' % i].strip()
                if name in names:
                    name += ' (%s)' % i
                names[name] = 1
            else:
                name = '%s - %s' % (row['Sociolinguistic_feature_name'], i)
            kw = dict(id='%s-%s' % (p.id, i), name=name, parameter=p, number=i)
            de = data.add(
                common.DomainElement,
                id_,
                id='%s-%s' % (p.id, i),
                name=name,
                parameter=p,
                number=i,
                jsondata={'color': colors.values()[i]})

    sd = {}
    soundfiles = {}
    for p in data_dir.joinpath('Soundfiles_Segments').files():
        soundfiles[p.namebase] = p
    for row in read('Segment_data'):
        if row['Segment_feature_number'] not in number_map:
            continue
        number = number_map[row['Segment_feature_number']]

        #Language_ID,Segment_feature_number,Comments,Audio_file_name,Example_word,
        #Example_word_gloss,Presence_in_the_language,Refers_to_references_Reference_ID
        if not row['Presence_in_the_language']:
            continue

        lang = data['Lect'][row['Language_ID']]
        param = data['Feature'][number]
        id_ = '%s-%s' % (lang.id, param.id)
        if id_ in sd:
            assert row['c_Record_is_a_duplicate'] == 'Yes'
            continue
        sd[id_] = 1
        valueset = data.add(
            common.ValueSet,
            id_,
            id=id_,
            parameter=param,
            language=lang,
            contribution=data['ApicsContribution'][row['Language_ID']],
            description=row['Comments'],
            markup_description=normalize_markup(row['z_calc_Comments_CSS']),
        )
        v = data.add(
            common.Value,
            id_,
            id=id_,
            frequency=float(100),
            valueset=valueset,
            domainelement=data['DomainElement']['%s-%s' % (
                number, row['Presence_in_the_language'])],
        )
        if row['Example_word'] and row['Example_word_gloss']:
            example_count[row['Language_ID']] += 1
            p = data.add(
                common.Sentence, '%s-p%s' % (lang.id, data['Feature'][number].id),
                id='%s-%s' % (lang.id, example_count[row['Language_ID']]),
                name=row['Example_word'],
                description=row['Example_word_gloss'],
                language=lang)

            sid = '%(Language_ID)s-%(Segment_feature_number)s' % row
            if sid in soundfiles:
                print '---> sound', sid
                f = common.Sentence_files(
                    object=p, id='%s.mp3' % p.id, name='Audio', mime_type='audio/mpeg')
                f.create(files_dir, file(soundfiles[sid]).read())

            DBSession.add(common.ValueSentence(value=v, sentence=p))

        source = data['Source'].get(row['Refers_to_references_Reference_ID'])
        if source:
            DBSession.add(common.ValueSetReference(
                valueset=valueset, source=source, key=source.id))
        elif row['Refers_to_references_Reference_ID'] in non_bibs:
            valueset.source = non_bibs[row['Refers_to_references_Reference_ID']]

    lects = defaultdict(lambda: 1)
    lect_map = {}
    records = {}
    false_values = {}
    no_values = {}
    wals_value_number = {}
    for row in read('wals'):
        if row['z_calc_WALS_value_number']:
            wals_value_number[row['Data_record_id']] = row['z_calc_WALS_value_number']

    def prefix(attr, _prefix):
        if _prefix:
            return '%s_%s' % (_prefix, attr)
        return attr.capitalize()

    for _prefix, abbr, num_values in [
        ('', '', 10),
        ('Sociolinguistic', 'sl', 7),
    ]:
        for row in read(prefix('data', _prefix)):
            if not row[prefix('feature_code', _prefix)]:
                print 'no associated feature for', prefix('data', _prefix), row[prefix('data_record_id', _prefix)]
                continue

            lid = row['Language_ID']
            lect_attr = row.get('Lect_attribute', 'my default lect').lower()
            if lect_attr != 'my default lect':
                if (row['Language_ID'], row['Lect_attribute']) in lect_map:
                    lid = lect_map[(row['Language_ID'], row['Lect_attribute'])]
                else:
                    lang = data['Lect'][row['Language_ID']]
                    c = lects[row['Language_ID']]
                    lid = '%s-%s' % (row['Language_ID'], c)
                    kw = dict(
                        name='%s (%s)' % (lang.name, row['Lect_attribute']),
                        id='%s' % (1000 + 10 * int(lang.id) + c),
                        latitude=lang.latitude,
                        longitude=lang.longitude,
                        description=row['Lect_attribute'],
                        language=lang,
                    )
                    data.add(models.Lect, lid, **kw)
                    lects[row['Language_ID']] += 1
                    lect_map[(row['Language_ID'], row['Lect_attribute'])] = lid

            id_ = abbr + str(row[prefix('data_record_id', _prefix)])
            assert id_ not in records
            records[id_] = 1

            assert row[prefix('feature_code', _prefix)] in data['Feature']
            #if row[prefix('feature_code', _prefix)] not in data['Feature']:
            #    print row[prefix('feature_code', _prefix)]
            #    print str(row[prefix('data_record_id', _prefix)])
            #    raise ValueError
            language = data['Lect'][lid]
            parameter = data['Feature'][row[prefix('feature_code', _prefix)]]
            valueset = common.ValueSet(
                id='%s-%s' % (language.id, parameter.id),
                description=row['Comments_on_value_assignment'],
                markup_description=normalize_markup(row.get('z_calc_Comments_on_value_assignment_CSS')),
            )

            values_found = {}
            for i in range(1, num_values):
                if not row['Value%s_true_false' % i]:
                    continue

                if row['Value%s_true_false' % i].strip().lower() != 'true':
                    assert row['Value%s_true_false' % i].strip().lower() == 'false'
                    false_values[row[prefix('data_record_id', _prefix)]] = 1
                    continue

                values_found['%s-%s' % (id_, i)] = dict(
                    id='%s-%s' % (valueset.id, i),
                    #valueset=valueset,
                    domainelement=data['DomainElement']['%s-%s' % (
                        row[prefix('feature_code', _prefix)], i)],
                    confidence=row['Value%s_confidence' % i],
                    frequency=float(row['c_V%s_frequency_normalised' % i])
                    if _prefix == '' else 100)

            if values_found:
                if row[prefix('data_record_id', _prefix)] in wals_value_number:
                    valueset.jsondata = {'wals_value_number': wals_value_number.pop(row[prefix('data_record_id', _prefix)])}
                valueset.parameter = parameter
                valueset.language = language
                valueset.contribution = data['ApicsContribution'][row['Language_ID']]
                valueset = data.add(common.ValueSet, id_, _obj=valueset)
                for i, item in enumerate(values_found.items()):
                    if i > 0 and not parameter.multivalued:
                        print 'multiple values for single-valued parameter: %s' % id_
                        break
                    id_, kw = item
                    kw['valueset'] = valueset
                    value = data.add(common.Value, id_, **kw)

                #
                # store references to additional data for segments which should be reused
                # for corresponding primary features!
                #
                if int(parameter.id) in primary_to_segment:
                    assert len(values_found) == 1
                    seg_id = '%s-%s' % (language.id, primary_to_segment[int(parameter.id)])
                    seg_valueset = data['ValueSet'][seg_id]
                    seg_value = data['Value'][seg_id]
                    if not valueset.description and seg_valueset.description:
                        valueset.description = seg_valueset.description

                    for s in seg_value.sentence_assocs:
                        DBSession.add(common.ValueSentence(value=value, sentence=s.sentence))

                    for r in seg_valueset.references:
                        DBSession.add(common.ValueSetReference(
                            valueset=valueset, source=r.source, key=r.key))

                    if not valueset.source and seg_valueset.source:
                        valueset.source = seg_valueset.source

                DBSession.flush()
            else:
                no_values[id_] = 1

    DBSession.flush()

    for prefix, abbr, num_values in [
        ('D', '', 10),
        ('Sociolinguistic_d', 'sl', 7),
    ]:
        for row in read(prefix + 'ata_references'):
            assert row['Reference_ID'] in data['Source'] or row['Reference_ID'] in non_bibs
            try:
                vs = data['ValueSet'][abbr + str(row[prefix + 'ata_record_id'])]
                if row['Reference_ID'] in data['Source']:
                    source = data['Source'][row['Reference_ID']]
                    DBSession.add(common.ValueSetReference(
                        valueset=vs,
                        source=source,
                        key=source.id,
                        description=row['Pages'],
                    ))
                else:
                    if vs.source:
                        vs.source += '; ' + non_bibs[row['Reference_ID']]
                    else:
                        vs.source = non_bibs[row['Reference_ID']]
            except KeyError:
                print('Reference for unknown dataset: %s'
                      % row[prefix + 'ata_record_id'])
                continue

    DBSession.flush()

    missing = 0
    for row in read('Value_examples'):
        try:
            DBSession.add(common.ValueSentence(
                value=data['Value']['%(Data_record_id)s-%(Value_number)s' % row],
                sentence=data['Sentence']['%(Language_ID)s-%(Example_number)s' % row],
                description=row['Notes'],
            ))
        except KeyError:
            missing += 1
    print('%s Value_examples are missing data' % missing)

    print('%s data sets with false values' % len(false_values))
    print('%s data sets without values' % len(no_values))

    for k, v in wals_value_number.items():
        print 'unclaimed wals value number:', k, v

    for i, row in enumerate(read('Contributors')):
        kw = dict(
            contribution=data['ApicsContribution'][row['Language ID']],
            contributor=data['Contributor'][row['Author ID']]
        )
        if row['Order_of_appearance']:
            kw['ord'] = int(float(row['Order_of_appearance']))
        data.add(common.ContributionContributor, i, **kw)

    DBSession.flush()
Beispiel #34
0
def main(args):
    data = Data(created=utc.localize(datetime(2013, 11, 15)),
                updated=utc.localize(datetime(2013, 12, 12)))
    icons = issues.Icons()
    #print icons

    DBSession.execute("delete from Language")
    DBSession.execute("delete from Unit")
    DBSession.execute("delete from featuredomain")
    DBSession.execute("delete from family")
    DBSession.execute("delete from source")
    DBSession.execute("delete from parameter")
    DBSession.execute("delete from feature")
    DBSession.execute("delete from domainelement")
    DBSession.execute("delete from valueset")
    DBSession.execute("delete from value")
    DBSession.execute("delete from lsivalue")
    DBSession.execute("delete from dataset")
    DBSession.execute("delete from contributor")
    DBSession.execute("delete from lsilanguage")
    DBSession.execute("delete from contribution")
    DBSession.execute("delete from designer")

    DBSession.flush()

    dtab = partial(_dtab, args.data_file())

    #Languages

    #print args.data_file()
    #tabfns = ['%s' % fn.basename() for fn in args.data_file().files('nts_*.tab')]
    #tabfns = ['nts_18.tab']
    ##tabfns = os.listdir('/Users/virk/shafqat/postDoc-Swe/project/clld/clld/lsi/lsi/data')[1:]
    tabfns = os.listdir(
        '/Users/virk/shafqat/postDoc-Swe/project/clld/clld/lsi/lsi/lsi_data'
    )[1:]
    #print tabfns
    args.log.info("Sheets found: %s" % tabfns)
    ldps = []
    lgs = {}
    nfeatures = Counter()
    nlgs = Counter()

    for fn in tabfns:
        for ld in dtab(fn):

            if ld['language_id'] == 'qgr' or ld['language_id'] == '---' or ld[
                    'language_id'] == '':  # to exclude languages which do not have an iso-code
                continue
            if "feature_alphanumid" not in ld:
                args.log.info("NO FEATUREID %s %s" % (len(ld), ld))
            if not ld["feature_alphanumid"].startswith("DRS") \
                    and ld["feature_alphanumid"].find(".") == -1:
                ldps.append(dp_dict(ld))
                ##print ld
                lgs[ld['language_id']] = unescape(ld['language_name'])
                if ld["value"] != "?":
                    nfeatures.update([ld['language_id']])
                    nlgs.update([ld['feature_alphanumid']])

    ldps = sorted(ldps, key=lambda d: d['feature_alphanumid'])

    #lgs["ygr"] = "Hua"

    for lgid, lgname in lgs.items():
        data.add(models.lsiLanguage,
                 lgid,
                 id=lgid,
                 name=lgname,
                 representation=nfeatures.get(lgid, 0))
    DBSession.flush()
    #print "I am here"
    #print data['ntsLanguage'].values()[1].id
    load_families(
        data,
        ##[(NOCODE_TO_GLOTTOCODE.get(l.id, l.id), l) for l in data['lsiLanguage'].values()],
        [(NOCODE_TO_GLOTTOCODE.get(l.id, l.id), l)
         for l in data['lsiLanguage'].values()
         if l.id != '---' and l.id != ''],
        isolates_icon='tcccccc')
    #print 'family'
    #print data['Family'].get('sino1245').jsondata
    #Domains
    for domain in set(ld['feature_domain'] for ld in ldps):
        data.add(models.FeatureDomain, domain, name=domain)
    DBSession.flush()

    #Designers
    #for i, info in enumerate(dtab("ntscontributions.tab") + dtab("ntscontacts.tab")):
    for i, info in enumerate([{
            'designer': 'shafqat',
            'domain': '',
            'pdflink': '',
            'citation': ''
    }, {
            'designer': '-',
            'domain': '',
            'pdflink': '',
            'citation': ''
    }]):
        designer_id = str(i + 1)
        data.add(models.Designer,
                 info['designer'],
                 id=designer_id,
                 name=designer_id,
                 domain=info["domain"],
                 contributor=info['designer'],
                 pdflink=info["pdflink"],
                 citation=info["citation"])
    DBSession.flush()

    #Sources
    '''for k, (typ, bibdata) in [
        ktfbib(bibsource) for ld in ldps
        if ld.get(u'bibsources') for bibsource in ld['bibsources'].split(",,,")
    ]:
        if k not in data["Source"]:
            data.add(common.Source, k, _obj=bibtex2source(Record(typ, k, **bibdata)))
    DBSession.flush()'''

    #Features
    fs = [(fid, mergeds(lds))
          for fid, lds in groupby(ldps, key=lambda d: d['feature_alphanumid'])]

    fvdesc = [(fid, [
        (ld.get("feature_possible_values"), ld.get("fromfile")) for ld in lds
        if ld.get("feature_possible_values")
    ]) for fid, lds in groupby(ldps, key=lambda d: d['feature_alphanumid'])]
    fvdt = [(fid, grp2(vdescs)) for (fid, vdescs) in fvdesc]
    fvmis = [(fid, vdescs) for (fid, vdescs) in fvdt if len(vdescs) > 1]

    for _, dfsids in groupby(sorted(
        (f.get('feature_name', fid), fid) for fid, f in fs),
                             key=lambda t: t[0]):
        ##print [(k,v) for (k,v) in list(dfsids)],len(list(dfsids))
        assert len(list(dfsids)) == 1
    #print 'here is nlgs'

    for fid, f in fs:
        #print "lang name"
        #print ldps
        #print f.get('feature_possible_values', ""),
        if not fid.isdigit():
            args.log.info("NO INT FID %s" % f)
        feature = data.add(
            models.Feature,
            fid,
            id=fid,
            name=f.get('feature_name', f['feature_alphanumid']),
            doc=f.get('feature_information', ""),
            vdoc=f.get('feature_possible_values', ""),
            representation=nlgs.get(fid, 0),
            designer=data["Designer"][f['designer']],
            dependson=f.get("depends_on", ""),
            abbreviation=f.get("abbreviation", ""),
            featuredomain=data['FeatureDomain'][f["feature_domain"]],
            name_french=f.get('francais', ""),
            clarification=f.get(
                "draft of clarifying comments to outsiders (hedvig + dunn + harald + suzanne)",
                ""),
            alternative_id=f.get("old feature number", ""),
            jl_relevant_unit=f.get("relevant unit(s)", ""),
            jl_function=f.get("function", ""),
            jl_formal_means=f.get("formal means", ""),
            sortkey_str="",
            sortkey_int=int(fid))

        vdesclist = [veq.split("==") for veq in feature.vdoc.split("||")]
        vdesc = {v.replace(".", "-"): desc for [v, desc] in vdesclist}
        ##vdesc = {fmly+val2icon(v): desc for ((v,desc),fmly) in itertools.product([(vv,desc) for [vv, desc] in vdesclist],['c','d','f','t'])}

        vdesc.setdefault('?', 'Not known')
        if 'N/A' not in vdesc and feature.dependson:
            vdesc["N/A"] = "Not Applicable"
        vi = {v: i for (i, v) in enumerate(sorted(vdesc.keys()))}
        ##vicons = {f+val2icon(v):f+val2icon(v) for (v,f) in itertools.product(['0','1','2','3'],['c','d','f','t'])}
        ##vicons['?'] = 'c00ffff'
        ##vicons['N/A'] = 'c00ffff'
        ##vicons = icons.iconize(vi.keys())
        for (v, desc) in vdesc.items():
            #print v,vicons[v]
            data.add(common.DomainElement, (fid, v),
                     id='%s-%s' % (fid, v),
                     name=v,
                     description=desc,
                     jsondata={"icon": Colors[v]},
                     number=vi[v],
                     parameter=feature)
    DBSession.flush()

    for ((f, lg), ixs) in grp2([((ld['feature_alphanumid'], ld['language_id']),
                                 i) for i, ld in enumerate(ldps)]):
        ixvs = set([ldps[ix]['value'] for ix in ixs])
        if len(ixvs) == 1:
            continue
        args.log.warn("Dup value %s %s %s" %
                      (f, lg, [(ldps[ix]['value'], ldps[ix]['fromfile'])
                               for ix in ixs]))
        ##print "Dup value %s %s %s" % (f, lg, [(ldps[ix]['value'], ldps[ix]['fromfile'], ldps[ix].get('provenance')) for ix in ixs])
    errors = {}
    done = set()
    glottolog = Glottolog()
    for ld in ldps:

        ############################### for printing different map markers for different familys for features:shafqat
        #print data['Family']

        language = data['lsiLanguage'][ld['language_id']]
        if isinstance(language, (tuple, list)) and len(language) == 2:
            code, language = language
        else:
            code = language.id
        if code != '-':
            gl_language = glottolog.languoid(code)
            if gl_language:
                gl_family = gl_language.family
                if gl_family:
                    family = data['Family'].get(gl_family.id)

        ##ld['value'] = ld['value']+'-'+str(family)
        ##ld['value'] = combineValueFamily(ld['value'],str(family))
        #print family
        #####################################
        parameter = data['Feature'][ld['feature_alphanumid']]
        language = data['lsiLanguage'][ld['language_id']]

        id_ = '%s-%s' % (parameter.id, language.id)
        if id_ in done:
            continue

        if (ld['feature_alphanumid'],
                ld['value']) not in data['DomainElement']:
            if not ld["value"].strip():
                continue
            info = (ld['feature_alphanumid'],
                    ld.get('feature_name', "[Feature Name Lacking]"),
                    ld['language_id'], ld['value'], ld['fromfile'])
            msg = u"%s %s %s %s %s not in the set of legal values ({0})" % info
            args.log.error(
                msg.format(
                    sorted([
                        y for (x, y) in data['DomainElement'].keys()
                        if x == ld['feature_alphanumid']
                    ])))
            ##print msg.format(sorted(
            ##  [y for (x, y) in data['DomainElement'].keys()
            ## if x == ld['feature_alphanumid']]))
            errors[(ld['feature_alphanumid'], ld['language_id'])] = info
            continue

        vs = common.ValueSet(
            id=id_,
            language=language,
            parameter=parameter,
            source=ld["source"] or None,
            ##contribution=parameter.designer
        )
        #print
        #print "this one"
        #print ld['value'],family
        models.lsiValue(
            id=id_,
            domainelement=data['DomainElement'][(ld['feature_alphanumid'],
                                                 ld['value'])],
            jsondata={
                "icon":
                data['DomainElement'][(ld['feature_alphanumid'],
                                       ld['value'])].jsondata,
                "family":
                FamilyCodes[str(family)]
            },
            comment=ld["comment"],
            valueset=vs,
            contributed_datapoint=ld["contributor"])
        done.add(id_)
        '''if not ld.get('bibsources'):
            if 'bibsources' not in ld:
                args.log.warn("no bibsource %s" % ld)
            continue
        for k, _ in [ktfbib(bibsource) for bibsource in ld['bibsources'].split(",,,")]:
            common.ValueSetReference(valueset=vs, source=data['Source'][k])'''
    DBSession.flush()

    #To CLDF
    cldf = {}
    for ld in ldps:
        parameter = data['Feature'][ld['feature_alphanumid']]
        language = data['lsiLanguage'][ld['language_id']]
        id_ = '%s-%s' % (parameter.id, language.id)
        if not id_ in done:
            continue
        dt = (lgs[ld['language_id']], ld['language_id'],
              ld['feature_alphanumid'] + ". " + ld['feature_name'],
              ld["value"])
        cldf[dt] = None

    tab = lambda rows: u''.join([u'\t'.join(row) + u"\n" for row in rows])
    savu(tab([("Language", "iso-639-3", "Feature", "Value")] + cldf.keys()),
         "lsi.cldf")

    args.log.info('%s Errors' % len(errors))

    dataset = common.Dataset(
        id="LSI",
        name='Linguistic Survey of India',
        publisher_name="Sprakbanken",
        publisher_place="Gothenburg",
        publisher_url="to be given",
        description="this is to be followed",
        domain='http://lsi.clld.org',
        published=date(2016, 05, 16),
        contact='*****@*****.**',
        license='http://creativecommons.org/licenses/by-nc-nd/2.0/de/deed.en',
        jsondata={
            'license_icon':
            'http://wals.info/static/images/cc_by_nc_nd.png',
            'license_name':
            'Creative Commons Attribution-NonCommercial-NoDerivs 2.0 Germany'
        })

    # disabled for experimental purposes, names were appearing multiple times
    for i, contributor in enumerate([
            common.Contributor(id="Lars Borin",
                               name="Lars Borin",
                               email="*****@*****.**"),
            common.Contributor(id="Shafqat Mumtaz Virk",
                               name="Shafqat Mumtaz Virk",
                               email="*****@*****.**"),
            common.Contributor(id="Anju Saxena",
                               name="Anju Saxena",
                               email="*****@*****.**"),
            common.Contributor(id="Harald Hammarstrom",
                               name="Harald Hammarstrom",
                               email="*****@*****.**")
    ]):
        #print i
        common.Editor(dataset=dataset, contributor=contributor, ord=i)
    '''cont1 = common.Contributor(
            id="Harald Hammarstrom",
            name="Harald Hammarstrom",
            email="*****@*****.**")
    cont2= common.Contributor(
            id="Shafqat Mumtaz Virk",
            name="Shafqat Mumtaz Virk",
            email="*****@*****.**")
    cont3 = common.Contributor(
            id="Lars Borin",
            name="Lars Borin",
            email="*****@*****.**")
    for contributor in [cont1,cont2,cont3]:
        common.Editor(dataset=dataset, contributor=contributor,ord=1)'''

    DBSession.add(dataset)
    DBSession.flush()
Beispiel #35
0
def create(args):
    args.log.info('starting migration ...')
    data = Data()
    db = create_engine('postgresql://robert@/glottolog2')

    with transaction.manager:
        sn = data.add(common.Contributor,
                      'sn',
                      id='sn',
                      name='Sebastian Nordhoff')
        hh = data.add(common.Contributor,
                      'hh',
                      id='hh',
                      name='Harald Hammarström')
        rf = data.add(common.Contributor,
                      'rf',
                      id='rf',
                      name='Robert Forkel',
                      url="https://github.com/xrotwang")
        mh = data.add(common.Contributor,
                      'mh',
                      id='mh',
                      name='Martin Haspelmath')
        contrib = data.add(common.Contribution,
                           'c',
                           id='classification',
                           name='Classification')
        data.add(common.ContributionContributor,
                 'hh',
                 contribution=contrib,
                 contributor=hh)
        params = dict(
            fc=data.add(common.Parameter,
                        'fc',
                        id='fc',
                        name='Family classification'),
            sc=data.add(common.Parameter,
                        'sc',
                        id='sc',
                        name='Subclassification'),
        )

        dataset = data.add(
            common.Dataset,
            'd',
            id='glottolog',
            name='Glottolog 2.0',
            description='',
            published=datetime.date(2013, 8, 15),
            domain='glottolog.org',
            contact='*****@*****.**',
            jsondata={
                'license_icon':
                'http://i.creativecommons.org/l/by-sa/3.0/88x31.png',
                'license_name':
                'Creative Commons Attribution-ShareAlike 3.0 Unported License'
            })
        for i, ed in enumerate([sn, hh, rf, mh]):
            DBSession.add(
                common.Editor(dataset=dataset, contributor=ed, ord=i + 1))

        valuesets = {}

        def create_languoid(row, father_pk=None):
            glottocode = {
                'akun1242': 'akun1241'
            }.get(row['alnumcode'], row['alnumcode'])
            attrs = dict(
                pk=row['id'],
                id=glottocode,
                name=row['primaryname'],
                description=row['globalclassificationcomment'],
                level=getattr(models2.LanguoidLevel, row['level']),
                status=getattr(models2.LanguoidStatus,
                               (row['status'] or '').replace(' ', '_'), None),
                father_pk=father_pk,
                created=row['updated'],
                jsondata={} if not row['hname'] else {'hname': row['hname']},
            )
            for attr in [
                    'active',
                    'updated',
                    'hid',
                    'latitude',
                    'longitude',
            ]:
                attrs[attr] = row[attr]
            l = data.add(models2.Languoid, row['id'], **attrs)
            for type_ in params:
                id_ = '%s%s' % (type_, row['id'])
                vs = data.add(common.ValueSet,
                              id_,
                              id=id_,
                              description=row['classificationcomment'] if type_
                              == 'fc' else row['subclassificationcomment'],
                              language=l,
                              parameter=params[type_],
                              contribution=contrib)
                data.add(common.Value,
                         id_,
                         id=id_,
                         name='%s - %s' % (row['level'], row['status']),
                         valueset=vs)
                DBSession.flush()
                valuesets[id_] = vs.pk
            return str(row['id'])

        level = 0
        parents = [
            create_languoid(row) for row in db.execute(
                'select * from languoidbase where father_id is null')
        ]
        while parents:
            args.log.info('level: %s' % level)
            level += 1
            parents = [
                create_languoid(
                    row, father_pk=data['Languoid'][row['father_id']].pk)
                for row in db.execute(
                    'select * from languoidbase where father_id in (%s)' %
                    ','.join(parents))
            ]

    def handler(offset, batch):
        svalues = []
        rvalues = []
        for row in batch:
            jsondata = json.loads(row['jsondata'] or "{}")
            jsondata['bibtexkey'] = row['bibtexkey']
            dicts = {
                's':
                dict(pk=row['id'],
                     polymorphic_type='base',
                     id=str(row['id']),
                     name='%(author)s %(year)s' % row,
                     description=row['title'],
                     bibtex_type=getattr(EntryType, row['type']),
                     jsondata=jsondata),
                'r':
                dict(pk=row['id']),
            }
            for model, map_ in {
                    's': {
                        'author': None,
                        'yearstring': 'year',
                        'year': 'year_int',
                        'startpage': 'startpage_int',
                        'numberofpages': 'pages_int',
                        'pages': None,
                        'edition': None,
                        'school': None,
                        'address': None,
                        'url': None,
                        'note': None,
                        'number': None,
                        'series': None,
                        'editor': None,
                        'booktitle': None,
                        'journal': None,
                        'volume': None,
                        'publisher': None,
                    },
                    'r': {
                        'endpage': 'endpage_int',
                        'inlg': None,
                        'inlg_code': None,
                        'subject': None,
                        'subject_headings': None,
                        'keywords': None,
                        'normalizedauthorstring': None,
                        'normalizededitorstring': None,
                        'ozbib_id': None,
                    }
            }.items():
                for okey, nkey in map_.items():
                    dicts[model][nkey or okey] = row[okey]
            svalues.append(dicts['s'])
            rvalues.append(dicts['r'])
        DBSession.execute(common.Source.__table__.insert(), svalues)
        DBSession.execute(models2.Ref.__table__.insert(), rvalues)

    select(db, 'select * from refbase order by id', handler)
    DBSession.execute('COMMIT')

    for table, model, value, order in [
        ('macroarea', models2.Macroarea,
         lambda i, row: dict(pk=row['id'],
                             id=slug(row['name']),
                             name=row['name'],
                             description=row['description']), None),
        ('country', models2.Country,
         lambda i, row: dict(pk=row['id'], id=row['alpha2'], name=row['name']),
         None),
        ('provider', models2.Provider,
         lambda i, row: dict(pk=row['id'],
                             id=slug(row['name']),
                             name=row['description'],
                             description=row['comment'],
                             abbr=row['abbr'],
                             url=row['url'],
                             refurl=row['refurl'],
                             bibfield=row['bibfield']), None),
        ('doctype', models2.Doctype,
         lambda i, row: dict(pk=row['id'],
                             id=slug(row['name']),
                             abbr=row['abbr'],
                             name=row['name'],
                             description=row['description']), None),
        ('refprovider', models2.Refprovider, lambda i, row: dict(
            pk=i, provider_pk=row['provider_id'], ref_pk=row['refbase_id']),
         ('provider_id', 'refbase_id')),
        ('refdoctype', models2.Refdoctype, lambda i, row: dict(
            pk=i, doctype_pk=row['doctype_id'], ref_pk=row['refbase_id']),
         ('doctype_id', 'refbase_id')),
    ]:
        insert(db, table, model, value, order=order)

    names = dict(
        (int(d['id']), d['pk'])
        for d in insert(db,
                        'namebase',
                        common.Identifier,
                        lambda i, row: dict(pk=i,
                                            id=str(row['id']),
                                            name=row['namestring'],
                                            type='name',
                                            description=row['nameprovider'],
                                            lang=row['inlg'] if row['inlg'] and
                                            len(row['inlg']) <= 3 else 'en'),
                        order='id'))

    codes = dict(
        (int(d['id']), d['pk'])
        for d in insert(db,
                        'codebase',
                        common.Identifier,
                        lambda i, row: dict(pk=i,
                                            id=str(row['id']),
                                            name=row['codestring'],
                                            type=common.IdentifierType.iso.
                                            value if row['codeprovider'] ==
                                            'ISO' else row['codeprovider']),
                        start=len(names),
                        order='id'))

    res = insert(
        db, 'nodecodes', common.LanguageIdentifier,
        lambda i, row: dict(pk=i,
                            language_pk=row['languoidbase_id'],
                            identifier_pk=codes[row['codebase_id']]))

    insert(db,
           'nodenames',
           common.LanguageIdentifier,
           lambda i, row: dict(pk=i,
                               language_pk=row['languoidbase_id'],
                               identifier_pk=names[row['namebase_id']]),
           start=len(res))

    for table, model, value in [
        ('languoidmacroarea', models2.Languoidmacroarea,
         lambda i, row: dict(pk=i,
                             languoid_pk=row['languoidbase_id'],
                             macroarea_pk=row['macroarea_id'])),
        ('languoidcountry', models2.Languoidcountry,
         lambda i, row: dict(pk=i,
                             languoid_pk=row['languoidbase_id'],
                             country_pk=row['country_id'])),
        ('noderefs', common.LanguageSource,
         lambda i, row: dict(pk=i,
                             language_pk=row['languoidbase_id'],
                             source_pk=row['refbase_id'])),
        ('refmacroarea', models2.Refmacroarea, lambda i, row: dict(
            pk=i, macroarea_pk=row['macroarea_id'], ref_pk=row['refbase_id'])),
        ('refcountry', models2.Refcountry, lambda i, row: dict(
            pk=i, country_pk=row['country_id'], ref_pk=row['refbase_id'])),
        ('spuriousreplacements', models2.Superseded,
         lambda i, row: dict(pk=i,
                             languoid_pk=row['languoidbase_id'],
                             replacement_pk=row['replacement_id'],
                             description=row['relation'])),
        ('justification', common.ValueSetReference, lambda i, row: dict(
            pk=i,
            valueset_pk=valuesets['%s%s' % ('fc' if row[
                'type'] == 'family' else 'sc', row['languoidbase_id'])],
            source_pk=row['refbase_id'],
            description=row['pages'])),
    ]:
        insert(db, table, model, value)
Beispiel #36
0
def main(args):
    """
    The case is we have to codings for two different dialects (called hua and yagaria) of
    the same iso "qgr", both of which we want to keep and keep separately. I had missed
    that when making NTS, rigging everything so that the iso would be the id, which is not
    sufficient. Glottocodes in Grambank would have taken care of it except the dialect
    division for yaga1260 is wrong, having yagaria as overarching and Hua under it
    (reality has it that Hua and Yagaria are two dialects of the same language, which has
    no name). So a solution with glottocodes would have to wait until we fix that or need
    another fix later. So I guess, for now, let's ignore qgr (and its datapoints) and I'll
    fix on my end later.
    """
    data = Data(
        created=utc.localize(datetime(2013, 11, 15)),
        updated=utc.localize(datetime(2013, 12, 12)))
    icons = issues.Icons()

    dtab = partial(_dtab, args.data_file())

    #Languages
    tabfns = ['%s' % fn.name for fn in args.data_file().glob('nts_*.tab')]
    args.log.info("Sheets found: %s" % tabfns)
    ldps = []
    lgs = {}
    nfeatures = Counter()
    nlgs = Counter()

    for fn in tabfns:
        for ld in dtab(fn):
            if ld['language_id'] == 'qgr':
                continue
            if "feature_alphanumid" not in ld:
                args.log.info("NO FEATUREID %s %s" % (len(ld), ld))
            if not ld["feature_alphanumid"].startswith("DRS") \
                    and ld["feature_alphanumid"].find(".") == -1:
                ldps.append(dp_dict(ld))
                lgs[ld['language_id']] = unescape(ld['language_name'])
                if ld["value"] != "?":
                    nfeatures.update([ld['language_id']])
                    nlgs.update([ld['feature_alphanumid']])

    ldps = sorted(ldps, key=lambda d: d['feature_alphanumid'])

    lgs["ygr"] = "Hua"

    for lgid, lgname in lgs.items():
        data.add(
            models.ntsLanguage, lgid,
            id=lgid,
            name=lgname,
            representation=nfeatures.get(lgid, 0))
    DBSession.flush()

    load_families(data, [(NOCODE_TO_GLOTTOCODE.get(l.id, l.id), l) for l in data['ntsLanguage'].values()], isolates_icon='tcccccc')
    #glottolog = Glottolog()
    #for lg in data['ntsLanguage'].values():
    #    print lg.id, NOCODE_TO_GLOTTOCODE.get(lg.id, lg.id)
    #    gl_language = glottolog.languoid(NOCODE_TO_GLOTTOCODE.get(lg.id, lg.id))
    #    if not gl_language.family:
    #        family = data.add(Family, gl_language.id, id = gl_language.id, name = gl_language.name, description=common.Identifier(name=gl_language.id, type=common.IdentifierType.glottolog.value).url(), jsondata={"icon": 'tcccccc'})
    #        lg.family = family

    
    #Domains
    for domain in set(ld['feature_domain'] for ld in ldps):
        data.add(models.FeatureDomain, domain, name=domain)
    DBSession.flush()

    #Designers
    for i, info in enumerate(dtab("ntscontributions.tab") + dtab("ntscontacts.tab")):
        designer_id = str(i + 1)
        data.add(
            models.Designer, info['designer'],
            id=designer_id,
            name=designer_id,
            domain=info["domain"],
            contributor=info['designer'],
            pdflink=info["pdflink"],
            citation=info["citation"])
    DBSession.flush()

    #Sources
    for k, (typ, bibdata) in [
        ktfbib(bibsource) for ld in ldps
        if ld.get(u'bibsources') for bibsource in ld['bibsources'].split(",,,")
    ]:
        if k not in data["Source"]:
            data.add(common.Source, k, _obj=bibtex2source(Record(typ, k, **bibdata)))
    DBSession.flush()

    #Features
    fs = [(fid, mergeds(lds)) for fid, lds in
          groupby(ldps, key=lambda d: d['feature_alphanumid'])]

    fvdesc = [(fid, [(ld.get("feature_possible_values"), ld.get("fromfile")) for ld in lds if ld.get("feature_possible_values")]) for fid, lds in groupby(ldps, key=lambda d: d['feature_alphanumid'])]
    fvdt = [(fid, grp2(vdescs)) for (fid, vdescs) in fvdesc]
    fvmis = [(fid, vdescs) for (fid, vdescs) in fvdt if len(vdescs) > 1]
    for (fid, vdescs) in fvmis:
        print fid, "DIFF VDESC"
        for (vd, fromf) in vdescs:
            print vd, set(fromf)

    for _, dfsids in groupby(
            sorted((f.get('feature_name', fid), fid) for fid, f in fs),
            key=lambda t: t[0]):
        assert len(list(dfsids)) == 1

    for fid, f in fs:
        if not fid.isdigit():
            args.log.info("NO INT FID %s" % f)           
        feature = data.add(
            models.Feature, fid,
            id=fid,
            name=f.get('feature_name', f['feature_alphanumid']),
            doc=f.get('feature_information', ""),
            vdoc=f.get('feature_possible_values', ""),
            representation=nlgs.get(fid, 0),
            designer=data["Designer"][f['designer']],
            dependson=f.get("depends_on", ""),
            abbreviation=f.get("abbreviation", ""),
            featuredomain=data['FeatureDomain'][f["feature_domain"]],
            name_french=f.get('francais', ""),
            clarification=f.get("draft of clarifying comments to outsiders (hedvig + dunn + harald + suzanne)", ""),
            alternative_id=f.get("old feature number", ""),
            jl_relevant_unit=f.get("relevant unit(s)", ""),
            jl_function=f.get("function", ""),
            jl_formal_means=f.get("formal means", ""),
            sortkey_str="",
            sortkey_int=int(fid))

        vdesclist = [veq.split("==") for veq in feature.vdoc.split("||")]
        vdesc = {v.replace(".", "-"): desc for [v, desc] in vdesclist}
        vdesc.setdefault('?', 'Not known')
        if 'N/A' not in vdesc and feature.dependson:
            vdesc["N/A"] = "Not Applicable"
        vi = {v: i for (i, v) in enumerate(sorted(vdesc.keys()))}
        vicons = icons.iconize(vi.keys())
        for v, desc in vdesc.items():
            data.add(
                common.DomainElement, (fid, v),
                id='%s-%s' % (fid, v),
                name=v,
                description=desc,
                jsondata={"icon": vicons[v]},
                number=vi[v],
                parameter=feature)
    DBSession.flush()

    for ((f, lg), ixs) in grp2(
            [((ld['feature_alphanumid'], ld['language_id']), i)
             for i, ld in enumerate(ldps)]):
        ixvs = set([ldps[ix]['value'] for ix in ixs])
        if len(ixvs) == 1:
            continue
        args.log.warn(
            "Dup value %s %s %s" %
            (f, lg, [(ldps[ix]['value'], ldps[ix]['fromfile']) for ix in ixs]))
        print "Dup value %s %s %s" % (f, lg, [(ldps[ix]['value'], ldps[ix]['fromfile'], ldps[ix].get('provenance')) for ix in ixs])
    errors = {}
    done = set()
    for ld in ldps:
        parameter = data['Feature'][ld['feature_alphanumid']]
        language = data['ntsLanguage'][ld['language_id']]
        
        id_ = '%s-%s' % (parameter.id, language.id)
        if id_ in done:
            continue

        if (ld['feature_alphanumid'], ld['value']) not in data['DomainElement']:
            if not ld["value"].strip():
                continue
            info = (
                ld['feature_alphanumid'],
                ld.get('feature_name', "[Feature Name Lacking]"),
                ld['language_id'],
                ld['value'],
                ld['fromfile'])
            msg = u"%s %s %s %s %s not in the set of legal values ({0})" % info
            args.log.error(msg.format(sorted(
                [y for (x, y) in data['DomainElement'].keys()
                 if x == ld['feature_alphanumid']])))
            print msg.format(sorted(
                [y for (x, y) in data['DomainElement'].keys()
                 if x == ld['feature_alphanumid']]))
            errors[(ld['feature_alphanumid'], ld['language_id'])] = info
            continue

        vs = common.ValueSet(
            id=id_,
            language=language,
            parameter=parameter,
            source=ld["source"] or None,
            contribution=parameter.designer)
        models.ntsValue(
            id=id_,
            domainelement=data['DomainElement'][(ld['feature_alphanumid'], ld['value'])],
            jsondata={"icon": data['DomainElement'][(ld['feature_alphanumid'], ld['value'])].jsondata},
            comment=ld["comment"],
            valueset=vs,
            contributed_datapoint=ld["contributor"])
        done.add(id_)

        if not ld.get('bibsources'):
            if 'bibsources' not in ld:
                args.log.warn("no bibsource %s" % ld)
            continue
        for k, _ in [ktfbib(bibsource) for bibsource in ld['bibsources'].split(",,,")]:
            common.ValueSetReference(valueset=vs, source=data['Source'][k])
    DBSession.flush()

    #To CLDF
    cldf = {}
    for ld in ldps:
        parameter = data['Feature'][ld['feature_alphanumid']]
        language = data['ntsLanguage'][ld['language_id']]
        id_ = '%s-%s' % (parameter.id, language.id)
        if not id_ in done:
            continue
        dt = (lgs[ld['language_id']], ld['language_id'], ld['feature_alphanumid'] + ". " + ld['feature_name'], ld["value"]) #, ld["comment"], ld["source"], bibliographical_details(ld.get('bibsources', "").split(",,,"))
        cldf[dt] = None
        
        
    tab = lambda rows: u''.join([u'\t'.join(row) + u"\n" for row in rows])
    savu(tab([("Language", "iso-639-3", "Feature", "Value")] + cldf.keys()), "nts.cldf", encoding = "utf-8") #utf-16 "Comment", "Source", "Bibliographical Details"



    #cldf = {}
    #for ld in ldps:
    #    parameter = data['Feature'][ld['feature_alphanumid']]
    #    language = data['ntsLanguage'][ld['language_id']]
    #    id_ = '%s-%s' % (parameter.id, language.id)
    #    if not id_ in done:
    #        continue
    #    dt = (lgs[ld['language_id']], ld['language_id'], ld['feature_alphanumid'] + ". " + ld['feature_name'], ld["value"], ld["comment"], ld["source"], bibliographical_details(ld.get('bibsources', "").split(",,,")), ld.get("feature_information", ""), ld.get('feature_possible_values', ""), ld["designer"], ld.get("abbreviation", ""), ld["feature_domain"], ld.get('francais', ""), ld.get("dependencies", ""), ld.get("draft of clarifying comments to outsiders (hedvig + dunn + harald + suzanne)", ""))
    #    cldf[dt] = None
    
    #savu(tab([("Language", "iso-639-3", "Feature", "Value", "Comment", "Source", "Bibliographical Details", "Feature Information", "Feature Possible Values", "Feature Designer", "Feature Abbreviation", "Feature Domain", "Feature (French)", "Feature Dependencies", "Feature Clarifying Comments")] + cldf.keys()), "nts-with-metadata.tsv", encoding="utf-16")

    
    args.log.info('%s Errors' % len(errors))

    dataset = common.Dataset(
        id="NTS",
        name='Nijmegen Typological Survey',
        publisher_name="Max Planck Institute for Psycholinguistics",
        publisher_place="Nijmegen",
        publisher_url="http://www.mpi.nl",
        description="""Dataset on Typological Features, collected 2013-2014 in the Language and Cognition Department at the Max Planck Institute for Psycholinguistics, Max-Planck Gesellschaft, and a European Research Council's Advanced Grant (269484 "INTERACT") to Stephen C. Levinson.""",
        domain='http://nts.clld.org',
        published=date(2014, 2, 20),
        contact='*****@*****.**',
        license='http://creativecommons.org/licenses/by-nc-nd/2.0/de/deed.en',
        jsondata={
            'license_icon': 'http://wals.info/static/images/cc_by_nc_nd.png',
            'license_name': 'Creative Commons Attribution-NonCommercial-NoDerivs 2.0 Germany'})

    for i, contributor in enumerate([
        common.Contributor(
            id="Harald Hammarstrom",
            name="Harald Hammarstrom",
            email="*****@*****.**"),
        common.Contributor(
            id="Suzanne van der Meer",
            name="Suzanne van der Meer",
            email="*****@*****.**"),
        common.Contributor(
            id="Hedvig Skirgard",
            name="Hedvig Skirgard",
            email="*****@*****.**")
    ]):
        common.Editor(dataset=dataset, contributor=contributor, ord=i)

    DBSession.add(dataset)
Beispiel #37
0
def main(args):
    citations.main(args)
    data = Data()

    pairs = {}
    languages = {}

    coords = {}
    for lang in dsv.rows(
        args.data_file('MB_Map_Data_Aug13WLabels'),
        namedtuples=True,
        newline='\n',
        encoding='latin1'
    ):
        coords[slug(lang.Label.split('<')[0].strip())] = (
            float(lang.y), float(lang.x))

    xls = xlrd.open_workbook(args.data_file('MB_BoCatSum_AFBO.xlsx'))
    matrix = xls.sheet_by_name('MB_BoCatSum_AFBO.txt')
    md = "area\trecipient language iso\trecipient language genus\tdonor language iso\tdonor language genus".split('\t')

    fields = []
    params = []
    for i in range(matrix.ncols):
        colname = xlrd.colname(i)
        if len(colname) == 2 and colname > 'BE':
            break
        colval = matrix.cell(0, i).value.strip()
        if (len(colname) == 1 and colname > 'G') or (len(colname) == 2 and colname < 'AY'):
            params.append(colval)
            fields.append(colval)
        else:
            fields.append(colval.lower())

    for f in fields:
        if fields.count(f) > 1:
            print(f)

    assert len(fields) == len(set(fields))

    for j in range(1, matrix.nrows):
        values = dict(zip(fields, [matrix.cell(j, i).value for i in range(matrix.ncols)]))
        try:
            id_ = int(values['perm.id'])
        except:
            continue

        pairs[id_] = values
        for type_ in ['recipient', 'donor']:
            languages[values[type_ + ' language'].strip()] = {
                'macroarea': values['area']}
            for md in ['iso', 'genus']:
                languages[values[type_ + ' language'].strip()][md] \
                    = values['%s language %s' % (type_, md)]

    for name in COORDS:
        assert name in languages

    sources = {}
    with open(args.data_file('MB_Case_List_with_links.html')) as fp:
        worddoc = fp.read()
        for m in re.finditer('\"__(?P<recid>[^_]+)__\"', worddoc):
            sources[m.group('recid').decode('utf8')] = 1
        soup = bs(worddoc)

    doc = {}
    cols = []
    table = soup.find('table')
    for tr in table.children:
        if tr.name != 'tr':
            continue
        tds = filter(lambda n: n.name == 'td', tr.children)
        if not cols:
            cols = map(text, tds)
        else:
            values = dict(zip(cols, tds))
        try:
            id_ = int(text(values['perm.id']))
            doc[id_] = values
            if id_ in pairs:
                assert doc['Recipient lg.'] == pairs[id_][1]['recipient language']
                assert doc['Don'] == pairs[id_][1]['donor language']
        except:
            continue

    dataset = common.Dataset(
        id='afbo',
        name="AfBo: A world-wide survey of affix borrowing",
        contact="*****@*****.**",
        domain="afbo.info",
        license='http://creativecommons.org/licenses/by/3.0/',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 3.0 Unported License'})

    DBSession.add(dataset)
    for i, spec in enumerate([('seifart', "Frank Seifart")]):
        DBSession.add(common.Editor(
            dataset=dataset,
            ord=i + 1,
            contributor=common.Contributor(id=spec[0], name=spec[1])))

    contrib = data.add(common.Contribution, 'afbo', name="AfBo", id="afbo")

    iso_map = {
        ('ron', 'Meglenite Romanian'): ('ruq', None),
        ('fra', 'Norman French'): ('xno', None),
        ('tur', 'Turkic'): (None, 'turk1311'),
        ('xuu', 'Kxoe languages'): (None, 'khoe1241'),
        ('zoc', 'Zoquean languages'): (None, 'zoqu1261'),
        ('tzm', 'Moroccan Berber languages'): (None, 'atla1275'),
        ('cvn', 'Quechua'): ('qvn', None),
        ('rop', 'Gurindji Kriol'): (None, 'guri1249'),
        ('ita', 'Sicilian Italian'): ('scn', None),
        ('srp', 'Croatian'): ('hrv', None),
        ('eme', 'Wayampi‑Emerillon‑Zo’é'): (None, 'waya1271'),
        ('ale', 'Copper Island Aleut'): ('mud', None),
        ('car', 'intermediate Proto‑Carib'): (None, 'cari1283'),
        ('ell', 'Cappadocian Greek'): ('cpg', None),
        ('eng', 'Middle English'): ('enm', None),
        ('als', 'Arvanitic Albanian'): ('aat', None),
        ('nys', 'Northern Nyungic'): (None, 'dese1234'),
        ('ron', 'Istro‑Romanian'): ('ruo', None),
        ('chf', 'Cho’ol'): ('ctu', None),
        ('tuo', 'Eastern Tucanoan languages'): (None, 'east2698'),
        ('ceb', 'Visayan'): (None, 'bisa1268'),
        ('por', 'Sri Lanka Portuguese'): (None, 'mala1544'),
        ('brx', 'Tibeto-Burman languages'): (None, 'brah1260'),
    }

    with open('name_conflicts.tab', 'w') as fp:
        fp.write('iso\tafbo\tglottolog\tproposed iso\n')
        for i, name in enumerate(languages.keys()):
            md = languages[name]
            iso = md.pop('iso')
            if iso == 'cvn' and name == 'Quechua':
                iso = 'qvn'
            kw = dict(name=name, id=str(i+1), jsondata=md)
            if name in COORDS:
                kw['latitude'], kw['longitude'] = COORDS[name]
            elif slug(name) in coords:
                kw['latitude'], kw['longitude'] = coords[slug(name)]
            elif glottocoords.get(iso):
                kw['latitude'], kw['longitude'] = glottocoords[iso]

            if glottonames.get(iso) and slug(glottonames.get(iso)) != slug(name):
                fp.write(('%s\t%s\t%s\t%s\n' % (
                    iso, name, glottonames.get(iso), rglottonames.get(slug(name), ''))).encode('utf8'))

            if name == 'Meglenite Romanian':
                kw['name'] = 'Megleno Romanian'
            if not 'latitude' in kw:
                print(name)
            l = data.add(common.Language, name, **kw)

            iso, gc = iso_map.get((iso, name), (iso, None))

            for code, type_ in [
                (iso, common.IdentifierType.iso),
                (gc or glottocodes.get(iso), common.IdentifierType.glottolog)
            ]:
                if code:
                    identifier = data.add(
                        common.Identifier, code, id=code, name=code, type=type_.value)
                    data.add(
                        common.LanguageIdentifier, '%s-%s' % (code, l.id),
                        identifier=identifier, language=l)

    include = sources.keys() + [
        'myersscottoncontact2002', 'myersscottonlanguage2007',
        'meakinsborrowing2011', 'seifartprinciple2012',
    ]
    refdb = bibtex.Database.from_file(args.data_file('FSeifartZoteroLibrary14Nov2013.bib'))
    for rec in refdb:
        if slug(rec.id) in include:
            data.add(common.Source, slug(rec.id), _obj=bibtex2source(rec))

    for i, name in enumerate(params):
        data.add(models.AffixFunction, name, id=str(i + 1), name=name)

    for id_, vd in pairs.items():
        assert id_ in doc

        donor = data['Language'][vd['donor language'].strip()]
        recipient = data['Language'][vd['recipient language'].strip()]

        p = data.add(
            models.Pair,
            id_,
            id=str(id_),
            name=vd['pairs'].replace('Meglenite', 'Megleno'),
            area=recipient.jsondata['macroarea'],
            description=unicode(doc[id_]['comment']).replace('<h1', '<p').replace('</h1>', '</p>').replace('Meglenite', 'Megleno'),
            reliability=vd['reliability'],
            int_reliability=['high', 'mid', 'low'].index(vd['reliability']),
            count_interrel=int(vd[u'number of interrelated affixes']),
            count_borrowed=int(vd['number of borrowed affixes']),
            donor=donor,
            recipient=recipient)
        DBSession.flush()

        for i, param in enumerate(params):
            param_id = i + 1
            value = vd[param]
            if value != '':
                vsid = '%s-%s' % (recipient.id, param_id)
                if vsid in data['ValueSet']:
                    vs = data['ValueSet'][vsid]
                else:
                    vs = data.add(
                        common.ValueSet, vsid,
                        id=vsid,
                        parameter=data['AffixFunction'][param],
                        language=recipient,
                        contribution=contrib)
                data.add(
                    models.waabValue,
                    '%s-%s' % (id_, param_id),
                    id='%s-%s' % (id_, param_id),
                    pair=p,
                    name='%s' % int(value),
                    numeric=int(value),
                    description='%s' % p,
                    valueset=vs)
Beispiel #38
0
def main(args):
    data = Data()
    glottocodes, bibtex_keys = {}, defaultdict(set)
    for d in reader(
            args.data_file('repos', 'mappings',
                           'InventoryID-ISO-gcode-Bibkey-Source.tsv')):
        glottocodes[d['InventoryID']] = d['Glottocode']
        bibtex_keys[d['InventoryID']].add(d['BibtexKey'])

    glottolog = Glottolog(
        Path(phoible.__file__).parent.parent.parent.parent.joinpath(
            'glottolog3', 'glottolog'))
    languoids = {l.id: l for l in glottolog.languoids()}

    phonemes = sorted(list(
        reader(args.data_file('repos', 'data', 'phoible-by-phoneme.tsv'))),
                      key=lambda r: (r['InventoryID'], r['GlyphID']))

    inventories = defaultdict(set)
    for p in phonemes:
        if p['InventoryID'] in glottocodes:
            inventories[(languoids[glottocodes[p['InventoryID']]].name,
                         p['SpecificDialect'], p['Source'].upper())].add(
                             (p['InventoryID'], p['LanguageName']))

    inventory_names = {}
    for (glname, dname, source), invids in inventories.items():
        if len(invids) == 1:
            invid, lname = invids.pop()
            inventory_names[invid] = name_in_source(glname,
                                                    dname) + ' [%s]' % source
        else:
            use_lname = len(set(r[1] for r in invids)) == len(invids)
            for i, (invid,
                    lname) in enumerate(sorted(invids,
                                               key=lambda j: int(j[0]))):
                disambiguation = ' %s' % (i + 1, )
                if use_lname:
                    disambiguation = ' (%s)' % lname
                inventory_names[invid] = name_in_source(
                    glname, dname) + '%s [%s]' % (disambiguation, source)

    for (invid, lname, dname, source), ps in groupby(
            phonemes, lambda p: (p['InventoryID'], p['LanguageName'], p[
                'SpecificDialect'], p['Source'])):
        if invid not in glottocodes:
            continue
        ps = list(ps)
        gc = glottocodes[invid]
        lang = data['Variety'].get(gc)
        if not lang:
            languoid = languoids[gc]
            lang = data.add(
                models.Variety,
                gc,
                id=gc,
                language_code=ps[0]['LanguageCode'],
                name=languoid.name,
                level=text_type(languoid.level.name),
                latitude=languoid.latitude,
                longitude=languoid.longitude,
            )
            if lang.latitude is None and languoid.level == Level.dialect:
                ll = get_language(languoid)
                lang.latitude = ll.latitude
                lang.longitude = ll.longitude

        contrib = data.add(
            models.Inventory,
            invid,
            id=invid,
            #language=lang,
            source=source,
            #source_url=source_urls.get(row.InventoryID),
            #internetarchive_url=ia_urls.get(row.InventoryID),
            name=inventory_names[invid],
            description=name_in_source(lname, dname))

    return

    # FIXME: read from mappings file!
    refs = defaultdict(list)
    for row in get_rows(args, 'BibtexKey'):
        if row[1] == 'NO SOURCE GIVEN':
            refs[row[0]] = []
        else:
            refs[row[0]].append(row[1])
    add_sources(args, data)

    dataset = data.add(
        common.Dataset,
        'phoible',
        id='phoible',
        name='PHOIBLE Online',
        description='PHOIBLE Online',
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="https://www.shh.mpg.de",
        domain='phoible.org',
        license='http://creativecommons.org/licenses/by-sa/3.0/',
        contact='*****@*****.**',
        jsondata={
            'license_icon':
            'http://i.creativecommons.org/l/by-sa/3.0/88x31.png',
            'license_name':
            'Creative Commons Attribution-ShareAlike 3.0 Unported License'
        })

    for i, spec in enumerate([
        ('moran', "Steven Moran"),
        ('mccloy', "Daniel McCloy"),
        ('wright', "Richard Wright"),
    ]):
        DBSession.add(
            common.Editor(dataset=dataset,
                          ord=i + 1,
                          contributor=common.Contributor(id=spec[0],
                                                         name=spec[1])))

    #squibs = defaultdict(list)
    #for row in get_rows(args, 'Squib'):
    #    squibs[row[0]].append(row[1])

    source_urls = dict(get_rows(args, 'URL'))
    ia_urls = dict(get_rows(args, 'InternetArchive'))

    # FIXME: group phoible-by-phoneme by LanguageCode, Source (make sure this is unique!)
    aggregated = list(
        reader(args.data_file('phoible-aggregated.tsv'),
               delimiter='\t',
               namedtuples=True))
    inventory_names = {}
    for key, items in groupby(sorted(aggregated,
                                     key=lambda t: (t.LanguageCode, t.Source)),
                              key=lambda t: (t.LanguageCode, t.Source)):
        items = list(items)

        lname = lnames.get(key[0])
        if not lname:
            lname = items[0].LanguageName
            lnames[key[0]] = lname

        if len(items) == 1:
            inventory_names[items[0].InventoryID] = '%s (%s)' % (lname, key[1])
        else:
            for i, item in enumerate(items):
                inventory_names[item.InventoryID] = '%s %s (%s)' % (lname, i +
                                                                    1, key[1])

    # pull in Glottolog families instead? or in addition?

    family_map = {
        ("Arawakan", "arwk"): "Arawakan",
        ("Trans-New Guinea", "trng"): "Trans-New Guinea",
        ("Moklen", "anes"): "Austronesian",
        ("Oko", "ncon"): "Niger-Congo",
        ("Muniche", "saso"): "Muniche",
        ("Tinigua", "saso"): "Tinigua",
        ("Vilela", "luvi"): "Vilela",
        ("Ofayé", "macg"): "Kamakanan",
        ("Purian", "macg"): "PurianPrint",
        ("Mixed language", "saml"): "Mixed language",
        ("Tupian", "tupi"): "Tupian",
        ("Yuwana", "saun"): "YuwanaPrint",
    }
    family_code_map = {k[1]: v for k, v in family_map.items()}

    for row in aggregated:
        lang = data['Variety'].get(row.LanguageCode)
        if not lang:
            if row.LanguageFamilyGenus == 'UNCLASSIFIED':
                genus = None
            else:
                genus_id = slug(strip_quotes(row.LanguageFamilyGenus))
                genus = genera.get(genus_id)
                if not genus:
                    genus = genera.get(row.LanguageCode)
                    if not genus:
                        #print(row.LanguageFamilyGenus, row.LanguageFamilyRoot)
                        family = family_map.get(
                            (row.LanguageFamilyGenus, row.LanguageFamilyRoot))
                        genus = genera[genus_id] = data.add(
                            models.Genus,
                            genus_id,
                            id=genus_id,
                            name=row.LanguageFamilyGenus,
                            description=family or row.LanguageFamilyRoot,
                            active=False,
                            root=row.LanguageFamilyRoot)

                if not genus.root:
                    genus.root = row.LanguageFamilyRoot

                if genus.description in family_code_map:
                    genus.description = family_code_map[genus.description]

            if row.LanguageCode in geocoords:
                coords = geocoords[row.LanguageCode]
            elif row.Latitude != 'NULL' and row.Longitude != 'NULL':
                coords = (float(row.Latitude), float(row.Longitude))
            lang = data.add(models.Variety,
                            row.LanguageCode,
                            id=row.LanguageCode,
                            name=lnames[row.LanguageCode],
                            genus=genus,
                            country=strip_quotes(row.Country),
                            area=strip_quotes(row.Area),
                            latitude=coords[0],
                            longitude=coords[1],
                            jsondata=dict(inventory_id=row.InventoryID))
            add_language_codes(data,
                               lang,
                               row.LanguageCode,
                               glottocodes=glottocodes)

        contributor = data['Contributor'].get(row.Source)
        if not contributor:
            contributor = data.add(common.Contributor,
                                   row.Source,
                                   id=row.Source,
                                   name=SOURCES[row.Source][0],
                                   description=SOURCES[row.Source][2])
            for ref in SOURCES[row.Source][1]:
                DBSession.add(
                    models.ContributorReference(source=data['Source'][ref],
                                                contributor=contributor))

        contrib = data.add(models.Inventory,
                           row.InventoryID,
                           id=row.InventoryID,
                           language=lang,
                           source=row.Source,
                           source_url=source_urls.get(row.InventoryID),
                           internetarchive_url=ia_urls.get(row.InventoryID),
                           name=inventory_names[row.InventoryID],
                           description=row.LanguageName)

        DBSession.add(
            common.ContributionContributor(contribution=contrib,
                                           contributor=contributor))

        #for j, squib in enumerate(squibs.get(row.InventoryID, [])):
        #    f = common.Contribution_files(
        #        object=contrib,
        #        id='squib-%s-%s.pdf' % (contrib.id, j + 1),
        #        name='Phonological squib',
        #        description=squib,
        #        mime_type='application/pdf')
        #    assert f
        #    # f.create(files_dir, file(args.data_file('phonological_squibs', src)).read())

    DBSession.flush()
    unknown_refs = {}

    for row in reader(args.data_file('phoible-phonemes.tsv'),
                      namedtuples=True):
        inventory = data['Inventory'][row.InventoryID]
        segment = data['Segment'].get(row.Phoneme)
        if not segment:
            unicode_desc = [(c, unicodedata.name(c)) for c in row.Phoneme]
            description = ' - '.join([t[1] for t in unicode_desc])
            segment = data.add(
                models.Segment,
                row.Phoneme,
                id=b16encode(md5(description).digest()),
                name=row.Phoneme,
                description=description,
                equivalence_class=''.join([
                    t[0] for t in unicode_desc
                    if t[1].split()[0] not in ['COMBINING', 'MODIFIER']
                ]),
                segment_class=row.Class,
                combined_class=row.CombinedClass)
            DBSession.flush()

        vs = common.ValueSet(id=row.PhonemeID,
                             contribution=inventory,
                             language=inventory.language,
                             parameter=segment)

        for ref in refs.get(row.InventoryID, []):
            if ref not in data['Source']:
                if ref not in unknown_refs:
                    print('-------', ref)
                unknown_refs[ref] = 1
                continue
            DBSession.add(
                common.ValueSetReference(source=data['Source'][ref],
                                         valueset=vs))

        DBSession.add(
            common.Value(
                id=row.PhonemeID,
                name='%s %s' %
                (row.Phoneme, data['Inventory'][row.InventoryID].name),
                valueset=vs))
        DBSession.flush()

    for inventory_id in refs:
        for ref in refs[inventory_id]:
            if ref not in data['Source']:
                continue
            data.add(common.ContributionReference,
                     '%s-%s' % (inventory_id, ref),
                     source=data['Source'][ref],
                     contribution=data['Inventory'][inventory_id])

    for i, row in enumerate(
            reader(args.data_file('phoible-segments-features.tsv'))):
        if i == 0:
            features = list(map(feature_name, row))
            continue

        if row[0] not in data['Segment']:
            # print('skipping feature vector:', row)
            continue
        for j, value in enumerate(row):
            if j and value != '0':
                DBSession.add(
                    common.Parameter_data(
                        key=features[j],
                        value=value,
                        ord=j,
                        object_pk=data['Segment'][row[0]].pk))

    # FIXME: add allophones!

    DBSession.flush()
Beispiel #39
0
def main(args):  # pragma: no cover
    ds = StructureDataset.from_metadata(DS)
    data = Data()
    for source in ds.sources:
        data.add(common.Source, source.id, _obj=bibtex2source(source))

    ext = [
        Record.from_string('@' + s, lowercase=True)
        for s in nfilter(BIB.split('@'))
    ]
    for rec in ext:
        if rec.id not in data['Source']:
            data.add(common.Source, rec.id, _obj=bibtex2source(rec))

    for contrib in ds['contributors.csv']:
        o = data.add(
            common.Contributor,
            contrib['ID'],
            id=contrib['ID'].upper(),
            name=contrib['Name'],
            description=contrib['Description'],
            url=contrib['URL'],
            jsondata={
                'readme': contrib['Readme'],
                'contents': contrib['Contents']
            },
        )
        for src in contrib['Source']:
            DBSession.add(
                models.ContributorReference(source=data['Source'][src],
                                            contributor=o))

    dataset = data.add(
        common.Dataset,
        'phoible',
        id='phoible',
        name='PHOIBLE 2.0',
        description='PHOIBLE 2.0',
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="https://www.shh.mpg.de",
        domain='phoible.org',
        license='https://creativecommons.org/licenses/by-sa/3.0/',
        contact='*****@*****.**',
        jsondata={
            'license_icon':
            'https://i.creativecommons.org/l/by-sa/3.0/88x31.png',
            'license_name':
            'Creative Commons Attribution-ShareAlike 3.0 Unported License'
        })

    for i, (cid, name) in enumerate([
        ('UZ', "Steven Moran"),
        ('mccloy', "Daniel McCloy"),
    ],
                                    start=1):
        contrib = data['Contributor'].get(cid)
        if not contrib:
            contrib = common.Contributor(id=cid, name=name)
        DBSession.add(
            common.Editor(dataset=dataset, ord=i, contributor=contrib))

    glottolog = Glottolog(
        Path(phoible.__file__).parent.parent.parent.parent.joinpath(
            'glottolog', 'glottolog'))

    for lang in ds['LanguageTable']:
        l = data.add(
            models.Variety,
            lang['ID'],
            id=lang['ID'],
            name=lang['Name'],
        )

    load_families(data, [(l.id, l)
                         for l in data['Variety'].values() if len(l.id) == 8],
                  glottolog.repos)
    DBSession.flush()

    # assign color codes:
    families = defaultdict(list)
    for l in data['Variety'].values():
        families[l.family_pk].append(l)

    colors = color.qualitative_colors(len(families))
    for i, langs in enumerate(sorted(families.values(),
                                     key=lambda v: -len(v))):
        for l in langs:
            l.jsondata = {'color': colors[i]}

    for segment in ds['ParameterTable']:
        equivalence_class = ''.join([
            t[0] for t in [(c, unicodedata.name(c)) for c in segment['Name']]
            if t[1].split()[0] not in ['COMBINING', 'MODIFIER']
        ]),
        data.add(models.Segment,
                 segment['ID'],
                 id=segment['ID'],
                 name=segment['Name'],
                 description=segment['Description'],
                 segment_class=segment['SegmentClass'],
                 equivalence_class=equivalence_class)
    DBSession.flush()

    # Add redirects for old language pages! get relevant ISO codes and map to Glottocode!
    for model, repls in load(
            Path(phoible.__file__).parent.parent /
            'replacements.json').items():
        if model == 'Language':
            languoids = {l.id: l for l in glottolog.languoids()}
            iso_languoids = {l.iso: l for l in languoids.values() if l.iso}
            gl_in_phoible = set(data['Variety'].keys())
            for oid, nid in repls.items():
                gls = descendants_from_nodemap(
                    iso_languoids.get(oid),
                    languoids).intersection(gl_in_phoible)
                if gls:
                    nid = gls.pop()
                    if len(gls) > 1:
                        print('+++', oid, gls)
                else:
                    print('---', oid)
                common.Config.add_replacement(oid, nid, common.Language)
        elif model == 'Parameter':
            segments_in_phoible = set(data['Segment'].keys())
            for oid, nid in repls.items():
                id_ = nid if nid in segments_in_phoible else None
                common.Config.add_replacement(oid, id_, common.Parameter)

    for segment in ds['ParameterTable']:
        for i, (k, v) in enumerate(sorted(segment.items())):
            if k not in ['ID', 'Name', 'Description', 'SegmentClass']:
                DBSession.add(
                    common.Parameter_data(
                        key=feature_name(k),
                        value=v,
                        ord=i,
                        object_pk=data['Segment'][segment['ID']].pk))

    for inventory in ds['contributions.csv']:
        inv = data.add(
            models.Inventory,
            inventory['ID'],
            id=inventory['ID'],
            name='{0} ({1} {2})'.format(
                inventory['Name'],
                inventory['Contributor_ID'].upper(),
                inventory['ID'],
            ),
            source_url=inventory['URL'],
            count_tone=inventory['count_tones'],
            count_vowel=inventory['count_vowels'],
            count_consonant=inventory['count_consonants'],
        )
        DBSession.add(
            common.ContributionContributor(
                contribution=inv,
                contributor=data['Contributor'][
                    inventory['Contributor_ID'].upper()]))
        for src in inventory['Source']:
            DBSession.add(
                common.ContributionReference(contribution=inv,
                                             source=data['Source'][src]))

    for phoneme in ds['ValueTable']:
        lang = data['Variety'][phoneme['Language_ID']]
        inv = data['Inventory'][phoneme['Contribution_ID']]
        if not inv.language:
            inv.language = lang
        vs = common.ValueSet(
            id=phoneme['ID'],
            contribution=inv,
            language=lang,
            parameter=data['Segment'][phoneme['Parameter_ID']])

        for ref in phoneme['Source']:
            DBSession.add(
                common.ValueSetReference(source=data['Source'][ref],
                                         valueset=vs))

        DBSession.add(
            models.Phoneme(
                id=phoneme['ID'],
                name='%s %s' %
                (phoneme['Value'],
                 data['Inventory'][phoneme['Contribution_ID']].name),
                allophones=' '.join(phoneme['Allophones']),
                marginal=phoneme['Marginal'],
                valueset=vs))

    return
Beispiel #40
0
def main(args):
    fts.index('fts_index', Word.fts, DBSession.bind)
    DBSession.execute("CREATE EXTENSION IF NOT EXISTS unaccent WITH SCHEMA public;")

    if DBSession.bind.dialect.name == 'postgresql':
        Index('ducet', collkey(common.Unit.name)).create(DBSession.bind)
    data = Data()

    dataset = common.Dataset(
        id=dictionaria.__name__,
        name="Dictionaria",
        description="The Dictionary Journal",
        published=date(2017, 3, 30),
        contact='*****@*****.**',
        domain='dictionaria.clld.org',
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="https://shh.mpg.de",
        license="http://creativecommons.org/licenses/by/4.0/",
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})

    for i, (id_, name) in enumerate([
        ('haspelmathmartin', 'Martin Haspelmath'),
        ('stiebelsbarbara', 'Barbara Stiebels')
    ]):
        ed = data.add(common.Contributor, id_, id=id_, name=name)
        common.Editor(dataset=dataset, contributor=ed, ord=i + 1)
    DBSession.add(dataset)

    for id_, name in LGR_ABBRS.items():
        DBSession.add(common.GlossAbbreviation(id=id_, name=name))

    comparison_meanings = {}

    print('loading concepts ...')

    glosses = set()
    concepticon = Concepticon(
        REPOS.joinpath('..', '..', 'concepticon', 'concepticon-data'))
    if not args.no_concepts:
        for conceptset in concepticon.conceptsets.values():
            if conceptset.gloss in glosses:
                continue
            glosses.add(conceptset.gloss)
            cm = data.add(
                ComparisonMeaning,
                conceptset.id,
                id=conceptset.id,
                name=conceptset.gloss.lower(),
                description=conceptset.definition,
                concepticon_url='http://concepticon.clld.org/parameters/%s' % conceptset.id)
            comparison_meanings[cm.id] = cm

    DBSession.flush()

    print('... done')

    comparison_meanings = {k: v.pk for k, v in comparison_meanings.items()}
    submissions = []

    for submission in REPOS.joinpath(
            'submissions-internal' if args.internal else 'submissions').glob('*'):
        if not submission.is_dir():
            continue

        try:
            submission = Submission(submission)
        except ValueError:
            continue

        md = submission.md
        if md is None:
            print('no md', submission.id)
            continue

        if not md['date_published']:
            print('no date', submission.id)
            continue

        id_ = submission.id
        if args.dict and args.dict != id_ and args.dict != 'all':
            print('not selected', submission.id)
            continue
        lmd = md['language']
        props = md.get('properties', {})
        props.setdefault('custom_fields', [])
        props['metalanguage_styles'] = {}
        for v, s in zip(props.get('metalanguages', {}).values(),
                        ['success', 'info', 'warning', 'important']):
            props['metalanguage_styles'][v] = s
        props['custom_fields'] = ['lang-' + f if f in props['metalanguage_styles'] else f
                                  for f in props['custom_fields']]
        props.setdefault('choices', {})

        language = data['Variety'].get(lmd['glottocode'])
        if not language:
            language = data.add(
                Variety, lmd['glottocode'], id=lmd['glottocode'], name=lmd['name'])

        md['date_published'] = md['date_published'] or date.today().isoformat()
        if '-' not in md['date_published']:
            md['date_published'] = md['date_published'] + '-01-01'
        dictionary = data.add(
            Dictionary,
            id_,
            id=id_,
            number=md.get('number'),
            name=props.get('title', lmd['name'] + ' dictionary'),
            description=submission.description,
            language=language,
            published=date(*map(int, md['date_published'].split('-'))),
            doi=md.get('doi'),
            jsondata=props)

        for i, spec in enumerate(md['authors']):
            if not isinstance(spec, dict):
                cname, address = spec, None
                spec = {}
            else:
                cname, address = spec['name'], spec.get('affiliation')
            name = HumanName(cname)
            cid = slug('%s%s' % (name.last, name.first))
            contrib = data['Contributor'].get(cid)
            if not contrib:
                contrib = data.add(
                    common.Contributor,
                    cid,
                    id=cid,
                    name=cname,
                    address=address,
                    url=spec.get('url'),
                    email=spec.get('email'))
            DBSession.add(common.ContributionContributor(
                ord=i + 1,
                primary=spec.get('primary', True),
                contributor=contrib,
                contribution=dictionary))

        submissions.append((dictionary.id, language.id, submission))
    transaction.commit()

    for did, lid, submission in submissions:
        transaction.begin()
        print('loading %s ...' % submission.id)
        dictdata = Data()
        lang = Variety.get(lid)
        submission.load_sources(Dictionary.get(did), dictdata)
        submission.load_examples(Dictionary.get(did), dictdata, lang)
        submission.dictionary.load(
            submission,
            dictdata,
            Dictionary.get(did),
            lang,
            comparison_meanings,
            OrderedDict(submission.md.get('properties', {}).get('labels', [])))
        transaction.commit()
        print('... done')

    transaction.begin()
    load_families(
        Data(),
        [v for v in DBSession.query(Variety) if re.match('[a-z]{4}[0-9]{4}', v.id)],
        glottolog_repos='../../glottolog/glottolog')
Beispiel #41
0
def main(args):
    data = Data()
    data.add(
        common.Contributor, 'barthwolfgang',
        id='barthwolfgang',
        name="Wolfgang Barth",
        url="http://www.dynamicsoflanguage.edu.au/")

    dataset = common.Dataset(
        id='parabank',
        name='Parabank',
        description='Database of kinship terminology',
        domain='parabank.clld.org',
        publisher_name="CoEDL Centre of Excellence for the Dynamics of Language",
        publisher_place="Canberra, Australia",
        publisher_url="http://www.dynamicsoflanguage.edu.au/",
        license='http://creativecommons.org/licenses/by/4.0/',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'http://wals.info/static/images/cc_by.png',
            'license_name': 'Creative Commons Attribution 4.0'})
    DBSession.add(dataset)

    for i, editor in enumerate(['barthwolfgang']):
        common.Editor(dataset=dataset, contributor=data['Contributor'][editor], ord=i + 1)

    contrib = common.Contribution(id='contrib', name='the contribution')

    for langu in reader(DATA_DIR.joinpath('data_basics', 'all_languages.txt'), delimiter=';', dicts=True):
        #print(langu)
        data.add(common.Language,
                 langu['glotto'],
                 id=langu['glotto'],
                 name=langu['language name'],
                 latitude=float(langu['latitude']),
                 longitude=float(langu['longitude']),
                 description=langu['comment'],)

    lang_dict = defaultdict(dict)
    for fname in DATA_DIR.joinpath('data_open_office').glob('*.txt'):
        for item in reader(fname, delimiter=';', dicts=True, encoding='utf-8-sig'):
            if item['parameter'] in lang_dict[item['glottocode']]:
                if lang_dict[item['glottocode']][item['parameter']] != item['word']:
                    print(fname, item['glottocode'], item['parameter'])
                    #print(lang_dict[item['glottocode']][item['parameter']], item['word'])
                    continue
                continue
            lang_dict[item['glottocode']][item['parameter']] = item['word']
            #print(fname)
            #print(fname, item['glottocode'], item['parameter'])
            lang = data['Language'][item['glottocode']]
            param = data['Parameter'].get(item['parameter'])
            if not param:
                param = data.add(
                    common.Parameter,
                    item['parameter'],
                    id=item['parameter'],
                    name=item['parameter'],
                    description=item['description'])

            id_ = item['parameter'] + "-" + item['glottocode']
            vs = models.ParabankValueSet(
                id=id_,
                language=lang,
                parameter=param,
                contribution=contrib)

            DBSession.add(models.Word(
                id=id_,
                name=item['word'],
                ipa=item['ipa'],
                alternative=item.get('alternative'),
                comment=item.get('comment'),
                valueset=vs))

    for i, (name, desc, params) in enumerate([
        ("patrichild", "male speaker's children and children of brothers", "mS mD meBS meBD myBS myBD "
                                                                               "feBS feBD fyBS fyBD"),
        ("matrichild", "female speaker's children and children of sisters", "fS fD feZS feZD fyZS fyZD "
                                                                                "meZS meZD myZS myZD"),
        ("grandfathers", "all grandparents have the same address term", "mFF mMF fFF fMF"),
        ("sisters", "all sisters have the same address term", "meZ myZ feZ fyZ"),
        ("brothers", "all brothers have the same address term", "meB myB feB fyB"),
        ("father-in-law", "all fathers-in-law have the same address term", "fHF mWF"),
    ]):
        params = params.split()
        syncretism = models.Syncretism(
            id='%s' % (i + 1,),
            name=name,
            description=desc,
            notation='(%s)' % ', '.join(params))

        for lang, words in lang_dict.items():
            if has_syncretism(words, *params):
                syncretism.languages.append(data['Language'][lang])

    for i, (name, desc, partition) in enumerate([
        [
            "sons vs. daughters",
            "Children are in two groups depending on their gender",
            "(mS, fS) (mD, fD)"],
        [
            "parents by gender and one term for all siblings of parents",
            "simple",
            "(mF, fF) "
            "(mM, fM) "
            "(mFeB, mFyB, mFeZ, mFyZ, mMeB, mMyB, mMeZ, mMyZ, mFeB, fFyB, fFeZ, fFyZ, fMeB, fMyB, fMeZ, fMyZ)"],
        [
            "Hawaiian Kinship System",
            "Differences are distinguished by generation and by gender",
            "(meB, myB, mFBS, mFZS, mMBS, mMZS, feZ, fyZ, fFBD, fFZD, fMBD, fMZD) "
            "(meZ, myZ, mFBD, mFZD, mMBD, mMZD) (feB, fyB, fFBS, fFZS, fMBS, fMZS) "
            "(mF, fF, mFeB, mFyB, mMeB, mMyB, fFeB, fFyB, fMeB, fMyB) "
            "(mM, fM, mFeZ, mFyZ, mMeZ, mMyZ, fFeZ, fFyZ, fMeZ, fMyZ)"],
        [
            "#3 siblings: gender division",
            "Siblings are in two groups depending on the gender",
            "(meZ, myZ, feZ, fyZ) (meB, myB, feB, fyB)"],
        [
            "#5 siblings: age division",
            "Siblings are in two groups depending on the relative age to the speaker",
            "(meB, meZ, feB, feZ) (myB, myZ, fyB, fyZ)"],
        [
            "#4 siblings: male speaker / female speaker",
            "Siblings are in two groups depending on the gender of speaker",
            "(meB, myB, meZ, myZ) (feB, fyB, feZ, fyZ)"],
        [
            "#2 siblings: gender division plus meB and fyZ",
            "Siblings are in two groups: male/female, where male elder brother and female younger sister have own term",
            "(meB) (myB, feB, fyB) (meZ, myZ, feZ) (fyZ)"],
        [
            "#1 siblings: elder brother / younger brother / elder sister / younger sister",
            "Siblings are in four groups distinguished by age and gender",
            "(meB, feB) (myB, fyB) (meZ, feZ) (myZ, fyZ)"],
        [
            "#6 siblings: four groups: gender of speaker, gender of sibling",
            "Siblings are in four groups distinguished by gender of speaker and gender of sibling",
            "(meB, myB) (feB, fyB) (meZ, myZ) (feZ, fyZ)"],
        [
            "#7 siblings: eight terms",
            "Each sibling is addressed differently",
            "(meB) (myB) (feB) (fyB) (meZ) (myZ) (feZ) (fyZ)"],
        [
            "#8 siblings: gender of sibling plus distinction of male/female speaker for brothers",
            "distinction by gender and brother distinction by gender of speaker",
            "(meB, myB) (feB, fyB) (meZ, myZ, feZ, fyZ)"],
        [
            "#9 siblings: gender of sibling plus distinction of male/female speaker for sisters",
            "distinction by gender and sister distinction by gender of speaker",
            "(meB, myB, feB, fyB) (meZ, myZ) (feZ, fyZ)"],
        [
            "#10 siblings: gender distinction plus same gender by age",
            "distinction by gender and same gender siblings are distinguished by age",
            "(meB) (myB, fyZ) (feB, fyB) (meZ, myZ) (feZ)"],
        [
            "#11 siblings: age distinction plus older siblings by gender",
            "distinction by gender and same gender siblings are distinguished by age",
            "(meB, feB) (myB, fyB, myZ, fyZ) (meZ, feZ)"],
        [
            "#12 siblings: gender division plus age division for brothers",
            "gender division plus age division for brothers",
            "(meB, feB) (myB, fyB) (myZ, fyZ, meZ, feZ)"],
        [
            "#13 siblings: age division plus sex of speaker division for older siblings",
            "gender division plus age division for brothers",
            "(meB, meB) (feB, feZ) (myB, myZ, fyB, fyZ)"],
        [
            "#14 siblings: cross gender distinction plus age distinction in same gender",
            "cross gender plus age in same gender",
            "(meB, feZ) (myB, fyZ) (feB, fyB, meZ, myZ)"],
        [
            "#15 siblings: one term for same gender sibling, cross gender divided in male and female",
            "one term for same gender sibling cross gender divided in male and female",
            "(meB, myB, feZ, fyZ) (feB, fyB) (meZ, myZ)"],
        [
            "#16 siblings: one term for cross gender sibling same gender divided in male and female",
            "one term for cross gender sibling same gender divided in male and female",
            "(meB, myB) (feZ, fyZ) (feB, fyB, meZ, myZ)"],
        [
            "#17 siblings", "complex", "(meB) (myB, fyB) (feZ) (fyZ) (feB) (meZ) (myZ)"],
        [
            "#18 siblings", "complex", "(meB) (myB, fyB, fyZ) (feZ) (feB) (meZ) (myZ)"],
        [
            "#19 siblings", "complex", "(meB) (myB, fyB, feB) (feZ, fyZ) (meZ, myZ)"],
        [
            "#20 siblings", "complex", "(meB, feB) (myB, fyB, myZ, fyZ) (meZ) (feZ)"],
        [
            "#21 siblings: age and gender distinction plus younger sister by sex of speaker",
            "age and gender distinction plus younger sister by sex of speaker",
            "(meB, feB) (myB, fyB) (meZ, feZ) (myZ) (fyZ)"],
        [
            "#22 siblings", "complex", "(meB, feB) (myB) (fyB) (meZ, feZ) (myZ) (fyZ)"],
        [
            "#23 siblings", "complex", "(meB) (feB) (myB) (fyB) (meZ) (feZ) (myZ, fyZ)"],
        [
            "#24 siblings: brothers and age distinction in sisters",
            "brothers and age distinction in sisters",
            "(meB, feB, myB, fyB) (meZ, feZ) (myZ, fyZ)"],
        [
            "#25 siblings: one term for all",
            "one term for all siblings",
            "(meB, feB, myB, fyB, meZ, feZ, myZ, fyZ)"],
        [
            "#26 siblings: cross vs. same sex sibling",
            "two terms: one for cross one for same sex sibling",
            "(meB, myB, feZ, fyZ) (meZ, myZ, feB, fyB)"],
        [
            "#27 siblings: age distinction plus gender in older siblings plus speaker distinction for older brother",
            "age and gender plus speaker distinction for older brother",
            "(meB) (myB, fyB, myZ, fyZ) (feB) (meZ, feZ)"],
    ]):
        pattern = models.Pattern(
            id='%s' % (i + 1,), name=name, description=desc, notation=partition)
        param_groups = [
            re.split(',\s*', group)
            for group in re.split('\s*\)\s*\(\s*', partition.strip()[1:-1])]
        for lang, words in lang_dict.items():
            if has_pattern(words, *param_groups):
                pattern.languages.append(data['Language'][lang])

    for i, (name, desc, params) in enumerate([
        [
            "parents, aunts & uncles",
            "all kinship terms for father, mother and their siblings",
            ["mF", "mM", "fF", "fM",
             "mFeB", "mFyB", "mFeZ", "mFyZ", "mMeB", "mMyB", "mMeZ", "mMyZ",
             "fFeB", "fFyB", "fFeZ", "fFyZ", "fMeB", "fMyB", "fMeZ", "fMyZ"]],
        [
            "siblings",
            "all brothers and sisters",
            ["meB", "myB", "meZ", "myZ", "feB", "fyB", "feZ", "fyZ"]],
        [
            "cousins - no age distinction",
            "all children of parent's siblings",
            ["mFBS", "mFBD", "mFZS", "mFZD", "mMBS", "mMBD", "mMZS", "mMZD",
             "fFBS", "fFBD", "fFZS", "fFZD", "fMBS", "fMBD", "fMZS", "fMZD"]],
        [
            "cousins - age distinction depends on relative age between ego and cousin",
            "all children of parent's siblings by relative age between ego and cousin",
            ["mFBeS", "mFBeD", "mFZeS", "mFZeD", "mMBeS", "mMBeD", "mMZeS", "mMZeD",
             "mFByS", "mFByD", "mFZyS", "mFZyD", "mMByS", "mMByD", "mMZyS", "mMZyD",
             "fFBeS", "fFBeD", "fFZeS", "fFZeD", "fMBeS", "fMBeD", "fMZeS", "fMZeD",
             "fFByS", "fFByD", "fFZyS", "fFZyD", "fMByS", "fMByD", "fMZyS", "fMZyD"]],
        [
            "cousins - age distinction depends on relative age between parent of ego and parent of cousin",
            "all children of parent's siblings by relative age of parents",
            ["mFeBS", "mFeBD", "mFeZS", "mFeZD", "mMeBS", "mMeBD", "mMeZS", "mMeZD",
             "mFyBS", "mFyBD", "mFyZS", "mFyZD", "mMyBS", "mMyBD", "mMyZS", "mMyZD",
             "fFeBS", "fFeBD", "fFeZS", "fFeZD", "fMeBS", "fMeBD", "fMeZS", "fMeZD",
             "fFyBS", "fFyBD", "fFyZS", "fFyZD", "fMyBS", "fMyBD", "fMyZS", "fMyZD"]],
        [
            "grandparents & grandchildren",
            "all direct ancestors of the grandparent generation & all direct "
            "descendants of the grandchildren generation",
            ["mFF", "mFM", "mMF", "mMM", "fFF", "fFM", "fMF", "fMM",
             "mSS", "mSD", "mDS", "mDD", "fSS", "fSD", "fDS", "fDD"]],
        [
            "sons & daughters, nieces & nephews",
            "all children of ego and ego's siblings",
            ["mS", "mD", "fS", "fD",
             "meBS", "meBD", "myBS", "myBD", "meZS", "meZD", "myZS", "myZD",
             "feBS", "feBD", "fyBS", "fyBD", "feZS", "feZD", "fyZS", "fyZD"]],
        [
            "In-laws & affines",
            "relatives through marriage",
            ["mW", "fH", "fHF", "fHM", "mWF", "mWM",
             "mSW", "mDH", "fSW", "fDH"]],
    ]):
        paradigm = models.Paradigm(id='%s' % (i + 1,), name=name, description=desc)
        for param in params:
            paradigm.parameters.append(data['Parameter'][param])
Beispiel #42
0
def main(args):
    data = Data()
    data_path = lambda *cs: args.data_file('concepticon-data',
                                           'concepticondata', *cs)

    dataset = common.Dataset(
        id=concepticon.__name__,
        name="Concepticon 1.0",
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="http://www.shh.mpg.de",
        license="http://creativecommons.org/licenses/by/4.0/",
        contact='*****@*****.**',
        domain='concepticon.clld.org',
        jsondata={
            'license_icon':
            'cc-by.png',
            'license_name':
            'Creative Commons Attribution 4.0 International License'
        })
    DBSession.add(dataset)
    for i, name in enumerate(
        ['Johann-Mattis List', 'Michael Cysouw', 'Robert Forkel']):
        c = common.Contributor(id=slug(name), name=name)
        dataset.editors.append(common.Editor(contributor=c, ord=i))

    english = data.add(common.Language, 'eng', id='eng', name='English')

    files = {}
    for fname in data_path('sources').iterdir():
        files[fname.stem] = \
            "https://github.com/clld/concepticon-data/blob/master/concepticondata/sources/%s" % fname.name

    for rec in Database.from_file(data_path('references', 'references.bib'),
                                  lowercase=True):
        source = data.add(common.Source, rec.id, _obj=bibtex2source(rec))
        if rec.id in files:
            DBSession.flush()
            DBSession.add(
                common.Source_files(mime_type='application/pdf',
                                    object_pk=source.pk,
                                    jsondata=dict(url=files[rec.id])))

    for concept in reader(data_path('concepticon.tsv'), namedtuples=True):
        data.add(models.ConceptSet,
                 concept.ID,
                 id=concept.ID,
                 name=concept.GLOSS,
                 description=concept.DEFINITION,
                 semanticfield=concept.SEMANTICFIELD,
                 ontological_category=concept.ONTOLOGICAL_CATEGORY)

    for rel in reader(data_path('conceptrelations.tsv'), namedtuples=True):
        DBSession.add(
            models.Relation(source=data['ConceptSet'][rel.SOURCE],
                            target=data['ConceptSet'][rel.TARGET],
                            description=rel.RELATION))

    unmapped = Counter()
    number_pattern = re.compile('(?P<number>[0-9]+)(?P<suffix>.*)')

    for cl in reader(data_path('conceptlists.tsv'), dicts=True):
        concepts = data_path('conceptlists', '%(ID)s.tsv' % cl)
        if not concepts.exists():
            continue
        langs = [l.lower() for l in split(cl['SOURCE_LANGUAGE'])]
        conceptlist = data.add(
            models.Conceptlist,
            cl['ID'],
            id=cl['ID'],
            name=' '.join(cl['ID'].split('-')),
            description=cl['NOTE'],
            target_languages=cl['TARGET_LANGUAGE'],
            source_languages=' '.join(langs),
            year=int(cl['YEAR']) if cl['YEAR'] else None,
        )
        for id_ in split(cl['REFS']):
            common.ContributionReference(source=data['Source'][id_],
                                         contribution=conceptlist)
        for i, name in enumerate(split(cl['AUTHOR'], sep=' and ')):
            name = strip_braces(name)
            contrib = data['Contributor'].get(name)
            if not contrib:
                contrib = data.add(common.Contributor,
                                   name,
                                   id=slug(name),
                                   name=name)
            DBSession.add(
                common.ContributionContributor(ord=i,
                                               contribution=conceptlist,
                                               contributor=contrib))
        for k in 'ID NOTE TARGET_LANGUAGE SOURCE_LANGUAGE YEAR REFS AUTHOR'.split(
        ):
            del cl[k]
        DBSession.flush()
        for k, v in cl.items():
            DBSession.add(
                common.Contribution_data(object_pk=conceptlist.pk,
                                         key=k,
                                         value=v))

        for concept in reader(concepts, namedtuples=True):
            if not concept.ID or not concept.CONCEPTICON_ID or concept.CONCEPTICON_ID == 'NAN':
                #print conceptlist.id, getattr(concept, 'ENGLISH', getattr(concept, 'GLOSS', None))
                unmapped.update([conceptlist.id])
                continue

            lgs = {}
            for lang in langs:
                v = getattr(concept, lang.upper())
                if v:
                    lgs[lang] = v

            match = number_pattern.match(concept.NUMBER)
            if not match:
                print(concept.ID)
                raise ValueError
            vs = common.ValueSet(
                id=concept.ID,
                description=getattr(concept, 'GLOSS',
                                    getattr(concept, 'ENGLISH', None)),
                language=english,
                contribution=conceptlist,
                parameter=data['ConceptSet'][concept.CONCEPTICON_ID])
            d = {}
            for key, value in concept.__dict__.items():
                if not key.startswith('CONCEPTICON_') and \
                        key not in ['NUMBER', 'ID', 'GLOSS'] + [l.upper() for l in langs]:
                    d[key.lower()] = value
            v = models.Concept(
                id=concept.ID,
                valueset=vs,
                description=getattr(concept, 'GLOSS',
                                    None),  # our own gloss, if available
                name='; '.join('%s [%s]' % (lgs[l], l)
                               for l in sorted(lgs.keys())),
                number=int(match.group('number')),
                number_suffix=match.group('suffix'),
                jsondata=d)
            DBSession.flush()
            for key, value in lgs.items():
                DBSession.add(
                    common.Value_data(key='lang_' + key,
                                      value=value,
                                      object_pk=v.pk))

    print('Unmapped concepts:')
    for clid, no in unmapped.most_common():
        print(clid, no)

    for fname in data_path('concept_set_meta').iterdir():
        if fname.suffix == '.tsv':
            md = load(fname.parent.joinpath(fname.name + '-metadata.json'))
            provider = models.MetaProvider(id=fname.stem,
                                           name=md['dc:title'],
                                           description=md['dc:description'],
                                           url=md['dc:source'],
                                           jsondata=md)
            for meta in reader(fname, dicts=True):
                try:
                    for k, v in meta.items():
                        if v and k != 'CONCEPTICON_ID':
                            models.ConceptSetMeta(metaprovider=provider,
                                                  conceptset=data['ConceptSet']
                                                  [meta['CONCEPTICON_ID']],
                                                  key=k,
                                                  value=v)
                except:
                    print(fname)
                    print(meta)
                    raise
Beispiel #43
0
def main(args):
    data = Data()
    lotw_conn = sqlite3.connect("lotw_base.sqlite")
    lotw_base = lotw_conn.cursor()
    contrib = common.Contribution(id="initial_contrib",
                                  name="Initial contribution")


    dataset = common.Dataset(id=lotw_dev.__name__,
                             domain='lotw_dev.clld.org',
                             name="Languages of the World",
                             publisher_name="IL RAS",
                             publisher_place="Moscow",
                             publisher_url="http://iling-ran.ru/main/",
                             jsondata={
                                 'license_name': 'Creative Commons Attribution 4.0 International License'}
                             )
    DBSession.add(dataset)
    feature_dict = {}
    unnamed_feature_count = 0
    features = lotw_base.execute("SELECT * FROM Feature").fetchall()
    names = [y[2] for y in features]
    feat_name_counts = {x[2]: [names.count(x[2]), 0] for x in features if names.count(x[2]) > 1}

    # features = [convert_feature(x) for x in features]

    for feature in features:
        name = feature[2]
        # if name == ".О":
        #     continue
        if name in feat_name_counts.keys():
            temp_name = name
            name += ("_" + str(feat_name_counts[name][1]))
            feat_name_counts[temp_name][1] += 1

        feature_dict[feature[0]] = TreeFeature(pk=feature[0],
                                               id=feature[0],
                                             name=name,
                                               father_pk=feature[5])
        print("Added feature %s" % feature[2])

    langs = lotw_base.execute("SELECT * FROM Language").fetchall()
    assert len(set([lang[0] for lang in langs])) == len([lang[0] for lang in langs])
    for language in langs:
        value_sets = []
        geodata = lotw_base.execute("SELECT * FROM Geographical_index WHERE Lang_id=?", (str(language[0]), )).fetchone()
        famdata = lotw_base.execute("SELECT * FROM Genealogical_index WHERE Lang_id=?", (str(language[0]), )).fetchone()
        famname = lotw_base.execute("SELECT * FROM Family where Id=?", (famdata[2], )).fetchone()[1]
        branchname =lotw_base.execute("SELECT * FROM Branch where Id=?", (famdata[3], )).fetchone()[1]
        if not geodata:
            geodata = [0.0 for x in range(7)]
        data.add(lotw_devLanguage, language[0],
                 id=str(language[0]),
                 iso=language[3],
                 family=famname,
                 branch=branchname,
                 name=language[1],
                 latitude=geodata[5],
                 longitude=geodata[6])

        print("Added language %s" % language[3])
        # Lang_id=language["Lang_id"], Order_of_addition=language["Order_of_addition"],
                # Sorting_number=language["Sorting_number"], Code_ISO_639_3=language["Code_ISO_639_3"]
        language_features = lotw_base.execute("SELECT * FROM Binary_data WHERE Lang_id=? AND Feature_value=1", (str(language[0]), ))
        for l_feat in language_features.fetchall():
            feat_id = l_feat[0]
            try:
                feat_name = feature_dict[l_feat[2]].name
            except KeyError:
                continue

            vs = common.ValueSet(id=feat_id,
                                 language=data["lotw_devLanguage"][language[0]],
                                 parameter=feature_dict[l_feat[2]],
                                 contribution=contrib)
            DBSession.add(common.Value(id=feat_id,
                                       name=feat_name,
                                       valueset=vs))
            print("Added value %s" % feat_id)





    lotw_conn.close()
Beispiel #44
0
def main(args):
    # http://clld.readthedocs.org/en/latest/extending.html
    data = Data(
        created=utc.localize(datetime(2013, 11, 15)),
        updated=utc.localize(datetime(2013, 12, 12)))
    icons = issues.Icons()

    languoids = list(Glottolog(GLOTTOLOG_REPOS).languoids())
    iso_to_gc = dict([(l.iso, l.id) for l in languoids]) #glottocodes = glottocodes_by_isocode(args.glottolog_dburi)
    iso_to_name = {l.iso: l.name for l in languoids}
    #Languages
    dp = dtab("dp.tab")
    lons = dict([(d['iso-639-3'], d['lon']) for d in dp])
    lats = dict([(d['iso-639-3'], d['lat']) for d in dp])

    tabfns = [fn.name for fn in DATA_DIR.glob('sails_*.tab')]
    print "Sheets found", tabfns
    ldps = [ld for fn in tabfns for ld in dtab(fn)]
    ldps = [dict([(k, v.replace(".", "-") if k in ['feature_alphanumid', 'value'] else v)
                  for (k, v) in ld.iteritems()]) for ld in ldps]
    ldcps = dtab("constructions_data.tab")
    dedup = opv(grp2([((ld['construction_id'], ld['feature_alphanumid'].replace('.', "-")), (ld["value"],) + tuple(ld.items())) for ld in ldcps]), max)
    dldps = [dict(dld[1:]) for dld in dedup.itervalues()]
    lgs = dict([(ld['language_id'], ld['language_name'] if ld.has_key('language_name') else iso_to_name[ld['language_id']]) for ld in ldps + ldcps])
    nfeatures = opv(grp2([(ld['language_id'], ld['feature_alphanumid'])
                          for ld in ldps + ldcps if ld["value"] != "?"]), len)

    # Families
    fp = treetxt(loadunicode('lff.txt') + loadunicode('lof.txt'))
    ps = paths(fp)
    lg_to_fam = dict([(p[-1], p[0]) for p in ps])
    families = grp2([(lg_to_fam[lg], lg) for lg in lgs.keys()])
    ficons = dict(icons.iconizeall([
        f for (f, sailslgs) in families.iteritems() if len(sailslgs) != 1]).items() +
                  [(f, icons.graytriangle) for (f, sailslgs) in families.iteritems()
                   if len(sailslgs) == 1])
    for family in families.iterkeys():
        data.add(
            models.Family, family,
            id=family, name=family, jsondata={"icon": ficons[family]})

    DBSession.flush()

    # Lgs
    for lgid in lgs.iterkeys():
        lang = data.add(
            models.sailsLanguage, lgid,
            id=lgid,
            name=lgs[lgid],
            family=data["Family"][lg_to_fam[lgid]],
            representation=nfeatures[lgid],
            latitude=float(lats[lgid]),
            longitude=float(lons[lgid]))
        if not lgid.startswith('NOCODE'):
            iso = data.add(
                common.Identifier, lgid,
                id=lgid,
                name=lgid,
                type=common.IdentifierType.iso.value,
                description=lgs[lgid])
            data.add(common.LanguageIdentifier, lgid, language=lang, identifier=iso)
        if lgid in iso_to_gc:
            gc = iso_to_gc[lgid]
            gc = data.add(
                common.Identifier, 'gc' + lgid,
                id=gc,
                name=gc,
                type=common.IdentifierType.glottolog.value,
                description=lgs[lgid])
            data.add(common.LanguageIdentifier, lgid, language=lang, identifier=gc)
    DBSession.flush()

    # Domains
    for domain in set(ld['feature_domain'] for ld in ldps):
        data.add(models.FeatureDomain, domain, id=slug(domain), name=domain)
    DBSession.flush()

    designer_to_id = {}
    for dd in dtab("sailscontributions.tab"):
        contributionid = slug("%s-%s" % (dd["designer"], dd["domain"]))
        if dd["domain"].find("Construction-Based") == -1:
            designer_to_id[dd["designer"]] = contributionid
    
    
    contribution_statistics = {}
    contribution_statistics["nfeatures"] = opv(grp2([(designer_to_id[ld["designer"]], ld['feature_alphanumid']) for ld in ldps]), len)
    contribution_statistics["nlanguages"] = opv(grp2([(designer_to_id[ld["designer"]], ld['language_id']) for ld in ldps]), len)
    contribution_statistics["ndatapoints"] = opv(grp2([(designer_to_id[ld["designer"]], (ld['feature_alphanumid'], ld['language_id'])) for ld in ldps if ld["value"] != "?"]), len)

    contributionid = slug("%s-%s" % ("Rik van Gijn", "Construction-Based Subordination Data (SUB)"))
    contribution_statistics["nfeatures"][contributionid] = len(set([(ld['feature_alphanumid']) for ld in dldps]))
    contribution_statistics["nlanguages"][contributionid] = len(set([(ld['language_id']) for ld in dldps]))
    contribution_statistics["ndatapoints"][contributionid] = len(set([(ld['feature_alphanumid'], ld['language_id']) for ld in ldps if ld["value"] != "?"]))

    # Designers
    citation_template = "%s. 2014. %s. In Muysken, Pieter et al. (eds.) "\
    "South American Indian Language Structures (SAILS) Online. Leipzig: Online "\
    "Max Planck Institute of Evolutionary Anthropology. "\
    "(Available at http://sails.clld.org)"
    #for (designer_id, (designer, domain)) in enumerate(designers.iteritems()):
    designer_to_id = {}
    for dd in dtab("sailscontributions.tab"):
        contributionid = slug("%s-%s" % (dd["designer"], dd["domain"]))
        orientation = "Language-Based"
        if dd["domain"].find("Construction-Based") == -1:
            designer_to_id[dd["designer"]] = contributionid
            orientation = "Construction-Based"
        data.add(
            models.Designer, contributionid,
            id=contributionid,
            name=contributionid,
            domain=dd["domain"],
            orientation=orientation,
            contributor=dd["designer"],
            nlanguages=contribution_statistics["nlanguages"][contributionid],
            nfeatures=contribution_statistics["nfeatures"][contributionid],
            ndatapoints=contribution_statistics["ndatapoints"][contributionid],
            citation=citation_template % (dd["designer"], dd["domain"]),
            more_information=dd["citation"],
            pdflink=dd["pdflink"])
    DBSession.flush()

    # Features
    fs = dict([(ld['feature_alphanumid'], ld) for ld in ldps])
    nameclash_fs = grp2([(ld['feature_name'], ld['feature_alphanumid']) for ld in ldps])
    fnamefix = {}
    for (dfeature, dfsids) in nameclash_fs.iteritems():
        if len(dfsids) != 1:
            print "Feature name clash", dfeature, dfsids
            for dfsid in dfsids:
                fnamefix[dfsid] = dfeature + " [%s]" % dfsid

    nlgs = opv(grp2([(ld['feature_alphanumid'], ld['language_id'])
                     for ld in ldps if ld["value"] != "?"]), len)
    
    (fidstr, fidint) = sortinfo(fs.keys())
    for (fid, f) in fs.iteritems():
        if nlgs[fid] == 0:
            continue
        data.add(
            models.Feature, fid,
            id=fid,
            name=fnamefix.get(fid, f['feature_name']),
            description=f['feature_information'],
            jsondata=dict(vdoc=f['feature_possible_values']),
            representation=nlgs[fid],
            designer=data["Designer"][designer_to_id[f['designer']]],
            dependson=f["depends_on"],
            featuredomain=data['FeatureDomain'][f["feature_domain"]],
            sortkey_str=fidstr[fid],
            sortkey_int=fidint[fid])

    DBSession.flush()

    fvs = dict([(ld['feature_alphanumid'], ld['feature_possible_values']) for ld in ldps])
    fvdesc = {}
    for (fid, vs) in fvs.iteritems():
        vdesclist = [veq.split("==") for veq in vs.split("||")]
        try:
            vdesc = dict([(v.replace(".", "-"), desc) for [v, desc] in vdesclist])
        except ValueError:
            print "Faulty value desc", vdesclist, vs
        if not vdesc.has_key("?"):
            vdesc["?"] = "Not known"
        if not vdesc.has_key("N/A") and fs[fid]["depends_on"]:
            vdesc["N/A"] = "Not Applicable"
        vi = dict([(v, i) for (i, v) in enumerate(sorted(vdesc.keys()))])
        vicons = icons.iconize(vi.keys())
        if len(vdesc) == 0:
            print "VDESC missing", vs, fid, v
        for (v, desc) in vdesc.iteritems():
            fvdesc[(fid, v)] = desc
            data.add(
                common.DomainElement, (fid, v),
                id='%s-%s' % (fid, v),
                name=v,
                description=desc,
                jsondata={"icon": vicons[v]},
                number=vi[v],
                parameter=data['Feature'][fid])
    DBSession.flush()

    done = set()
    for ld in ldps:
        parameter = data['Feature'][ld['feature_alphanumid']]
        language = data['sailsLanguage'][ld['language_id']]
        
        id_ = '%s-%s' % (parameter.id, language.id)

        if (ld['feature_alphanumid'], ld['value']) not in data['DomainElement']:
            print ld['feature_alphanumid'], ld['feature_name'], ld['language_id'], ld['value'], "not in the set of legal values"
            continue

        valueset = data.add(
            common.ValueSet,
            id_,
            id=id_,
            language=language,
            parameter=parameter,
            contribution=parameter.designer,
            source=ld["source"].strip() or None,
        )
        data.add(
            models.sailsValue,
            id_,
            id=id_,
            domainelement=data['DomainElement'][(ld['feature_alphanumid'], ld['value'])],
            jsondata={"icon": data['DomainElement'][(ld['feature_alphanumid'], ld['value'])].jsondata},
            description=fvdesc[(ld['feature_alphanumid'], ld['value'])],
            comment=ld["comment"],
            example=ld["example"],
            valueset=valueset,
            contributed_datapoint=ld["contributor"]
        )
        done.add(id_)

    cdatapts = [dict(dld[1:]) for dld in dedup.itervalues() if dld[0].strip() and dld[0] != "?"]
    fccl = grp2([(ld['feature_alphanumid'].replace('.', "-"), (ld['construction_id'], ld['language_id'])) for ld in cdatapts])
    fcstats = opv(fccl, lambda cls: (len(set([c for (c, l) in cls])), len(set([l for (c, l) in cls]))))
    fcstrs = dict([(ld['feature_alphanumid'].replace('.', "-"), ld) for ld in dtab("constructions_features.tab")])

    # Construction Feature Domains
    for domain in set(ld['feature_domain'] for ld in fcstrs.values()):
        data.add(models.ConstructionFeatureDomain, domain, id=slug(domain), name=domain)
    DBSession.flush()

    

    (fidstr, fidint) = sortinfo(fcstrs.keys())
    for (fid, ld) in fcstrs.iteritems():
        (ncs, nlgs) = fcstats[fid]
        data.add(
            models.sailsUnitParameter, fid,
            id=fid,
            name=ld['feature_name'],
            description=ld['feature_information'],
            jsondata=dict(vdoc=ld['feature_possible_values']),
            designer=data["Designer"][slug("%s-%s" % (ld['designer'], "Construction-Based Subordination Data (SUB)"))],
            dependson=f["depends_on"],
            constructionfeaturedomain=data['ConstructionFeatureDomain'][ld["feature_domain"]],
            nconstructions=ncs,
            nlanguages=nlgs,
            sortkey_str=fidstr[fid],
            sortkey_int=fidint[fid])
    DBSession.flush()

    #ldcps = dtab("constructions_data.tab")
    cs = set([(ld['construction_id'], ld['language_id']) for ld in ldcps])
    for (cid, lid) in cs:
        language = data['sailsLanguage'][lid]
        data.add(
            models.sailsConstruction, cid,
            id=cid,
            name=cid,
            language = language) 
    DBSession.flush()

    for ld in dldps: #dld in dedup.itervalues():
        #ld = dict(dld[1:])
        #print fid, ld['language_id'], ld['construction_id'], "HEJ"
        fid = ld['feature_alphanumid'].replace('.', "-")
        language = data['sailsLanguage'][ld['language_id']]
        construction = data['sailsConstruction'][ld['construction_id']]
        construction_feature = data['sailsUnitParameter'][fid]
        id_ = '%s-%s' % (construction.id, construction_feature.id)
        print ld
        data.add(models.sailsUnitValue, id_, id=id_, name=ld['value'], unit=construction, unitparameter=construction_feature, contribution=construction_feature.designer, source = ld["source"].strip(), comment = ld["comment"], provenance = ld["provenance"], contributed_datapoint = "Rik van Gijn")

        
        #1xf vs
        #contribution??!?!
        #TODO fixa unitvalues
	#fs v #lgs #cstrs TODO fixa snippet
        

        #Constrction Features
        #(unit-)values
        
        #done.add(id_)
    DBSession.flush()


        
    # Sources
    sources = [ktfbib(bibsource) for ld in ldps if ld.get('bibsources') for bibsource in ld['bibsources'].split(",,,")] + [ktfbib(bibsource) for dld in dldps if dld.get('bibsources') for bibsource in dld['bibsources'].split(",,,")]
    for (k, (typ, bibdata)) in sources:
        rec = Record(typ, k, **bibdata)
        if not data["Source"].has_key(k):
            data.add(common.Source, k, _obj=bibtex2source(rec))
    DBSession.flush()

    for ld in ldps:
        sources = [ktfbib(bibsource) for bibsource in ld['bibsources'].split(",,,") if ld.get('bibsources')]
        for (k, (typ, bibdata)) in sources:
            parameter = data['Feature'][ld['feature_alphanumid']]
            language = data['sailsLanguage'][ld['language_id']]
            id_ = '%s-%s' % (parameter.id, language.id)
            data.add(
                common.ValueSetReference,
                "%s-%s" % (id_, k),
                valueset=data["ValueSet"][id_],
                source=data['Source'][k])
    DBSession.flush()

    dataset = common.Dataset(
        id="SAILS",
        name='SAILS Online',
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_url="http://shh.mpg.de",
        publisher_place="Jena",
        description="Dataset on Typological Features for South American Languages, collected 2009-2013 in the Traces of Contact Project (ERC Advanced Grant 230310) awarded to Pieter Muysken, Radboud Universiteit, Nijmegen, the Netherlands.",
        domain='sails.clld.org',
        published=date(2014, 2, 20),
        contact='*****@*****.**',
        license='http://creativecommons.org/licenses/by-nc-nd/2.0/de/deed.en',
        jsondata={
            'license_icon': 'http://wals.info/static/images/cc_by_nc_nd.png',
            'license_name': 'Creative Commons Attribution-NonCommercial-NoDerivs 2.0 Germany'})
    DBSession.add(dataset)
    DBSession.flush()

    editor = data.add(common.Contributor, "Harald Hammarstrom", id="Harald Hammarstrom", name="Harald Hammarstrom", email = "*****@*****.**")
    common.Editor(dataset=dataset, contributor=editor, ord=0)
    DBSession.flush()

    #To CLDF
    cldf = {}
    for ld in ldps:
        parameter = data['Feature'][ld['feature_alphanumid']]
        language = data['sailsLanguage'][ld['language_id']]
        id_ = '%s-%s' % (parameter.id, language.id)
        if not id_ in done:
            continue
        dt = (lgs[ld['language_id']], ld['language_id'], ld['feature_alphanumid'] + ". " + ld['feature_name'], ld["value"], ld["comment"])
        cldf[dt] = None

    tab = lambda rows: u''.join([u'\t'.join(row) + u"\n" for row in rows])
    savu(tab([("Language", "iso-639-3", "Feature", "Value", "Comment")] + cldf.keys()), "sails.cldf")
Beispiel #45
0
def prime_cache(args):
    """If data needs to be denormalized for lookup, do that here.
    This procedure should be separate from the db initialization, because
    it will have to be run periodically whenever data has been updated.
    """
    compute_language_sources()
    return 
    from time import time
    _s = time()

    def checkpoint(s, msg=None):
        n = time()
        print(n - s, msg or '')
        return n

    sql = """
select p.id, l.id, v.name from value as v, valueset as vs, language as l, parameter as p
where v.valueset_pk = vs.pk and vs.language_pk = l.pk and vs.parameter_pk = p.pk
    """
    datatriples = [(v[0], v[1], v[2]) for v in DBSession.execute(sql)]
    _s = checkpoint(_s, '%s values loaded' % len(datatriples))

    flv = dict([(feature, dict(lvs)) for (feature, lvs) in grp(datatriples).items()])
    _s = checkpoint(_s, 'triples grouped')

    clfps = list(get_clf_paths([row[0] for row in DBSession.execute("select id from language")]))
    _s = checkpoint(_s, '%s clfps loaded' % len(clfps))

    features = {f.id: f for f in DBSession.query(Feature)}
    for (f, lv) in flv.items():
        features[f].representation = len(lv)
    DBSession.flush()
    _s = checkpoint(_s, 'representation assigned')

    families = {f.id: f for f in DBSession.query(Family)}
    if False:
        fs = feature_stability(datatriples, clfps)
        _s = checkpoint(_s, 'feature_stability computed')

        for (f, (s, transitions, stationarity_p, synchronic_p)) in fs:
            print(f)
            stability = Stability(
                id=f.replace("GB", "S"),
                feature=features[f],
                parsimony_stability_value=s["stability"],
                parsimony_retentions=s["retentions"],
                parsimony_transitions=s["transitions"],
                jsondata={'diachronic_p': stationarity_p, "synchronic_p": synchronic_p})
            DBSession.add(stability)
            for (i, (fam, (fromnode, tonode), (ft, tt))) in enumerate(transitions):
                DBSession.add(Transition(
                    id="%s: %s->%s" % (f, fromnode, tonode),
                    stability=stability,
                    fromnode=get_name(fromnode),
                    tonode=get_name(tonode),
                    fromvalue=ft,
                    tovalue=tt,
                    family=families[fam],
                    retention_innovation="Retention" if ft == tt else "Innovation"))
        DBSession.flush()
        _s = checkpoint(_s, 'stability and transitions loaded')

    imps = feature_dependencies(datatriples)
    _s = checkpoint(_s, 'feature_dependencies computed')
    if True:
        (H, V) = dependencies_graph([(v, f1, f2) for ((v, dstats), f1, f2) in imps])
        _s = checkpoint(_s, 'dependencies_graph written')

        for (i, ((v, dstats), f1, f2)) in enumerate(imps):
            combinatory_status = ("primary" if (f1, f2) in H else ("epiphenomenal" if v > 0.0 else None)) if H else "N/A"
            DBSession.add(Dependency(
                id="%s->%s" % (f1, f2),
                strength=v,
                feature1=features[f1],
                feature2=features[f2],
                representation=dstats["representation"],
                combinatory_status=combinatory_status,
                jsondata=dstats))
        DBSession.flush()
        _s = checkpoint(_s, 'dependencies loaded')

    coordinates = {
        lg.id: (lg.longitude, lg.latitude)
        for lg in DBSession.query(common.Language)
        .filter(common.Language.longitude != None)
        .filter(common.Language.latitude != None)}
    deepfams = deep_families(datatriples, clfps, coordinates=coordinates)
    _s = checkpoint(_s, '%s deep_families computed' % len(deepfams))

    missing_families = set()
    data = Data()
    for ((l1, l2), support_value, significance, supports, f1c, f2c) in deepfams:
        dname = "proto-%s x proto-%s" % (glottolog_names[l1], glottolog_names[l2])
        kmdistance = havdist(f1c, f2c)
        (f1lon, f1lat) = f1c if f1c else (None, None)
        (f2lon, f2lat) = f2c if f2c else (None, None)

        for li in [l1, l2]:
            if li not in families:
                missing_families.add(li)

        deepfam = DeepFamily(
            id=dname,
            support_value=support_value,
            significance=significance,
            family1=families.get(l1),
            family2=families.get(l2),
            family1_latitude = f1lat,
            family1_longitude = f1lon,
            family2_latitude = f2lat,
            family2_longitude = f2lon,
            geographic_plausibility = kmdistance)
        DBSession.add(deepfam)
        for (f, v1, v2, historical_score, independent_score, support_score) in supports:
            vid = ("%s: %s %s %s" % (f, v1, "==" if v1 == v2 else "!=", v2)).replace(".", "")
            #vname = ("%s|%s" % (v1, v2)).replace(".", "")
            #print vid, vname
            if vid not in data["Support"]:
                data.add(
                    Support, vid,
                    id = vid,
                    historical_score = historical_score,
                    independent_score = independent_score,
                    support_score = support_score,
                    value1= v1,
                    value2 = v2,
                    feature=features[f])
            DBSession.add(HasSupport(
                id=dname + "-" + vid,
                deepfamily = deepfam,
                support = data["Support"][vid]))
    print('missing_families:')
    print(missing_families)
    DBSession.flush()
    _s = checkpoint(_s, 'deep_families loaded')

    compute_language_sources()
Beispiel #46
0
def main(args):
    old_db = create_engine(DB)
    data = Data()

    #
    # migrate contributor table: complete
    #
    for row in old_db.execute("select * from contributor"):
        data.add(
            common.Contributor, row['id'],
            id=row['id'],
            name='%(firstname)s %(lastname)s' % row,
            url=row['homepage'],
            description=row['note'],
            email=row['email'],
            address=row['address'])
    data.add(
        common.Contributor, 'haspelmathmartin',
        id='haspelmathmartin',
        name="Martin Haspelmath",
        url="http://email.eva.mpg.de/~haspelmt/")
    DBSession.flush()

    dataset = common.Dataset(
        id='wold',
        name='WOLD',
        description='World Loanword Database',
        domain='wold.clld.org',
        published=date(2009, 8, 15),
        license='http://creativecommons.org/licenses/by/3.0/de/',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'http://i.creativecommons.org/l/by/3.0/de/88x31.png',
            'license_name': 'Creative Commons Attribution 3.0 Germany License'})
    DBSession.add(dataset)

    for i, editor in enumerate(['haspelmathmartin', 'tadmoruri']):
        common.Editor(dataset=dataset, contributor=data['Contributor'][editor], ord=i + 1)

    #
    # migrate semantic_field table: complete
    #
    for row in old_db.execute("select * from semantic_field"):
        if row['id'] != 25:
            kw = dict((key, row[key]) for key in ['id', 'name', 'description'])
            data.add(models.SemanticField, row['id'], **kw)

    #
    # migrate language table: complete
    # recipient flag is replaced by vocabulary_pk!
    #
    for row in old_db.execute("select * from language order by id"):
        kw = dict((key, row[key]) for key in [
            'fm_dl_id', 'name', 'latitude', 'longitude', 'wals_equivalent',
            'affiliation', 'family', 'genus', 'countries'])
        data.add(models.WoldLanguage, row['id'], id=str(row['id']), **kw)

    #
    # migrate language_code table: complete
    #
    for row in old_db.execute("select * from language_code"):
        _id = '%(type)s-%(code)s' % row
        data.add(common.Identifier, _id, id=_id, type=row['type'], name=row['code'])
        if row['type'] == 'iso639-3' and row['code'] in glottocodes:
            gc = glottocodes[row['code']]
            data.add(common.Identifier, gc, id=gc, type=common.IdentifierType.glottolog.value, name=gc)
    DBSession.flush()

    #
    # migrate language_code_language table: complete
    #
    for row in old_db.execute("select * from language_code_language"):
        _id = '%(type)s-%(code)s' % row
        data.add(common.LanguageIdentifier, '%s-%s' % (_id, row['language_id']),
            identifier_pk=data['Identifier'][_id].pk, language_pk=data['WoldLanguage'][row['language_id']].pk)
        if row['type'] == 'iso639-3' and row['code'] in glottocodes:
            gc = glottocodes[row['code']]
            data.add(
                common.LanguageIdentifier, '%s-%s' % (gc, row['language_id']),
                identifier_pk=data['Identifier'][gc].pk,
                language_pk=data['WoldLanguage'][row['language_id']].pk)
    DBSession.flush()

    #
    # migrate vocabulary table: complete
    #
    for row in old_db.execute("select * from vocabulary order by id"):
        jsondata = {}
        for key in row.keys():
            if key.startswith('fd_') or key in ['other_information', 'abbreviations']:
                jsondata[key] = row[key]
        vocab = data.add(
            models.Vocabulary, row['id'],
            id=str(row['id']), name=row['name'], color=row['color'], jsondata=jsondata)
        DBSession.flush()
        data['WoldLanguage'][row['language_id']].vocabulary_pk = vocab.pk
    DBSession.flush()

    #
    # migrate contact_situation and age tables: complete
    # contact situations and ages are unitdomainelements!
    #
    contact_situation = common.UnitParameter(id='cs', name='Contact Situation')
    age = common.UnitParameter(id='a', name='Age')

    DBSession.add(contact_situation)
    DBSession.add(age)
    DBSession.flush()

    for row in old_db.execute("select * from contact_situation"):
        if row['vocabulary_id'] is None:
            continue
        kw = dict((key, row[key]) for key in ['description', 'id', 'name'])
        kw['id'] = 'cs-%s' % kw['id']
        p = data.add(models.WoldUnitDomainElement, row['id'], **kw)
        p.vocabulary = data['Vocabulary'][row['vocabulary_id']]
        p.unitparameter_pk = contact_situation.pk

    for row in old_db.execute("select * from age"):
        id_ = '%(vocabulary_id)s-%(label)s' % row
        kw = dict((key, row[key]) for key in ['start_year', 'end_year'])
        p = data.add(models.WoldUnitDomainElement, id_, id='a-%s' % id_, name=row['label'],
                description=row['description'], jsondata=kw)
        p.vocabulary = data['Vocabulary'][row['vocabulary_id']]
        p.unitparameter_pk = age.pk

    #
    # migrate meaning table: complete
    #
    for row in old_db.execute("select * from meaning"):
        kw = dict((key, row[key]) for key in [
            'description', 'core_list', 'ids_code', 'typical_context', 'semantic_category'])
        p = data.add(
            models.Meaning, row['id'],
            id=row['id'].replace('.', '-'),
            name=row['label'],
            sub_code=row['id'].split('.')[1] if '.' in row['id'] else '',
            semantic_field=data['SemanticField'][row['semantic_field_id']],
            **kw)
        DBSession.flush()

        for field in ['french', 'spanish', 'german', 'russian']:
            DBSession.add(models.Translation(name=row[field], lang=field, meaning=p))

        for key in data['WoldLanguage']:
            lang = data['WoldLanguage'][key]
            data.add(
                common.ValueSet, '%s-%s' % (key, row['id']),
                id='%s-%s' % (key, row['id'].replace('.', '-')),
                language=lang,
                contribution=lang.vocabulary,
                parameter=p)

    DBSession.flush()

    #
    # migrate word table:
    # TODO: all the other word properties!!
    #
    fields = [
        'age_label',
        'original_script',
        'grammatical_info',
        'comment_on_word_form',
        'gloss',
        "comment_on_borrowed",
        "calqued",
        "borrowed_base",
        "numeric_frequency",
        "relative_frequency",
        "effect",
        "integration",
        "salience",
        "reference",
        "other_comments",
        "register",
        "loan_history",
        'colonial_word',
        'paraphrase_in_dutch',
        'word_source',
        'paraphrase_in_german',
        'lexical_stratum',
        'comparison_with_mandarin',
        'year',
        'comparison_with_korean',
        'czech_translation',
        'hungarian_translation',
        'early_romani_reconstruction',
        'etymological_note',
        'boretzky_and_igla_etymology',
        'manuss_et_al_etymology',
        'vekerdi_etymology',
        'turner_etymology',
        'other_etymologies',
        'mayrhofer_etymology',
    ]
    word_to_vocab = {}
    for row in old_db.execute("select * from word"):
        word_to_vocab[row['id']] = row['vocabulary_id']
        kw = dict((key, row[key]) for key in ['id', 'age_score',
                                              'borrowed', 'borrowed_score',
                                              'analyzability', 'simplicity_score'])
        w = data.add(
            models.Word, row['id'],
            name=row['form'],
            description=row['free_meaning'],
            jsondata={k: row[k] for k in fields},
            **kw)
        w.language = data['Vocabulary'][row['vocabulary_id']].language

        if row['age_label']:
            DBSession.add(common.UnitValue(
                id='%(id)s-a' % row,
                unit=w,
                unitparameter=age,
                unitdomainelement=data['WoldUnitDomainElement']['%(vocabulary_id)s-%(age_label)s' % row],
                contribution=data['Vocabulary'][row['vocabulary_id']]))

        if row['contact_situation_id'] and row['contact_situation_id'] != '9129144185487768':
            DBSession.add(common.UnitValue(
                id='%(id)s-cs' % row,
                unit=w,
                unitparameter=contact_situation,
                unitdomainelement=data['WoldUnitDomainElement'][row['contact_situation_id']],
                contribution=data['Vocabulary'][row['vocabulary_id']]))

    DBSession.flush()

    #
    # migrate word_meaning table: complete
    #
    for i, row in enumerate(old_db.execute("select * from word_meaning")):
        data.add(
            models.Counterpart, i,
            id=i,
            description='%(relationship)s (%(comment_on_relationship)s)' % row,
            name=data['Word'][row['word_id']].name,
            valueset=data['ValueSet']['%s-%s' % (word_to_vocab[row['word_id']], row['meaning_id'])],
            word = data['Word'][row['word_id']])
    DBSession.flush()

    #
    # migrate vocabulary_contributor table: complete
    #
    for row in old_db.execute("select * from vocabulary_contributor"):
        DBSession.add(common.ContributionContributor(
            ord=row['ordinal'],
            primary=row['primary'],
            contributor_pk=data['Contributor'][row['contributor_id']].pk,
            contribution_pk=data['Vocabulary'][row['vocabulary_id']].pk))

    DBSession.flush()

    #
    # source words: we have to make sure a word does only belong to one language.
    # thus, we have to reassign identifier!
    #
    # loop over source_word, source_word_donor_language pairs keeping track of source_word ids:
    known_ids = {}

    for row in old_db.execute("select sw.id, sw.meaning, sw.form, dl.language_id from source_word as sw, source_word_donor_language as dl where sw.id = dl.source_word_id"):
        if row['id'] in known_ids:
            # source_word was already seen associated to a different donor language!
            assert row['language_id'] not in known_ids[row['id']]
            known_ids[row['id']].append(row['language_id'])
            id_ = '%s-%s' % (row['id'], len(known_ids[row['id']]))
        else:
            id_ = '%s-%s' % (row['id'], 1)
            known_ids[row['id']] = [row['language_id']]

        new = data.add(models.Word, id_, id=id_, name=row['form'], description=row['meaning'])
        new.language = data['WoldLanguage'][row['language_id']]

    # source words may end up as words without language!
    for row in old_db.execute("select id, meaning, form from source_word where id not in (select source_word_id from source_word_donor_language)"):
        id_ = '%s-%s' % (row['id'], 1)
        new = data.add(models.Word, id_, id=id_, name=row['form'], description=row['meaning'])

    DBSession.flush()

    #
    # migrate word_source_word relations
    # TODO: should be modelled as UnitParameter!
    #
    j = 0
    for row in old_db.execute("select * from word_source_word"):
        # there may be more than one word associated with a source_word_id (see above)
        source_words = []
        for i in range(4):  # but we guess no more than 4 :)
            id_ = '%s-%s' % (row['source_word_id'], i+1)
            if id_ in data['Word']:
                source_words.append(data['Word'][id_])
        if not source_words:
            j += 1
            #print(row['source_word_id'])
            #raise ValueError(row['source_word_id'])

        for sw in source_words:
            DBSession.add(models.Loan(
                source_word=sw,
                target_word=data['Word'][row['word_id']],
                relation=row['relationship'], certain=len(source_words) == 1))

    print('%s source words not migrated because they have no donor language!' % j)
Beispiel #47
0
def main(args):
    data = Data()
    data_path = lambda *cs: args.data_file('concepticon-data', 'concepticondata', *cs)

    dataset = common.Dataset(
        id=concepticon.__name__,
        name="Concepticon 1.0",
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="http://www.shh.mpg.de",
        license="http://creativecommons.org/licenses/by/4.0/",
        contact='*****@*****.**',
        domain='concepticon.clld.org',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})
    DBSession.add(dataset)
    for i, name in enumerate(['Johann-Mattis List', 'Michael Cysouw', 'Robert Forkel']):
        c = common.Contributor(id=slug(name), name=name)
        dataset.editors.append(common.Editor(contributor=c, ord=i))

    english = data.add(
        common.Language, 'eng',
        id='eng',
        name='English')

    files = {}
    for fname in data_path('sources').iterdir():
        files[fname.stem] = \
            "https://github.com/clld/concepticon-data/blob/master/concepticondata/sources/%s" % fname.name

    for rec in Database.from_file(
            data_path('references', 'references.bib'), lowercase=True):
        source = data.add(common.Source, rec.id, _obj=bibtex2source(rec))
        if rec.id in files:
            DBSession.flush()
            DBSession.add(common.Source_files(
                mime_type='application/pdf',
                object_pk=source.pk,
                jsondata=dict(url=files[rec.id])))

    for concept in reader(data_path('concepticon.tsv'), namedtuples=True):
        data.add(
            models.ConceptSet,
            concept.ID,
            id=concept.ID,
            name=concept.GLOSS,
            description=concept.DEFINITION,
            semanticfield=concept.SEMANTICFIELD,
            ontological_category=concept.ONTOLOGICAL_CATEGORY)

    for rel in reader(data_path('conceptrelations.tsv'), namedtuples=True):
        DBSession.add(models.Relation(
            source=data['ConceptSet'][rel.SOURCE],
            target=data['ConceptSet'][rel.TARGET],
            description=rel.RELATION))

    unmapped = Counter()
    number_pattern = re.compile('(?P<number>[0-9]+)(?P<suffix>.*)')

    for cl in reader(data_path('conceptlists.tsv'), dicts=True):
        concepts = data_path('conceptlists', '%(ID)s.tsv' % cl)
        if not concepts.exists():
            continue
        langs = [l.lower() for l in split(cl['SOURCE_LANGUAGE'])]
        conceptlist = data.add(
            models.Conceptlist,
            cl['ID'],
            id=cl['ID'],
            name=' '.join(cl['ID'].split('-')),
            description=cl['NOTE'],
            target_languages=cl['TARGET_LANGUAGE'],
            source_languages=' '.join(langs),
            year=int(cl['YEAR']) if cl['YEAR'] else None,
        )
        for id_ in split(cl['REFS']):
            common.ContributionReference(
                source=data['Source'][id_], contribution=conceptlist)
        for i, name in enumerate(split(cl['AUTHOR'], sep=' and ')):
            name = strip_braces(name)
            contrib = data['Contributor'].get(name)
            if not contrib:
                contrib = data.add(
                    common.Contributor, name, id=slug(name), name=name)
            DBSession.add(common.ContributionContributor(
                ord=i, contribution=conceptlist, contributor=contrib))
        for k in 'ID NOTE TARGET_LANGUAGE SOURCE_LANGUAGE YEAR REFS AUTHOR'.split():
            del cl[k]
        DBSession.flush()
        for k, v in cl.items():
            DBSession.add(common.Contribution_data(
                object_pk=conceptlist.pk, key=k, value=v))

        for concept in reader(concepts, namedtuples=True):
            if not concept.ID or not concept.CONCEPTICON_ID or concept.CONCEPTICON_ID == 'NAN':
                #print conceptlist.id, getattr(concept, 'ENGLISH', getattr(concept, 'GLOSS', None))
                unmapped.update([conceptlist.id])
                continue

            lgs = {}
            for lang in langs:
                v = getattr(concept, lang.upper())
                if v:
                    lgs[lang] = v

            match = number_pattern.match(concept.NUMBER)
            if not match:
                print(concept.ID)
                raise ValueError
            vs = common.ValueSet(
                id=concept.ID,
                description=getattr(concept, 'GLOSS', getattr(concept, 'ENGLISH', None)),
                language=english,
                contribution=conceptlist,
                parameter=data['ConceptSet'][concept.CONCEPTICON_ID])
            d = {}
            for key, value in concept.__dict__.items():
                if not key.startswith('CONCEPTICON_') and \
                        key not in ['NUMBER', 'ID', 'GLOSS'] + [l.upper() for l in langs]:
                    d[key.lower()] = value
            v = models.Concept(
                id=concept.ID,
                valueset=vs,
                description=getattr(concept, 'GLOSS', None),  # our own gloss, if available
                name='; '.join('%s [%s]' % (lgs[l], l) for l in sorted(lgs.keys())),
                number=int(match.group('number')),
                number_suffix=match.group('suffix'),
                jsondata=d)
            DBSession.flush()
            for key, value in lgs.items():
                DBSession.add(
                    common.Value_data(key='lang_' + key, value=value, object_pk=v.pk))

    print('Unmapped concepts:')
    for clid, no in unmapped.most_common():
        print(clid, no)

    for fname in data_path('concept_set_meta').iterdir():
        if fname.suffix == '.tsv':
            md = load(fname.parent.joinpath(fname.name + '-metadata.json'))
            provider = models.MetaProvider(
                id=fname.stem,
                name=md['dc:title'],
                description=md['dc:description'],
                url=md['dc:source'],
                jsondata=md)
            for meta in reader(fname, dicts=True):
                try:
                    for k, v in meta.items():
                        if v and k != 'CONCEPTICON_ID':
                            models.ConceptSetMeta(
                                metaprovider=provider,
                                conceptset=data['ConceptSet'][meta['CONCEPTICON_ID']],
                                key=k,
                                value=v)
                except:
                    print(fname)
                    print(meta)
                    raise
Beispiel #48
0
def main(args):
    data = Data()

    dataset = common.Dataset(
        id=plld_app.__name__,
        name=plld_app.__name__,
        domain='plld.clld.org',
        description="Database of Papuan Language and Culture",
    )
    DBSession.add(dataset)

    # Load the list of languages
    languages = pandas.ExcelFile(
        os.path.join(DBPATH, "Languages and Coordinates.xlsx")).parse(0)

    parameters = {}
    for i, language in languages.iterrows():
        # Generate the database object for each language
        print("\nCreating language", language['Language name (-dialect)'])
        lang = models.Lect(
            id=((language['Language name (-dialect)'].lower()[:4] + "x" +
                 newid()) if pandas.isnull(language['Glottolog']) else
                language['Glottolog'].strip()),
            region=language['Region'],
            family=language['Family'],
            name=language['Language name (-dialect)'].strip(),
            latitude=language['Lat'],
            longitude=language['Lon'])

        # Check what data files we have that say they are about that language.
        if pandas.isnull(language['ISO_code']):
            # The convention for file-names of varieties without iso
            # code is ad-hoc, skip those until we have established a
            # good convention.
            files_concerning = [
                file for file in os.listdir(DBPATH)
                if file.lower().startswith(language['Internal'].lower() + '_')
            ]
        else:
            # Otherwise, the convention is that languages are
            # described by files starting with their iso code and an
            # underscore.
            files_concerning = [
                file for file in os.listdir(DBPATH)
                if file.lower().startswith(language['ISO_code'].lower() + '_')
            ]

        # For each such language, we might have typological, sociolinguistic and lexical (small vocabulary or big vocabulary or kinship terms) data. Deal with them in order.

        # Try to load the corresponding typology questionnaire
        typology_files = [
            file for file in files_concerning if 'typolog' in file.lower()
        ]
        if len(typology_files) == 1:
            try:
                add_typological_data(typology_files[0], parameters, lang)
                print("Typological data read.")
            except UnexpectedTypologyFormatError:
                print(
                    "File", typology_files[0],
                    "had an unexpected format for a typology questionnaire!")
        else:
            print("There were not one, but", len(typology_files),
                  "possible questionnaires.")

        # Try to load the corresponding cultural features questionnaire
        culture_files = [
            file for file in files_concerning if 'cult' in file.lower()
        ]
        if len(culture_files) == 1:
            try:
                add_cultural_data(culture_files[0], parameters, lang)
                print("Cultural data read.")
            except UnexpectedCultureFormatError:
                print("File", culture_files[0],
                      "had an unexpected format for a culture questionnaire!")
        else:
            print("There were not one, but", len(culture_files),
                  "possible questionnaires.")
Beispiel #49
0
        if len(res) > 100:
            break
    return res.strip()


def get_vs2008(args):  # pragma: no cover
    vs2008 = {}
    for row in reader(args.data_file('datapoints_2008.csv'), delimiter=','):
        vs2008[(row[0], '%sA' % row[1])] = int(row[2])
    return vs2008


E2008 = utc.localize(datetime(2008, 4, 21))
E2011 = utc.localize(datetime(2011, 4, 28))
E2013 = utc.localize(datetime(2013, 11, 15))
data = Data(created=E2008, updated=E2008)


def migrate(from_, to_, converter):  # pragma: no cover
    for row in DB.execute("select * from %s" % from_):
        res = converter(row)
        if not res:
            continue
        if isinstance(res, dict):
            DBSession.add(to_(**res))
        else:
            data.add(to_, res[0], **res[1])
    DBSession.flush()


def main(args):  # pragma: no cover
Beispiel #50
0
def main(args):
    #
    # order of init:
    # - villages
    # - files
    # - movies
    #
    videos = defaultdict(list)
    for f in util.iter_files(args):
        obj = models.File(**attr.asdict(f))
        if obj.mime_type.startswith('video'):
            videos[slug(obj.name.split('.')[0])].append(obj)
        DBSession.add(obj)

    lexicon = list(util.iter_lexicon(args))
    villages = util.get_villages(args)
    ff_images = list(util.ff_images(args))
    bib = list(util.get_bib(args))
    data = Data()

    dataset = common.Dataset(
        id=dogonlanguages.__name__,
        name="Dogon and Bangime Linguistics",
        contact="*****@*****.**",
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="http://shh.mpg.de",
        license="http://creativecommons.org/licenses/by/4.0/",
        domain='dogonlanguages.org',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'}
    )
    DBSession.add(dataset)

    if Glottolog:
        if socket.gethostname() == 'dlt5502178l':
            glottolog = Glottolog(
                Path(dogonlanguages.__file__).parent.parent.parent.parent.joinpath(
                    'glottolog3', 'glottolog'))
        else:
            glottolog = Glottolog(
                Path(dogonlanguages.__file__).parent.parent.parent.parent.joinpath(
                    'glottolog'))
        languoids = {l.id: l for l in glottolog.languoids()}
    else:
        languoids = {}
    print('got glottolog')

    for c in util.CONTRIBUTORS:
        id_ = slug(c.name.split()[-1])
        data.add(models.Member, id_, id=id_, **attr.asdict(c))
    data.add(
        models.Member, 'forkel',
        id='forkel',
        name='Robert Forkel',
        email='*****@*****.**',
        in_project=False)

    for i, id_ in enumerate(['moran', 'forkel', 'heath']):
        DBSession.add(common.Editor(
            dataset=dataset, ord=i + 1, contributor=data['Member'][id_]))

    contrib = data.add(common.Contribution, 'd', id='d', name='Dogon Languages')
    for doc in bib:
        obj = data.add(
            models.Document,
            doc.rec.id,
            _obj=bibtex2source(doc.rec, cls=models.Document))
        keywords = nfilter([s.strip() for s in doc.rec.get('keywords', '').split(',')])
        for dt in 'grammar lexicon typology texts'.split():
            if dt in keywords:
                obj.doctype = dt
                break
        obj.project_doc = ('DLP' in keywords) or bool(doc.files)
        if obj.project_doc:
            for i, cid in enumerate(util.get_contributors(doc.rec, data)):
                models.DocumentContributor(
                    document=obj, contributor=data['Member'][cid], ord=i)
        for i, (path, cdstar) in enumerate(doc.files):
            common.Source_files(
                id='%s-%s' % (obj.id, i + 1),
                name=path,
                object=obj,
                mime_type=guess_type(path)[0],
                jsondata=cdstar,
            )

    print('got bib')

    for name, (gc, desc) in LANGUAGES.items():
        gl_lang = languoids[gc]
        lat, lon = gl_lang.latitude, gl_lang.longitude
        lang = data.add(
            models.Languoid, gc,
            id=gc,
            name=name,
            description=desc,
            latitude=lat,
            longitude=lon,
            family=gl_lang.family.name if gl_lang and gl_lang.family else name,
        )
        if name == 'Penange' and lang.longitude > 0:
            lang.longitude = -lang.longitude
        if name == 'Bankan Tey':
            lang.latitude, lang.longitude = 15.07, -2.91
        if name == 'Ben Tey':
            lang.latitude, lang.longitude = 14.85, -2.95
        if name == 'Togo Kan':
            lang.latitude, lang.longitude = 14.00, -3.25
        add_language_codes(data, lang, gl_lang.iso, glottocode=gc)

    villages_by_name = defaultdict(list)
    contrib_by_initial = {c.abbr: c for c in data['Member'].values()}
    for i, village in enumerate(villages):
        lang = None
        if village.glottocode:
            lang = data['Languoid'].get(village.glottocode)
            if not lang:
                gl_lang = languoids[village.glottocode]
                lang = data.add(
                    models.Languoid, gl_lang.id,
                    id=gl_lang.id,
                    name=gl_lang.name,
                    in_project=False,
                    family=gl_lang.family.name if gl_lang.family else gl_lang.name)
        v = data.add(
            models.Village, str(i + 1),
            id=str(i + 1),
            name=village.name,
            description=village.data.pop('social info'),
            surnames=village.data.pop('surnames'),
            major_city=village.data['MajorCity'] == 'Y',
            transcribed_name=village.data.pop('Transcribed Village Name'),
            source_of_coordinates=village.data.pop('sourceOfCoordinates'),
            latitude=village.lat,
            longitude=village.lon,
            languoid=lang,
            jsondata=village.data,
        )
        villages_by_name[village.name].append(v)
        for img in village.images:
            mimetype = guess_type(img.name)[0]
            if mimetype:
                f = models.Village_files(
                    id=img.id,
                    name=img.name,
                    description=img.description,
                    date_created=img.date,
                    latitude=img.coords[0] if img.coords else None,
                    longitude=-img.coords[1] if img.coords else None,
                    object=v,
                    mime_type=mimetype,
                    jsondata=img.cdstar,
                )
                for initial in img.creators:
                    if initial in contrib_by_initial:
                        models.Fotographer(
                            foto=f, contributor=contrib_by_initial[initial])

    for cat, desc, place, name in MOVIES:
        s = slug(name)
        m = models.Movie(
            id=s,
            name=desc,
            description=cat,
            place=place,
        )
        if place in villages_by_name and len(villages_by_name[place]) == 1:
            m.village = villages_by_name[place][0]
            #print('found village: %s' % name)
        for v in videos[s]:
            #print('found video: %s' % name)
            v.movie = m
            m.duration = v.duration

    names = defaultdict(int)
    for concept in lexicon:
        add(concept, data, names, contrib)

    count = set()
    for img in ff_images:
        if img.id in count:
            continue
        count.add(img.id)
        if img.ref:
            if img.ref in data['Concept']:
                concept = data['Concept'][img.ref]
                if img.tsammalex_taxon and not concept.tsammalex_taxon:
                    concept.tsammalex_taxon = img.tsammalex_taxon
                    #print(concept.tsammalex_taxon)
                common.Parameter_files(
                    object=concept,
                    id=img.id,
                    name=img.name.decode('utf8'),
                    mime_type=guess_type(img.name)[0],
                    jsondata=img.cdstar)
            else:
                print('missing ref: %s' % img.ref)
Beispiel #51
0
def load(args):
    glottolog = args.repos
    fts.index('fts_index', models.Ref.fts, DBSession.bind)
    DBSession.execute("CREATE EXTENSION IF NOT EXISTS unaccent WITH SCHEMA public;")
    version = assert_release(glottolog.repos)
    dataset = common.Dataset(
        id='glottolog',
        name="Glottolog {0}".format(version),
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="https://shh.mpg.de",
        license="http://creativecommons.org/licenses/by/4.0/",
        domain='glottolog.org',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})

    data = Data()
    for i, (id_, name) in enumerate([
        ('hammarstroem', 'Harald Hammarström'),
        ('forkel', 'Robert Forkel'),
        ('haspelmath', 'Martin Haspelmath'),
    ]):
        ed = data.add(common.Contributor, id_, id=id_, name=name)
        common.Editor(dataset=dataset, contributor=ed, ord=i + 1)
    DBSession.add(dataset)

    clf = data.add(common.Contribution, 'clf', id='clf', name='Classification')
    DBSession.add(common.ContributionContributor(
        contribution=clf, contributor=data['Contributor']['hammarstroem']))

    for pid, pname in [
        ('fc', 'Family classification'),
        ('sc', 'Subclassification'),
        ('vitality', 'Degree of endangerment'),
    ]:
        data.add(common.Parameter, pid, id=pid, name=pname)

    legacy = jsonlib.load(gc2version(args))
    for gc, version in legacy.items():
        data.add(models.LegacyCode, gc, id=gc, version=version)

    for ma in Macroarea:
        data.add(
            models.Macroarea,
            ma.name,
            id=ma.name,
            name=ma.value,
            description=ma.description)

    for country in glottolog.countries:
        data.add(models.Country, country.id, id=country.id, name=country.name)

    lgcodes, mas, countries, lgsources = {}, {}, {}, defaultdict(list)
    languoids = list(glottolog.languoids())
    nodemap = {l.id: l for l in languoids}
    for lang in languoids:
        for ref in lang.sources:
            lgsources['{0.provider}#{0.bibkey}'.format(ref)].append(lang.id)
        load_languoid(data, lang, nodemap)
        mas[lang.id] = [ma.name for ma in lang.macroareas]
        countries[lang.id] = [c.id for c in lang.countries]
        lgcodes[lang.id] = lang.id
        if lang.hid:
            lgcodes[lang.hid] = lang.id
        if lang.iso:
            lgcodes[lang.iso] = lang.id

    for gc in glottolog.glottocodes:
        if gc not in data['Languoid'] and gc not in legacy:
            common.Config.add_replacement(gc, None, model=common.Language)

    for obj in jsonlib.load(glottolog.references_path('replacements.json')):
        common.Config.add_replacement(
            '{0}'.format(obj['id']),
            '{0}'.format(obj['replacement']) if obj['replacement'] else None,
            model=common.Source)

    DBSession.flush()
    for lid, maids in mas.items():
        for ma in maids:
            DBSession.add(models.Languoidmacroarea(
                languoid_pk=data['Languoid'][lid].pk,
                macroarea_pk=data['Macroarea'][ma].pk))

    for lid, cids in countries.items():
        for cid in cids:
            DBSession.add(models.Languoidcountry(
                languoid_pk=data['Languoid'][lid].pk,
                country_pk=data['Country'][cid].pk))

    for doctype in glottolog.hhtypes:
        data.add(
            models.Doctype, doctype.id, id=doctype.id,
            name=doctype.name,
            description=doctype.description,
            abbr=doctype.abbv,
            ord=doctype.rank)

    for bib in glottolog.bibfiles:
        data.add(
            models.Provider,
            bib.id,
            id=bib.id,
            name=bib.title,
            description=bib.description,
            abbr=bib.abbr,
            url=bib.url)
    DBSession.flush()

    s = time()
    for i, entry in enumerate(
            BibFile(glottolog.build_path('monster-utf8.bib')).iterentries()):
        if i % 10000 == 0:
            args.log.info('{0}: {1:.3}'.format(i, time() - s))
            s = time()
        ref = load_ref(data, entry, lgcodes, lgsources)
        if 'macro_area' in entry.fields:
            for ma in split_text(entry.fields['macro_area'], separators=',;', strip=True):
                ma = 'North America' if ma == 'Middle America' else ma
                ma = Macroarea.get('Papunesia' if ma == 'Papua' else ma)
                DBSession.add(models.Refmacroarea(
                    ref_pk=ref.pk, macroarea_pk=data['Macroarea'][ma.name].pk))
Beispiel #52
0
def main(args):
    fts.index('fts_index', Word.fts, DBSession.bind)
    DBSession.execute("CREATE EXTENSION IF NOT EXISTS unaccent WITH SCHEMA public;")

    data = Data()

    dataset = common.Dataset(
        id=dictionaria.__name__,
        name="Dictionaria",
        description="The Dictionary Journal",
        published=date(2017, 3, 30),
        contact='*****@*****.**',
        domain='dictionaria.clld.org',
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="https://shh.mpg.de",
        license="http://creativecommons.org/licenses/by/4.0/",
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})

    for i, (id_, name) in enumerate([
        ('haspelmathmartin', 'Martin Haspelmath'),
        ('moselulrike', 'Ulrike Mosel'),
        ('stiebelsbarbara', 'Barbara Stiebels')
    ]):
        ed = data.add(common.Contributor, id_, id=id_, name=name)
        common.Editor(dataset=dataset, contributor=ed, ord=i + 1)
    DBSession.add(dataset)

    for id_, name in LGR_ABBRS.items():
        DBSession.add(common.GlossAbbreviation(id=id_, name=name))

    comparison_meanings = {}

    print('loading concepts ...')

    glosses = set()
    concepticon = Concepticon(
        REPOS.joinpath('..', '..', 'concepticon', 'concepticon-data'))
    if not args.no_concepts:
        for conceptset in concepticon.conceptsets.values():
            if conceptset.gloss in glosses:
                continue
            glosses.add(conceptset.gloss)
            cm = data.add(
                ComparisonMeaning,
                conceptset.id,
                id=conceptset.id,
                name=conceptset.gloss.lower(),
                description=conceptset.definition,
                concepticon_url='http://concepticon.clld.org/parameters/%s' % conceptset.id)
            comparison_meanings[cm.id] = cm

    DBSession.flush()

    print('... done')

    comparison_meanings = {k: v.pk for k, v in comparison_meanings.items()}
    submissions = []

    for submission in REPOS.joinpath(
            'submissions-internal' if args.internal else 'submissions').glob('*'):
        if not submission.is_dir():
            continue

        try:
            submission = Submission(submission)
        except ValueError:
            continue

        md = submission.md
        if md is None:
            continue

        if not md['date_published']:
            continue

        id_ = submission.id
        if args.dict and args.dict != id_ and args.dict != 'all':
            continue
        lmd = md['language']
        props = md.get('properties', {})
        props.setdefault('custom_fields', [])
        props['metalanguage_styles'] = {}
        for v, s in zip(props.get('metalanguages', {}).values(),
                        ['success', 'info', 'warning', 'important']):
            props['metalanguage_styles'][v] = s
        props['custom_fields'] = ['lang-' + f if f in props['metalanguage_styles'] else f
                                  for f in props['custom_fields']]

        language = data['Variety'].get(lmd['glottocode'])
        if not language:
            language = data.add(
                Variety, lmd['glottocode'], id=lmd['glottocode'], name=lmd['name'])

        md['date_published'] = md['date_published'] or date.today().isoformat()
        if '-' not in md['date_published']:
            md['date_published'] = md['date_published'] + '-01-01'
        dictionary = data.add(
            Dictionary,
            id_,
            id=id_,
            number=md.get('number'),
            name=props.get('title', lmd['name'] + ' dictionary'),
            description=submission.description,
            language=language,
            published=date(*map(int, md['date_published'].split('-'))),
            jsondata=props)

        for i, spec in enumerate(md['authors']):
            if not isinstance(spec, dict):
                cname, address = spec, None
                spec = {}
            else:
                cname, address = spec['name'], spec.get('affiliation')
            name = HumanName(cname)
            cid = slug('%s%s' % (name.last, name.first))
            contrib = data['Contributor'].get(cid)
            if not contrib:
                contrib = data.add(
                    common.Contributor,
                    cid,
                    id=cid,
                    name=cname,
                    address=address,
                    url=spec.get('url'),
                    email=spec.get('email'))
            DBSession.add(common.ContributionContributor(
                ord=i + 1,
                primary=True,
                contributor=contrib,
                contribution=dictionary))

        submissions.append((dictionary.id, language.id, submission))
    transaction.commit()

    for did, lid, submission in submissions:
        #if submission.id != 'sidaama':
        #    continue
        transaction.begin()
        print('loading %s ...' % submission.id)
        dictdata = Data()
        lang = Variety.get(lid)
        submission.load_examples(Dictionary.get(did), dictdata, lang)
        submission.dictionary.load(
            submission,
            dictdata,
            Dictionary.get(did),
            lang,
            comparison_meanings,
            OrderedDict(submission.md.get('properties', {}).get('labels', [])))
        transaction.commit()
        print('... done')

    transaction.begin()
    load_families(
        Data(),
        [v for v in DBSession.query(Variety) if re.match('[a-z]{4}[0-9]{4}', v.id)],
        glottolog_repos='../../glottolog3/glottolog')
Beispiel #53
0
def load(args):
    fts.index('fts_index', models.Ref.fts, DBSession.bind)
    DBSession.execute("CREATE EXTENSION IF NOT EXISTS unaccent WITH SCHEMA public;")

    dataset = common.Dataset(
        id='glottolog',
        name="Glottolog {0}".format(args.args[0]),
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="https://shh.mpg.de",
        license="http://creativecommons.org/licenses/by/4.0/",
        domain='glottolog.org',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})

    data = Data()
    for i, (id_, name) in enumerate([
        ('hammarstroem', 'Harald Hammarström'),
        ('bank', 'Sebastian Bank'),
        ('forkel', 'Robert Forkel'),
        ('haspelmath', 'Martin Haspelmath'),
    ]):
        ed = data.add(common.Contributor, id_, id=id_, name=name)
        common.Editor(dataset=dataset, contributor=ed, ord=i + 1)
    DBSession.add(dataset)

    clf = data.add(common.Contribution, 'clf', id='clf', name='Classification')
    DBSession.add(common.ContributionContributor(
        contribution=clf, contributor=data['Contributor']['hammarstroem']))

    for pid, pname in [
        ('fc', 'Family classification'),
        ('sc', 'Subclassification'),
        ('vitality', 'Degree of endangerment'),
    ]:
        data.add(common.Parameter, pid, id=pid, name=pname)

    legacy = jsonlib.load(gc2version(args))
    for gc, version in legacy.items():
        data.add(models.LegacyCode, gc, id=gc, version=version)

    glottolog = args.repos
    for ma in Macroarea:
        data.add(
            models.Macroarea,
            ma.name,
            id=ma.name,
            name=ma.value,
            description=ma.description)

    for country in glottolog.countries:
        data.add(models.Country, country.id, id=country.id, name=country.name)

    lgcodes, mas, countries, lgsources = {}, {}, {}, defaultdict(list)
    languoids = list(glottolog.languoids())
    nodemap = {l.id: l for l in languoids}
    for lang in languoids:
        for ref in lang.sources:
            lgsources['{0.provider}#{0.bibkey}'.format(ref)].append(lang.id)
        load_languoid(data, lang, nodemap)
        mas[lang.id] = [ma.name for ma in lang.macroareas]
        countries[lang.id] = [c.id for c in lang.countries]
        lgcodes[lang.id] = lang.id
        if lang.hid:
            lgcodes[lang.hid] = lang.id
        if lang.iso:
            lgcodes[lang.iso] = lang.id

    for gc in glottolog.glottocodes:
        if gc not in data['Languoid'] and gc not in legacy:
            common.Config.add_replacement(gc, None, model=common.Language)

    for obj in jsonlib.load(glottolog.references_path('replacements.json')):
        common.Config.add_replacement(
            '{0}'.format(obj['id']),
            '{0}'.format(obj['replacement']) if obj['replacement'] else None,
            model=common.Source)

    DBSession.flush()
    for lid, maids in mas.items():
        for ma in maids:
            DBSession.add(models.Languoidmacroarea(
                languoid_pk=data['Languoid'][lid].pk,
                macroarea_pk=data['Macroarea'][ma].pk))

    for lid, cids in countries.items():
        for cid in cids:
            DBSession.add(models.Languoidcountry(
                languoid_pk=data['Languoid'][lid].pk,
                country_pk=data['Country'][cid].pk))

    for doctype in glottolog.hhtypes:
        data.add(
            models.Doctype, doctype.id, id=doctype.id,
            name=doctype.name,
            description=doctype.description,
            abbr=doctype.abbv,
            ord=doctype.rank)

    for bib in glottolog.bibfiles:
        data.add(
            models.Provider,
            bib.id,
            id=bib.id,
            name=bib.title,
            description=bib.description,
            abbr=bib.abbr,
            url=bib.url)
    DBSession.flush()

    s = time()
    for i, entry in enumerate(
            BibFile(glottolog.build_path('monster-utf8.bib')).iterentries()):
        if i % 10000 == 0:
            args.log.info('{0}: {1:.3}'.format(i, time() - s))
            s = time()
        ref = load_ref(data, entry, lgcodes, lgsources)
        if 'macro_area' in entry.fields:
            for ma in split_text(entry.fields['macro_area'], separators=',;', strip=True):
                ma = 'North America' if ma == 'Middle America' else ma
                ma = Macroarea.get('Papunesia' if ma == 'Papua' else ma)
                DBSession.add(models.Refmacroarea(
                    ref_pk=ref.pk, macroarea_pk=data['Macroarea'][ma.name].pk))
Beispiel #54
0
    def test_from_csv(self):
        from tsammalex import models as m

        data = Data()
        data.add(common.Dataset, 'tsammalex', id='tsammalex')
        data.add(common.Contribution, 'tsammalex', id='tsammalex')
        data.add(m.Ecoregion, 'AT1309', id='AT1309')
        data.add(m.Bibrec, 'ref1', id='ref1')
        data.add(m.Bibrec, 'ref2', id='ref2')

        for name, cls in [
            ('contributors', m.TsammalexContributor),
            ('taxa', m.Taxon),
            ('lineages', m.Lineage),
            ('languages', m.Languoid),
            ('categories', m.Category),
            ('names', m.Name)
        ]:
            for row in DATA[name]:
                obj = cls.from_csv(row.split(','), data=data)
                data.add(cls, obj.id, _obj=obj)
Beispiel #55
0
def main(args):
    """Fills the database with data retrieved from tabular files.
    'filltables()' iterates over each row of each table.
    'typ' is the name of the table, 'name' a key column and 'tupl'
    the other columns as a dict {column_name,cell_value}."""

    data = Data()
    count = 0
    # dataset
    dataset = _addDataset(data)
    # load languages
    for typ, name, tupl in filltables():
        if not name or name == "na":
            continue
        #TODO we exclude non core language
        if typ == "languages" and tupl.get('Id').startswith('L_'):
            #print(name, tupl)
            lang = _addLang([
                name,
                tupl.get('Language', "na"),
                tupl.get('Family', "na"),
                tupl.get('fam_glottocode', ""),
                tupl.get('Area', "na"),
                tupl.get('Creator', "na"),
                tupl.get('Date', "na"),
                tupl.get('Archive', "na"),
                tupl.get('Archive_link', "na"),
                tupl.get('Translation', "na"),
                tupl.get('License', "na"),
                tupl.get('Audio license', "na"),
                tupl.get('NAKALA', "na"),
                tupl.get('Gloss', "na"),
                tupl.get('Words', 0),
                tupl.get('Speakers', 0),
                tupl.get('Texts', 0),
                tupl.get('Core words', 0),
                tupl.get('Core speakers', 0),
                tupl.get('Core texts', 0),
                tupl.get('Latitude', 0.0),
                tupl.get('Longitude', 0.0),
                tupl.get('Extended', "no")
            ])
            add_language_codes(data,
                               lang,
                               tupl.get('iso-639-3'),
                               glottocode=name)
        elif typ == "editors":
            dataset, count = _addEditor(dataset, count, [
                name,
                tupl.get('url', "na"),
                tupl.get('email', "na"),
                tupl.get('address', "na"),
                tupl.get('team', "na"),
                tupl.get('function', "na")
            ])
        elif typ == "sources":
            _addSource([
                name,
                tupl.get('bibtex_type', "na"),
                tupl.get('author', "na"),
                tupl.get('year', "na"),
                tupl.get('title', "na"),
                tupl.get('url', "na"),
                tupl.get('note', "na")
            ])
        else:
            #TODO for texts, we exclude delete and so on in column extended
            if tupl.get('extended') in ['no', 'yes']:
                #if typ=='dolg1241' : print(tupl):''
                _addText([
                    typ, name,
                    tupl.get('name', "na"),
                    tupl.get('spk_code', "na"),
                    tupl.get('spk_age', '0'),
                    tupl.get('spk_age_c', "na"),
                    tupl.get('spk_sex', "na"),
                    tupl.get('rec_date', "na"),
                    tupl.get('rec_date_c', "na"),
                    tupl.get('genre', "na"),
                    tupl.get('genre_stim', "na"),
                    tupl.get('gloss', "na"),
                    tupl.get('transl', "na"),
                    tupl.get('sound', "na"),
                    tupl.get('overlap', "na"),
                    tupl.get('processed', "na"),
                    tupl.get('nakala', "na"),
                    tupl.get('words', 0),
                    tupl.get('extended', "no")
                ])
        # dataset
        # Note: needs to run after loading (for editors)

    DBSession.add(dataset)
    DBSession.flush()
Beispiel #56
0
def main(args):

    data = Data()

    dataset = common.Dataset(
        id=amsd.__name__,
        name="AMSD",
        publisher_name="Max Planck Institute for the Science of Human History",
        publisher_place="Jena",
        publisher_url="http://www.shh.mpg.de",
        license="http://creativecommons.org/licenses/by/4.0/",
        domain='amsd.clld.org',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 4.0 International License'})

    DBSession.add(dataset)

    editors = OrderedDict([('Piers Kelly', None)])

    # data_entry => Contributor
    for row in sorted(dicts('data_entry'), key=lambda x: [
                x['name'].lower()] ):
        if row['name'] in editors:
            editors[row['name']] = row['pk']
        data.add(
            common.Contributor,
            row['pk'],
            id=row['pk'],
            name=row['name']
        )

    for i, cid in enumerate(editors.values()):
        common.Editor(dataset=dataset, contributor=data['Contributor'][cid], ord=i + 1)

    for row in dicts('source_citation'):
        data.add(
            common.Source,
            row['pk'],
            id=row['pk'],
            note=row['name'],
            name=row['name'],
        )

    for row in dicts('ling_area'):
        data.add(
            models.ling_area,
            row['pk'],
            chirila_name = row['chirila_name'],
            austlang_code = row['austlang_code'],
            austlang_name = row['austlang_name'],
            glottolog_code = row['glottolog_code'],
        )
    fd = {}
    for row in dicts('linked_filenames'):
        if row['name'] not in ['00-Text_reference.png', '00-No_image_available.png']:
            fd[row['pk']] = dict(
                name = row['name'],
                oid = row['oid'],
                path = row['path'],
                mimetype = mimetypes.guess_type(row['path'])[0],
            )

    for m in 'item_type technique keywords material source_type sem_domain holder_file'.split():
        for row in dicts(m):
            data.add(
                getattr(models, m),
                row['pk'],
                name = row['name'],
            )

    DBSession.flush()

    # sticks => MessageStick
    no_fts_cols = ['pk', 'latitude', 'longitude', 'item_type',
        'irn', 'data_entry', 'dim_1', 'dim_2', 'dim_3', 'data_entry',
        'ling_area_1', 'ling_area_2', 'ling_area_3', 'holder_file']
    x_cols = ['sem_domain', 'material', 'source_type', 'technique', 'keywords', 'holder_file', 'item_type']
    for i, row in enumerate(dicts('sticks')):

        fts_items = []
        for col in row.keys():
            if col:
                if col == 'amsd_id':
                    fts_items.append(row['amsd_id'].replace('.', '_') or "amsd_{:05d}".format(i),)
                elif col not in no_fts_cols and not col.endswith('_pk'):
                    fts_items.append(row[col])

        for t in x_cols:
            if row[t]:
                for _, k in enumerate(row[t].split(';')):
                    fts_items.append(str(data[t][k]))
                    fts_items.extend(str(data[t][k]).split('_'))

        for t in ['ling_area_1', 'ling_area_2', 'ling_area_3']:
            if row[t]:
                for _, k in enumerate(row[t].split(';')):
                    fts_items.append(data['ling_area'][k].chirila_name)
                    fts_items.append(data['ling_area'][k].austlang_code)
                    fts_items.append(data['ling_area'][k].austlang_name)
                    fts_items.append(data['ling_area'][k].glottolog_code)

        if row['source_citation']:
            for k in row['source_citation'].split(';'):
                data.add(
                    common.ContributionReference,
                    k,
                    contribution_pk = int(row['pk']),
                    source_pk = int(k),
                )
                fts_items.append(str(data['Source'][k]))

        if row['linked_filenames']:
            for j, k in enumerate(row['linked_filenames'].split(';')):
                if k in fd:
                    oid = fd[k].get('oid')
                    mt = fd[k].get('mimetype')
                    refobjid = ''
                    if mt == 'application/pdf':
                        refobjid = oid
                        # use for web, thumbnail a place holder image
                        oid = 'EAEA0-52CC-0295-6B71-0'
                    n = fd[k].get('name')
                    data.add(
                        common.Contribution_files,
                        k,
                        id='%s-%s-%i' % (k, row['pk'], j),
                        object_pk = int(row['pk']),
                        name = n,
                        jsondata = dict(
                                original = fd[k].get('path'),
                                objid = oid,
                                refobjid = refobjid,
                                web = 'web.jpg',
                                thumbnail = 'thumbnail.jpg',
                            ),
                        ord=j,
                        mime_type = mt,
                    )
                    fts_items.append(n)
                    fts_items.extend(nfilter(re.split('[_\-\.]', n)))

        data.add(
            models.MessageStick,
            row['pk'],
            id = row['amsd_id'].replace('.', '_') or "amsd_{:05d}".format(i),
            title = row['title'],
            description = row['description'],
            obj_creator = row['obj_creator'],
            date_created = row['date_created'],
            note_place_created = row['note_place_created'],
            place_created = row['place_created'],
            item_type_pk = row['item_type'] or None,
            ling_area_1_pk = row['ling_area_1'] or None,
            ling_area_2_pk = row['ling_area_2'] or None,
            ling_area_3_pk = row['ling_area_3'] or None,
            notes_ling_area = row['notes_ling_area'],
            stick_term = row['stick_term'],
            message = row['message'],
            motifs = row['motifs'],
            motif_transcription = row['motif_transcription'],
            dim_1 = row['dim_1'],
            dim_2 = row['dim_2'],
            dim_3 = row['dim_3'],
            date_collected = row['date_collected'],
            holder_file_pk = row['holder_file'] or None,
            holder_obj_id = row['holder_obj_id'],
            collector = row['collector'],
            place_collected = row['place_collected'],
            creator_copyright = row['creator_copyright'],
            file_copyright = row['file_copyright'],
            latitude = row['lat'] or None,
            longitude = row['long'] or None,
            notes_coords = row['notes_coords'],
            url_institution = row['url_institution'],
            url_source_1 = row['url_source_1'],
            url_source_2 = row['url_source_2'],
            irn = row['irn'],
            notes = row['notes'],
            data_entry = row['data_entry'],
            fts = fts.tsvector('\n'.join(re.sub('[_\-]','.',v) for v in fts_items)),
        )

    DBSession.flush()
    for row in dicts('sticks'):
        for t in ['sem_domain', 'material', 'source_type', 'technique', 'keywords']:
            if row[t]:
                for _, k in enumerate(row[t].split(';')):
                    data.add(
                        getattr(models, 'x_%s' % (t)),
                        k,
                        object_pk = int(row['pk']),
                        item_pk = int(k),
                    )
Beispiel #57
0
    def load(
            self,
            submission,
            did,
            lid,
            comparison_meanings,
            comparison_meanings_alt_labels,
            marker_map):
        data = Data()
        rel = []

        vocab = models.Dictionary.get(did)
        lang = models.Variety.get(lid)
        for ex in Examples.from_file(self.dir.joinpath('examples.sfm')):
            data.add(
                common.Sentence,
                ex.id,
                id=ex.id,
                name=ex.text,
                language=lang,
                analyzed=ex.morphemes,
                gloss=ex.gloss,
                description=ex.translation)

        for i, entry in enumerate(self.sfm):
            words = list(entry.get_words())
            headword = None

            for j, word in enumerate(words):
                if not word.meanings:
                    print('no meanings for word %s' % word.form)
                    continue

                if not headword:
                    headword = word.id
                else:
                    rel.append((word.id, 'sub', headword))

                for tw in word.rel:
                    rel.append((word.id, tw[0], tw[1]))

                w = data.add(
                    models.Word,
                    word.id,
                    id='%s-%s-%s' % (submission.id, i + 1, j + 1),
                    name=word.form,
                    number=int(word.hm) if word.hm else 0,
                    phonetic=word.ph,
                    pos=word.ps,
                    dictionary=vocab,
                    language=lang)
                DBSession.flush()

                concepts = []

                for k, meaning in enumerate(word.meanings):
                    if not (meaning.ge or meaning.de):
                        print('meaning without description for word %s' % w.name)
                        continue

                    if meaning.ge:
                        meaning.ge = meaning.ge.replace('.', ' ')

                    m = models.Meaning(
                        id='%s-%s' % (w.id, k + 1),
                        name=meaning.de or meaning.ge,
                        description=meaning.de,
                        gloss=meaning.ge,
                        word=w,
                        semantic_domain=', '.join(meaning.sd))

                    assert not meaning.x
                    for xref in meaning.xref:
                        s = data['Sentence'].get(xref)
                        assert s
                        models.MeaningSentence(meaning=m, sentence=s)

                    key = (meaning.ge or meaning.de).replace('.', ' ').lower()
                    concept = None
                    if key in comparison_meanings:
                        concept = comparison_meanings[key]
                    elif key in comparison_meanings_alt_labels:
                        concept = comparison_meanings_alt_labels[key]

                    if concept and concept not in concepts:
                        concepts.append(concept)
                        vsid = '%s-%s' % (key, submission.id),
                        if vsid in data['ValueSet']:
                            vs = data['ValueSet'][vsid]
                        else:
                            vs = data.add(
                                common.ValueSet, vsid,
                                id='%s-%s' % (submission.id, m.id),
                                language=lang,
                                contribution=vocab,
                                parameter_pk=concept)

                        DBSession.add(models.Counterpart(
                            id='%s-%s' % (w.id, k + 1),
                            name=w.name,
                            valueset=vs,
                            word=w))

                for _lang, meanings in word.non_english_meanings.items():
                    assert _lang in submission.md['metalanguages']
                    for meaning in meanings:
                        k += 1
                        models.Meaning(
                            id='%s-%s' % (w.id, k + 1),
                            name=meaning,
                            gloss=meaning,
                            language=submission.md['metalanguages'][_lang],
                            word=w)

                for index, (key, values) in enumerate(word.data.items()):
                    if key in marker_map:
                        label = marker_map[key]
                        converter = default_value_converter
                        if isinstance(label, (list, tuple)):
                            label, converter = label
                        for value in values:
                            DBSession.add(common.Unit_data(
                                object_pk=w.pk,
                                key=label,
                                value=converter(value, word.data),
                                ord=index))

        # FIXME: vgroup words by description and add synonym relationships!

        for s, d, t in rel:
            if s in data['Word'] and t in data['Word']:
                DBSession.add(models.SeeAlso(
                    source_pk=data['Word'][s].pk,
                    target_pk=data['Word'][t].pk,
                    description=d))
            else:
                print('---m---', s if s not in data['Word'] else t)
Beispiel #58
0
def main(args):
    data = Data()

    editors = OrderedDict()
    editors['Susanne Maria Michaelis'] = None
    editors['Philippe Maurer'] = None
    editors['Martin Haspelmath'] = None
    editors['Magnus Huber'] = None

    for row in read(args, 'People'):
        name = row['First name'] + ' ' if row['First name'] else ''
        name += row['Last name']
        kw = dict(
            name=name,
            id=slug('%(Last name)s%(First name)s' % row),
            url=row['Contact Website'].split()[0]
            if row['Contact Website'] else None,
            address=row['Comments on database'],
        )
        contrib = data.add(common.Contributor, row['Author ID'], **kw)
        if kw['name'] in editors:
            editors[kw['name']] = contrib

    DBSession.flush()

    dataset = common.Dataset(
        id='apics',
        name='APiCS Online',
        description='Atlas of Pidgin and Creole Language Structures Online',
        domain='apics-online.info',
        published=date(2013, 11, 4),
        license='http://creativecommons.org/licenses/by/3.0/',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 3.0 Unported License'
        })
    DBSession.add(dataset)
    for i, editor in enumerate(editors.values()):
        common.Editor(dataset=dataset, contributor=editor, ord=i + 1)

    colors = dict(
        (row['ID'], row['RGB_code']) for row in read(args, 'Colours'))

    abbrs = {}
    for id_, name in LGR_ABBRS.items():
        DBSession.add(common.GlossAbbreviation(id=id_, name=name))
        abbrs[id_] = 1

    for id_, name in {
            'C**T': 'clitic',
            'IMPF': 'imperfect',
            'INTERM': 'intermediate',
            'NCOMPL': 'noncompletive',
            'NONFUT': 'nonfuture',
            'NPROX': 'nonproximal',
            'NSG': 'nonsingular',
            'PP': 'past participle',
            'PROP': 'proprietive',
            'TMA': 'tense-mood-aspect',
    }.items():
        DBSession.add(common.GlossAbbreviation(id=id_, name=name))
        abbrs[id_] = 1

    for row in reader(args.data_file('non-lgr-gloss-abbrs.csv'),
                      delimiter=',',
                      namedtuples=True):
        for match in GLOSS_ABBR_PATTERN.finditer(row.standard):
            if match.group('abbr') not in abbrs:
                abbrs[match.group('abbr')] = 1
                DBSession.add(
                    common.GlossAbbreviation(id=match.group('abbr'),
                                             name=row.meaning))

    non_bibs = {}
    for row in read(args, 'References', 'Reference_ID'):
        if row['Reference_type'] == 'Non-bib':
            non_bibs[row['Reference_ID']] = row['Reference_name']
            continue

        if isinstance(row['Year'], int):
            year_int = row['Year']
            year = str(row['Year'])
        elif row['Year']:
            year_int = None
            for m in re.finditer('(?P<year>(1|2)[0-9]{3})', row['Year']):
                year_int = int(m.group('year'))
                break
            year = row['Year']
        else:
            year, year_int = None, None

        title = row['Article_title'] or row['Book_title']
        attrs = {}
        jsondata = {}
        for attr, field in {
                'Additional_information': 'note',
                'Article_title': 'title',
                'Book_title': 'booktitle',
                'City': 'address',
                'Editors': 'editor',
                'Full_reference': None,
                'Issue': None,
                'Journal': 'journal',
                'Language_codes': None,
                'LaTeX_cite_key': None,
                'Pages': 'pages',
                'Publisher': 'publisher',
                'Reference_type': 'type',
                'School': 'school',
                'Series_title': 'series',
                'URL': 'url',
                'Volume': 'volume',
        }.items():
            value = row.get(attr)
            if not isinstance(value, int):
                value = (value or '').strip()
            if attr == 'Issue' and value:
                try:
                    value = str(int(value))
                except ValueError:
                    pass
            if value:
                if field:
                    attrs[field] = value
                else:
                    jsondata[attr] = value
        p = data.add(common.Source,
                     row['Reference_ID'],
                     id=str(row['Reference_ID']),
                     name=row['Reference_name'],
                     description=title,
                     author=row['Authors'],
                     year=year,
                     year_int=year_int,
                     bibtex_type=getattr(EntryType, row['BibTeX_type']
                                         or 'misc'),
                     jsondata=jsondata,
                     **attrs)
        if p.bibtex_type.value == 'misc' and not p.description:
            p.description = p.note
        DBSession.flush()

    DBSession.flush()

    infobox = jsonload(args.data_file('infobox.json'))
    glottocodes = jsonload(args.data_file('glottocodes.json'))
    for row in read(args, 'Languages', 'Order_number'):
        lon, lat = [
            float(c.strip()) for c in row['map_coordinates'].split(',')
        ]
        kw = dict(
            name=row['Language_name'],
            id=str(row['Order_number']),
            latitude=lat,
            longitude=lon,
            region=row['Category_region'],
        )
        lect = data.add(models.Lect, row['Language_ID'], **kw)
        DBSession.flush()

        for i, item in enumerate(infobox[lect.id]):
            DBSession.add(
                common.Language_data(object_pk=lect.pk,
                                     ord=i,
                                     key=item[0],
                                     value=item[1]))

        if row["Languages_contribution_documentation::Lect_description_checked_status"] \
                != "Checked":
            print 'unchecked! ---', row['Language_name']

        desc = row.get(
            'Languages_contribution_documentation::Lect description', '')
        markup_desc = normalize_markup(row[
            'Languages_contribution_documentation::z_calc_GetAsCSS_Lect_description']
                                       )

        c = data.add(
            models.ApicsContribution,
            row['Language_ID'],
            id=str(row['Order_number']),
            name=row['Language_name'],
            description=desc,
            markup_description=markup_desc,
            survey_reference=data['Source'][row['Survey_reference_ID']],
            language=lect)

        for ext, label, mtype in [
            ('pdf', 'Glossed text', 'application/pdf'),
            ('mp3', 'Glossed text audio', 'audio/mpeg'),
        ]:
            fid = '%s-gt.%s' % (c.id, ext)
            if args.data_file('files', 'contribution', c.id, fid).exists():
                common.Contribution_files(object=c,
                                          id=fid,
                                          name=label,
                                          mime_type=mtype)
            else:
                print label, 'missing for:', row['Language_name']

        #
        # TODO: for michif, 75, add link http://www.youtube.com/watch?v=f0C4cODsSyE
        #

        iso = None
        if row['ISO_code'] and len(row['ISO_code']) == 3:
            iso = row['ISO_code'].lower()
            if 'iso:%s' % row['ISO_code'] not in data['Identifier']:
                data.add(common.Identifier,
                         'iso:%s' % row['ISO_code'],
                         id=row['ISO_code'].lower(),
                         name=row['ISO_code'].lower(),
                         type=common.IdentifierType.iso.value)

            DBSession.add(
                common.LanguageIdentifier(
                    language=data['Lect'][row['Language_ID']],
                    identifier=data['Identifier']['iso:%s' % row['ISO_code']]))

        if lect.id in glottocodes:
            identifier = data.add(common.Identifier,
                                  'gc:%s' % glottocodes[lect.id],
                                  id=glottocodes[lect.id],
                                  name=glottocodes[lect.id],
                                  type=common.IdentifierType.glottolog.value)

            DBSession.add(
                common.LanguageIdentifier(
                    language=data['Lect'][row['Language_ID']],
                    identifier=identifier))

        if row['Language_name_ethnologue']:
            if row['Language_name_ethnologue'] not in data['Identifier']:
                data.add(common.Identifier,
                         row['Language_name_ethnologue'],
                         id=iso
                         or 'ethnologue:%s' % row['Language_name_ethnologue'],
                         name=row['Language_name_ethnologue'],
                         type='ethnologue')

            DBSession.add(
                common.LanguageIdentifier(
                    language=data['Lect'][row['Language_ID']],
                    identifier=data['Identifier'][
                        row['Language_name_ethnologue']]))

    example_count = {}
    for row in read(args, 'Examples', 'Order_number'):
        assert row['Language_ID']
        lang = data['Lect'][row['Language_ID']]
        id_ = '%(Language_ID)s-%(Example_number)s' % row
        atext, gloss = igt(row)
        example_count[row['Language_ID']] = max(
            [example_count.get(row['Language_ID'], 1), row['Example_number']])
        p = add_sentence(
            args,
            data,
            id_,
            id='%s-%s' % (lang.id, row['Example_number']),
            name=row['Text'] or row['Analyzed_text'],
            description=row['Translation'],
            type=row['Type'].strip().lower() if row['Type'] else None,
            comment=row['Comments'],
            gloss=gloss,
            analyzed=atext,
            markup_text=normalize_markup(row['z_calc_Text_CSS']),
            markup_gloss=normalize_markup(row['z_calc_Gloss_CSS']),
            markup_comment=normalize_markup(row['z_calc_Comments_CSS']),
            markup_analyzed=normalize_markup(row['z_calc_Analyzed_text_CSS']),
            original_script=row['Original_script'],
            jsondata={
                'sort': row['Order_number'],
                'alt_translation': (row['Translation_other'] or '').strip()
                or None
            },
            language=lang)

        if row['Reference_ID']:
            if row['Reference_ID'] in data['Source']:
                source = data['Source'][row['Reference_ID']]
                DBSession.add(
                    common.SentenceReference(
                        sentence=p,
                        source=source,
                        key=source.id,
                        description=row['Reference_pages']))
            else:
                p.source = non_bibs[row['Reference_ID']]

    DBSession.flush()

    for row in read(args, 'Language_references'):
        if row['Reference_ID'] not in data['Source']:
            assert row['Reference_ID'] in non_bibs
            continue
        assert row['Language_ID'] in data['ApicsContribution']
        source = data['Source'][row['Reference_ID']]
        DBSession.add(
            common.ContributionReference(
                contribution=data['ApicsContribution'][row['Language_ID']],
                source=source,
                description=row['Pages'],
                key=source.id))

    #
    # global counter for features - across feature types
    #
    feature_count = 0
    for row in read(args, 'Features', 'Feature_number'):
        id_ = str(row['Feature_number'])
        if int(id_) > feature_count:
            feature_count = int(id_)
        wals_id = None
        desc = row['Feature_annotation_publication']
        if row['WALS_match'] == 'Total':
            if isinstance(row['WALS_No.'], int):
                wals_id = row['WALS_No.']
            else:
                wals_id = int(row['WALS_No.'].split('.')[0].strip())

        p = data.add(models.Feature,
                     row['Feature_code'],
                     name=row['Feature_name'],
                     id=id_,
                     description=desc,
                     markup_description=normalize_markup(
                         row['z_calc_Feature_annotation_publication_CSS']),
                     feature_type='primary',
                     multivalued=row['Value_relation_type'] != 'Single',
                     area=row['Feature_area'],
                     wals_id=wals_id)

        names = {}
        for i in range(1, 10):
            if not row['Value%s_publication' % i] \
                    or not row['Value%s_publication' % i].strip():
                continue
            name = row['Value%s_publication' % i].strip()
            if name in names:
                name += ' (%s)' % i
            names[name] = 1
            de = data.add(
                common.DomainElement,
                '%s-%s' % (row['Feature_code'], i),
                id='%s-%s' % (id_, i),
                name=name,
                parameter=p,
                abbr=row['Value%s_for_book_maps' % i] if p.id != '0' else name,
                number=int(row['Value%s_value_number_for_publication' % i]),
                jsondata={'color': colors[row['Value_%s_colour_ID' % i]]},
            )
            assert de

        if row['Authors_FeatureArticles']:
            authors, _ = row['Authors_FeatureArticles'].split('and the APiCS')
            authors = authors.strip()
            if authors.endswith(','):
                authors = authors[:-1].strip()
            for i, name in enumerate(authors.split(',')):
                assert name.strip() in editors
                p._authors.append(
                    models.FeatureAuthor(ord=i + 1,
                                         contributor=editors[name.strip()]))

        DBSession.flush()

    primary_to_segment = {123: 63, 126: 35, 128: 45, 130: 41}
    segment_to_primary = dict(
        zip(primary_to_segment.values(), primary_to_segment.keys()))
    number_map = {}
    names = {}
    for row in read(args, 'Segment_features', 'Order_number'):
        symbol = row['Segment_symbol']
        if row['Segment_name'] == 'voiceless dental/alveolar sibilant affricate':
            symbol = 't\u0361s'
        truth = lambda s: s and s.strip().lower() == 'yes'
        name = '%s - %s' % (symbol, row['Segment_name'])

        if name in names:
            number_map[row['Segment_feature_number']] = names[name]
            continue

        number_map[
            row['Segment_feature_number']] = row['Segment_feature_number']
        names[name] = row['Segment_feature_number']
        feature_count += 1
        if row['Segment_feature_number'] in segment_to_primary:
            primary_to_segment[segment_to_primary[row['Segment_feature_number']]]\
                = str(feature_count)
        p = data.add(models.Feature,
                     row['Segment_feature_number'],
                     name=name,
                     id=str(feature_count),
                     feature_type='segment',
                     area='Vowels' if truth(row['Vowel']) else
                     ('Obstruent consonants'
                      if truth(row['Obstruent']) else 'Sonorant consonants'),
                     jsondata=dict(
                         number=int(row['Segment_feature_number']),
                         vowel=truth(row['Vowel']),
                         consonant=truth(row['Consonant']),
                         obstruent=truth(row['Obstruent']),
                         core_list=truth(row['Core_list_segment']),
                         symbol=symbol,
                     ))

        for i, spec in SEGMENT_VALUES.items():
            data.add(common.DomainElement,
                     '%s-%s' % (row['Segment_feature_number'], spec[0]),
                     id='%s-%s' % (p.id, i),
                     name=spec[0],
                     parameter=p,
                     jsondata={'color': spec[1]},
                     number=i)

    print '--> remapped:', primary_to_segment
    DBSession.flush()

    for row in read(args, 'Sociolinguistic_features',
                    'Sociolinguistic_feature_number'):
        feature_count += 1
        p = data.add(models.Feature,
                     row['Sociolinguistic_feature_code'],
                     name=row['Sociolinguistic_feature_name'],
                     id='%s' % feature_count,
                     description=row['Sociolinguistic_feature_annotation'],
                     area='Sociolinguistic',
                     feature_type='sociolinguistic')

        names = {}

        for i in range(1, 10):
            id_ = '%s-%s' % (row['Sociolinguistic_feature_code'], i)
            if row.get('Value%s' % i) and row['Value%s' % i].strip():
                name = row['Value%s' % i].strip()
                if name in names:
                    name += ' (%s)' % i
                names[name] = 1
            else:
                continue
            kw = dict(id='%s-%s' % (p.id, i), name=name, parameter=p, number=i)
            data.add(common.DomainElement,
                     id_,
                     id='%s-%s' % (p.id, i),
                     name=name,
                     parameter=p,
                     number=i,
                     jsondata={
                         'color':
                         colors.get(row['Value%s_colour_ID' % i],
                                    colors.values()[i])
                     })

    sd = {}
    for row in read(args, 'Segment_data'):
        if row['Segment_feature_number'] not in number_map:
            continue
        number = number_map[row['Segment_feature_number']]

        if not row['Presence_in_the_language']:
            continue

        lang = data['Lect'][row['Language_ID']]
        param = data['Feature'][number]
        id_ = '%s-%s' % (lang.id, param.id)
        if id_ in sd:
            assert row['c_Record_is_a_duplicate'] == 'Yes'
            continue
        sd[id_] = 1
        valueset = data.add(
            common.ValueSet,
            id_,
            id=id_,
            parameter=param,
            language=lang,
            contribution=data['ApicsContribution'][row['Language_ID']],
            description=row['Comments'],
            markup_description=normalize_markup(row['z_calc_Comments_CSS']),
        )
        v = data.add(
            common.Value,
            id_,
            id=id_,
            frequency=float(100),
            valueset=valueset,
            domainelement=data['DomainElement'][
                '%s-%s' % (number, row['Presence_in_the_language'])],
        )
        if row['Example_word'] and row['Example_word_gloss']:
            example_count[row['Language_ID']] += 1
            p = add_sentence(args,
                             data,
                             '%s-p%s' % (lang.id, data['Feature'][number].id),
                             id='%s-%s' %
                             (lang.id, example_count[row['Language_ID']]),
                             name=row['Example_word'],
                             description=row['Example_word_gloss'],
                             language=lang)
            DBSession.add(common.ValueSentence(value=v, sentence=p))

        source = data['Source'].get(row['Refers_to_references_Reference_ID'])
        if source:
            DBSession.add(
                common.ValueSetReference(valueset=valueset,
                                         source=source,
                                         key=source.id))
        elif row['Refers_to_references_Reference_ID'] in non_bibs:
            valueset.source = non_bibs[
                row['Refers_to_references_Reference_ID']]

    lects = defaultdict(lambda: 1)
    lect_map = {}
    records = {}
    false_values = {}
    no_values = {}
    wals_value_number = {}
    for row in read(args, 'wals'):
        if row['z_calc_WALS_value_number']:
            wals_value_number[
                row['Data_record_id']] = row['z_calc_WALS_value_number']

    def prefix(attr, _prefix):
        if _prefix:
            return '%s_%s' % (_prefix, attr)
        return attr.capitalize()

    for _prefix, abbr in [('', ''), ('Sociolinguistic', 'sl')]:
        num_values = 10
        for row in read(args, prefix('data', _prefix)):
            if not row[prefix('feature_code', _prefix)]:
                print('no associated feature for', prefix('data', _prefix),
                      row[prefix('data_record_id', _prefix)])
                continue

            lid = row['Language_ID']
            lect_attr = row.get('Lect_attribute', 'my default lect').lower()
            if lect_attr != 'my default lect':
                if (row['Language_ID'], row['Lect_attribute']) in lect_map:
                    lid = lect_map[(row['Language_ID'], row['Lect_attribute'])]
                else:
                    lang = data['Lect'][row['Language_ID']]
                    c = lects[row['Language_ID']]
                    lid = '%s-%s' % (row['Language_ID'], c)
                    kw = dict(
                        name='%s (%s)' % (lang.name, row['Lect_attribute']),
                        id='%s' % (1000 + 10 * int(lang.id) + c),
                        latitude=lang.latitude,
                        longitude=lang.longitude,
                        description=row['Lect_attribute'],
                        language=lang,
                    )
                    data.add(models.Lect, lid, **kw)
                    lects[row['Language_ID']] += 1
                    lect_map[(row['Language_ID'], row['Lect_attribute'])] = lid

            id_ = abbr + str(row[prefix('data_record_id', _prefix)])
            assert id_ not in records
            records[id_] = 1

            assert row[prefix('feature_code', _prefix)] in data['Feature']
            language = data['Lect'][lid]
            parameter = data['Feature'][row[prefix('feature_code', _prefix)]]
            valueset = common.ValueSet(
                id='%s-%s' % (language.id, parameter.id),
                description=row['Comments_on_value_assignment'],
                markup_description=normalize_markup(
                    row.get('z_calc_Comments_on_value_assignment_CSS')),
            )

            values_found = {}
            for i in range(1, num_values):
                if not row['Value%s_true_false' % i]:
                    continue

                if row['Value%s_true_false' % i].strip().lower() != 'true':
                    assert row['Value%s_true_false' %
                               i].strip().lower() == 'false'
                    false_values[row[prefix('data_record_id', _prefix)]] = 1
                    continue

                iid = '%s-%s' % (row[prefix('feature_code', _prefix)], i)
                if iid not in data['DomainElement']:
                    print(iid, row[prefix('data_record_id',
                                          _prefix)], '--> no domainelement!')
                    continue
                values_found['%s-%s' % (id_, i)] = dict(
                    id='%s-%s' % (valueset.id, i),
                    domainelement=data['DomainElement']['%s-%s' % (row[prefix(
                        'feature_code', _prefix)], i)],
                    confidence=row['Value%s_confidence' % i],
                    frequency=float(row['c_V%s_frequency_normalised' %
                                        i]) if _prefix == '' else 100)

            if values_found:
                if row[prefix('data_record_id', _prefix)] in wals_value_number:
                    valueset.jsondata = {
                        'wals_value_number':
                        wals_value_number.pop(row[prefix(
                            'data_record_id', _prefix)])
                    }
                valueset.parameter = parameter
                valueset.language = language
                valueset.contribution = data['ApicsContribution'][
                    row['Language_ID']]
                valueset = data.add(common.ValueSet, id_, _obj=valueset)
                for i, item in enumerate(values_found.items()):
                    if i > 0 and not parameter.multivalued:
                        print 'multiple values for single-valued parameter: %s' % id_
                        break
                    id_, kw = item
                    kw['valueset'] = valueset
                    value = data.add(common.Value, id_, **kw)

                #
                # store references to additional data for segments which should be reused
                # for corresponding primary features!
                #
                if int(parameter.id) in primary_to_segment:
                    assert len(values_found) == 1
                    seg_id = '%s-%s' % (language.id, primary_to_segment[int(
                        parameter.id)])
                    seg_valueset = data['ValueSet'][seg_id]
                    seg_value = data['Value'][seg_id]
                    if not valueset.description and seg_valueset.description:
                        valueset.description = seg_valueset.description

                    for s in seg_value.sentence_assocs:
                        DBSession.add(
                            common.ValueSentence(value=value,
                                                 sentence=s.sentence))

                    for r in seg_valueset.references:
                        DBSession.add(
                            common.ValueSetReference(valueset=valueset,
                                                     source=r.source,
                                                     key=r.key))

                    if not valueset.source and seg_valueset.source:
                        valueset.source = seg_valueset.source

                DBSession.flush()
            else:
                no_values[id_] = 1

    DBSession.flush()

    for prefix, abbr, num_values in [
        ('D', '', 10),
        ('Sociolinguistic_d', 'sl', 7),
    ]:
        for row in read(args, prefix + 'ata_references'):
            assert row['Reference_ID'] in data['Source'] \
                or row['Reference_ID'] in non_bibs
            try:
                vs = data['ValueSet'][abbr +
                                      str(row[prefix + 'ata_record_id'])]
                if row['Reference_ID'] in data['Source']:
                    source = data['Source'][row['Reference_ID']]
                    DBSession.add(
                        common.ValueSetReference(
                            valueset=vs,
                            source=source,
                            key=source.id,
                            description=row['Pages'],
                        ))
                else:
                    if vs.source:
                        vs.source += '; ' + non_bibs[row['Reference_ID']]
                    else:
                        vs.source = non_bibs[row['Reference_ID']]
            except KeyError:
                continue

    DBSession.flush()

    missing = 0
    for row in read(args, 'Value_examples'):
        try:
            DBSession.add(
                common.ValueSentence(
                    value=data['Value']['%(Data_record_id)s-%(Value_number)s' %
                                        row],
                    sentence=data['Sentence'][
                        '%(Language_ID)s-%(Example_number)s' % row],
                    description=row['Notes'],
                ))
        except KeyError:
            missing += 1
    print('%s Value_examples are missing data' % missing)

    print('%s data sets with false values' % len(false_values))
    print('%s data sets without values' % len(no_values))

    for k, v in wals_value_number.items():
        print 'unclaimed wals value number:', k, v

    for i, row in enumerate(read(args, 'Contributors')):
        kw = dict(contribution=data['ApicsContribution'][row['Language ID']],
                  contributor=data['Contributor'][row['Author ID']])
        if row['Order_of_appearance']:
            kw['ord'] = int(float(row['Order_of_appearance']))
        data.add(common.ContributionContributor, i, **kw)

    DBSession.flush()
Beispiel #59
0
def main(args):
    data = Data()

    def maybe_int(c):
        try:
            return int(c.value)
        except Exception:
            return None

    contributors = {}
    xls = xlrd.open_workbook(args.data_file('eWAVE2-Contributors.xlsx'))
    sheet = xls.sheet_by_name('Tabelle1')
    fields = [sheet.cell(0, i).value for i in range(sheet.ncols)]
    for i in range(1, sheet.nrows):
        values = dict(zip(fields, [sheet.cell(i, j).value for j in range(sheet.ncols)]))
        contributors[slug(values['Voller Name'])] = values

    xls = xlrd.open_workbook(args.data_file('ewave.xls'))
    varieties = {}
    values = {}
    matrix = xls.sheet_by_name('matrixRAW-quer')
    features = [maybe_int(matrix.cell(0, i)) for i in range(matrix.ncols)]

    for i in range(3, matrix.nrows):
        values[maybe_int(matrix.cell(i, 1))] = dict(
            (features[j], matrix.cell(i, j).value.upper()) for j in range(6, matrix.ncols) if features[j])

    features = {n: dict(name=matrix.cell(1, i).value) for i, n in enumerate(features)}

    sheet = xls.sheet_by_name('Example sources')
    for i in range(sheet.nrows):
        id = maybe_int(sheet.cell(i, 0))
        if id in features:
            features[id]['example'] = sheet.cell(i, 2).value
            features[id]['example_source'] = sheet.cell(i, 2).value

    sheet = xls.sheet_by_name('var-infrmnts-type-regn-lat-lon')
    for i in range(sheet.nrows):
        if i == 0:
            cols = [sheet.cell(i, j).value.lower() for j in range(sheet.ncols)]
        else:
            varieties[int(sheet.cell(i, 0).value)] = dict(
                (cols[j], sheet.cell(i, j).value) for j in range(sheet.ncols))

    dataset = common.Dataset(
        id=ewave.__name__,
        name='eWAVE',
        description='The Electronic World Atlas of Varieties of English',
        domain='ewave-atlas.org',
        published=date(2013, 11, 15),
        license='http://creativecommons.org/licenses/by/3.0/',
        contact='*****@*****.**',
        jsondata={
            'license_icon': 'cc-by.png',
            'license_name': 'Creative Commons Attribution 3.0 Unported License'})
    DBSession.add(dataset)
    common.Editor(dataset=dataset, contributor=common.Contributor(id='ed1', name='Bernd Kortmann'), ord=1)
    common.Editor(dataset=dataset, contributor=common.Contributor(id='ed2', name='Kerstin Lunkenheimer'), ord=2)

    for id, name, description in [
        ('1', 'Pronouns', 'Pronouns, pronoun exchange, nominal gender'),
        ('2', 'Noun Phrase', 'Noun phrase'),
        ('3', 'Tense & Aspect', 'Verb phrase I: tense and aspect'),
        ('4', 'Modal Verbs', 'Verb phrase II: modal verbs'),
        ('5', 'Verb Morphology', 'Verb phrase III: verb morphology'),
        #('6', 'Voice', 'Verb phrase IV: voice'),
        ('6', 'Negation', 'Negation'),
        ('7', 'Agreement', 'Agreement'),
        ('8', 'Relativization', 'Relativization'),
        ('9', 'Complementation', 'Complementation'),
        ('10', 'Adverbial Subordination', 'Adverbial Subordination'),
        ('11', 'Adverbs & Prepositions', 'Adverbs and prepositions'),
        ('12', 'Discourse & Word Order', 'Discourse organization and word order'),
    ]:
        data.add(
            models.FeatureCategory, name, id=id, name=name, description=description)
    data['FeatureCategory']['Voice'] = data['FeatureCategory']['Verb Morphology']

    icons = {
        'L1t': {'shape': 's', 'color': 'f38847', 'broad': 'L1'},
        'L1c': {'shape': 'd', 'color': 'd22257', 'broad': 'L1'},
        'L2': {'shape': 'c', 'color': 'a0fb75', 'broad': 'L2'},
        'Cr': {'shape': 't', 'color': 'cb9a34', 'broad': 'P/C'},
        'P': {'shape': 'f', 'color': '4d6cee', 'broad': 'P/C'},
    }

    for cat in read(args, 'language_cat'):
        cls = models.VarietyType if cat['name'] == 'cat1' else models.Region
        if cat['name'] == 'cat1' and cat['value'] not in icons:
            raise ValueError(cat['value'])
        data.add(
            cls, cat['value'],
            id=cat['value'],
            name=cat['name1'],
            description=cat['definition'],
            jsondata=icons.get(cat['value']))

    for lang in read(args, 'language'):
        keys = ['id', 'name', 'latitude', 'longitude']
        l = data.add(
            models.Variety, lang['id'],
            region=data['Region'][lang['cat2']],
            type=data['VarietyType'][lang['cat1']],
            **{k: v for k, v in lang.items() if k in keys})
        data.add(
            models.WaveContribution, lang['id'],
            id=str(lang['id']),
            name=lang['name'],
            description=lang['spec1'],
            variety=l)

    for author in read(args, 'o1_author'):
        contributor = contributors[slug(author['first_name'] + author['last_name'])]
        data.add(
            common.Contributor, author['id'],
            id=str(author['id']),
            name=contributor['Voller Name'],
            address=contributor['Affiliation'],
            email=contributor['E-Mail'],
            url=contributor['Website'])

    abbr2lang = {}
    new_langs = []
    desc = {
        75: "Philippine English is one of the very few American-transplanted Englishes. "
        "The language was introduced in the country by American colonization that "
        "started in 1898. From only 300,000 users or 4% of the population at the "
        "beginning of the 20th century, it is estimated that there were around 42 "
        "million or 70% of the population who are able to use English, almost fifty "
        "years after the American colonization ended at the end of the century "
        "(Gonzalez, 1996). In the implementing 1987 Constitution, English is regarded as "
        "one of the two official languages of the Philippines, the other one being the "
        "national language Filipino. It also interacts with 180 other Austronesian-type "
        "languages used in the country, nine of them considered major languages. English "
        "plays a major role in the Philippine society, offering a rightfully unique "
        "rendering of the psycho-sociolinguistic phenomenon of the spread of English: "
        "A sizeable number of Filipinos even learn it as a first language (and sometimes "
        "only language). The language is widely used in government, education, business, "
        "science and technology, and the arts but it has also penetrated the personal "
        "and private lives of Filipinos, where code-switching can be prevalent. "
        "Proficiency in English may also be equated with socio-economic status; those "
        "with higher socio-economic status tend to be more proficient in the language. "
        "Philippine English is presently entering a stage of structural "
        "systematicization (cf. Borlongan & Lim, 2012) and is being codified through "
        "dictionaries and grammars. Consequently, some claims are made that Philippine "
        "English is already at the phase of endonormative stabilization (Borlongan, 2011)."
    }
    for vid, v in varieties.items():
        if vid not in data['Variety']:
            new_langs.append(vid)
            l = data.add(
                models.Variety, vid,
                id=str(vid),
                name=v['variety'],
                latitude=v['latitude'],
                longitude=v['longitude'],
                region=[r for r in data['Region'].values() if r.name == v['world region']][0],
                type=data['VarietyType'][v['variety  type (narrow)']])
            contribution = data.add(
                models.WaveContribution, vid,
                id=str(vid),
                name=l.name,
                description=desc.get(vid, ''),
                variety=l)
            if v['contributor(s)'] == 'Rajend Mesthrie':
                v['contributor(s)'] = 'Rajend Mesthrie and Tracey Toefy and Sean Bowerman'
            for name in v['contributor(s)'].split(' and '):
                contributor = None
                name = name.strip()
                maxid = 0
                for c in data['Contributor'].values():
                    if int(c.id) > maxid:
                        maxid = int(c.id)
                    if c.name == name:
                        contributor = c
                        print '--- already known:', name
                if not contributor:
                    maxid += 1
                    contributor = data.add(
                        common.Contributor, maxid, id=str(maxid), name=name)
                DBSession.add(common.ContributionContributor(
                    contributor=contributor, contribution=contribution))
        else:
            l = data['Variety'][vid]
        l.abbr = v['abbreviation'].strip()
        abbr2lang[l.abbr] = l

    for author in read(args, 'o1_author'):
        for lang in filter(None, [l.strip() for l in author['langIDs'].split(',')]):
            DBSession.add(common.ContributionContributor(
                contributor=data['Contributor'][author['id']],
                contribution=data['WaveContribution'][int(lang)]))

    domain = {
        'A': ('feature is pervasive or obligatory', {'color': 'fe3856'}),
        'B': ('feature is neither pervasive nor extremely rare', {'color': 'ed9c07'}),
        'C': ('feature exists, but is extremely rare', {'color': 'efe305'}),
        'D': ('attested absence of feature', {'color': 'f3ffb0'}),
        'X': ('feature is not applicable (given the structural make-up of the variety/P/C)', {'color': 'e8e8e8'}),
        '?': ('no information on feature is available', {'color': 'ffffff'}),
    }

    for param in read(args, 'lparam'):
        data.add(
            models.Feature, param['id'],
            id=str(param['id']),
            category=data['FeatureCategory'][param['cat1']],
            name=param['name'],
            description=param['name1'],
            jsondata={'example_source': param['spec1']})

    for de in read(args, 'lparamshaping'):
        desc, jsondata = domain[de['name']]
        data.add(
            common.DomainElement, de['id'],
            id=str(de['id']),
            parameter=data['Feature'][de['lparam_id']],
            name=de['name'],
            description=desc,
            jsondata=jsondata,
            number=de['number'])

    # values:
    changes = []
    maxid = 0
    for value in read(args, 'llps'):
        if not int(value['value']):
            continue
        if value['id'] > maxid:
            maxid = value['id']
        de = data['DomainElement'][value['lparamshaping_id']]
        if de.name != values[value['language_id']][int(de.parameter.id)]:
            new_de = None
            for _de in de.parameter.domain:
                if _de.name == values[value['language_id']][int(de.parameter.id)]:
                    new_de = _de
                    break
            if not new_de or new_de == de:
                print values[value['language_id']][int(de.parameter.id)], ' =?= ', de.name
            changes.append((str(value['language_id']), de.parameter.id, de.name, values[value['language_id']][int(de.parameter.id)]))
            de = new_de
        vs = data.add(
            common.ValueSet, value['id'],
            id=str(value['id']),
            contribution=data['WaveContribution'][value['language_id']],
            parameter=de.parameter,
            jsondata=de.jsondata,
            language=data['Variety'][value['language_id']])
        data.add(
            common.Value, value['id'],
            id=str(value['id']),
            domainelement=de,
            valueset=vs)

    dataset.jsondata['changes'] = {'2013': changes}
    print len(changes), 'values changed'

    for new_lang in new_langs:
        for param, value in values[new_lang].items():
            if new_lang == 75 and param == 195 and not value:
                value = '?'
            maxid += 1
            parameter = data['Feature'][param]
            de = None
            for _de in parameter.domain:
                if _de.name == value:
                    de = _de
            assert de
            vs = data.add(
                common.ValueSet, maxid,
                id=str(maxid),
                contribution=data['WaveContribution'][new_lang],
                parameter=parameter,
                jsondata=de.jsondata,
                language=data['Variety'][new_lang])
            data.add(
                common.Value, maxid,
                id=str(maxid),
                domainelement=de,
                valueset=vs)

    DBSession.flush()

    for rec in bibtex.Database.from_file(args.data_file('eWAVE2References.bib')):
        data.add(common.Source, slug(rec.id), _obj=bibtex2source(rec))

    for i, example in enumerate(excel.rows(xlrd.open_workbook(args.data_file('eWAVE2-Examples_tidy-1.xlsx')).sheets()[0], as_dict=True)):
        if example['primary_text'] == 'Cf. Table 1 in section 3.1':
            continue
        lang = abbr2lang[example['language']]
        if isinstance(example['feature number'], basestring):
            fid = re.match('([0-9]+)', example['feature number']).groups()[0]
        else:
            fid = example['feature number']
        fid = str(int(fid))
        s = data.add(
            common.Sentence, i+1,
            id=str(i+1),
            name=example['primary_text'],
            gloss=example['gloss'] or None,
            comment=example['comment'] or None,
            description=example['translation'] or None,
            language=lang)

        for ref in (example['Source'] or '').split(';'):
            if ref:
                ref = ref.strip()
                desc = None
                if ':' in ref:
                    ref, desc = [_s.strip() for _s in ref.split(':', 1)]
                recid = slug(ref)
                recid = {
                    'allsopp996': 'allsopp1996',
                    'orton1962': 'orton19621971',
                    'bbcvoices': 'voices',
                    'cottmann1963': 'cottman1963',
                    'mooreetal1991': 'moore1991',
                }.get(recid, recid)
                if recid not in data['Source']:
                    assert recid == '50'
                    continue
                DBSession.add(common.SentenceReference(
                    sentence=s, source=data['Source'][recid], description=desc, key=ref))

        vs = DBSession.query(common.ValueSet)\
            .join(common.Parameter).join(common.Language)\
            .filter(common.Parameter.id == fid)\
            .filter(common.Language.pk == lang.pk).one()
        DBSession.add(common.ValueSentence(sentence=s, value=vs.values[0]))