def test_build_question_list_as_question(self): am = AttributeManager('first_name', ['instruments']) bm = AttributeManager('instruments', []) allowed = [Trumpet(), Drums(), Bassoon(), Clarinet(), Horn(), Flute()] for i in range(4): member = Member(i, first_name='A', instruments=[Tuba(), Trombone()]) am.register_member(member) bm.register_member(member) with pytest.raises(RuntimeError, match='currently not hintable for instruments'): am.build_question_with(bm) for i in range(100): member = Member( i + 10, first_name=random.choice(['1', '2', '3', '4', '5']), instruments=random.sample(allowed, random.randint(1, 4)), ) am.register_member(member) bm.register_member(member) member, attr, opts, idx = am.build_question_with(bm) assert attr in am.data assert attr == 'A' assert len(set(opts)) == 4 assert member in am.available_members assert member in bm.available_members for instrument in set(opts).difference({opts[idx]}): assert not any(attr == am.get_members_attribute(m) and instrument in bm.get_members_attribute(m) for m in bm.available_members)
class Member: # pylint: disable=R0902,R0913,R0904 """ A member of AkaBlas. Note: Orchestra instance support subscription for all properties and attributes listed in :attr:`SUBSCRIPTABLE`. Attributes: user_id (:obj:`int`): The Telegram user_id. phone_number (:obj:`str`): Optional. Phone number. first_name (:obj:`str`): Optional. First name. last_name (:obj:`str`): Optional. Last name. nickname (:obj:`str`): Optional. Nickname. gender (:obj:`str`): Optional. Gender. date_of_birth (:class:`datetime.date`): Optional. : Date of birth. joined (:obj:`int`): Optional. The year this member joined AkaBlas. photo_file_id (:obj:`str`): Optional. Telegram file ID of the user photo allow_contact_sharing (:obj:`bool`): Whether sharing this members contact information with others is allowed. user_score (:class:`components.UserScore`): A highscore associated with this member. Args: user_id: The Telegram user_id. phone_number: Phone number. first_name: First name. last_name: Last name. nickname: Nickname. gender: Gender. joined: The year this member joined AkaBlas as for digit number. date_of_birth: Date of birth. instruments: Instrument(s) this member plays. address: Address. Only address `or`` latitude and longitude may be passed. latitude: Latitude of address. Only address `or`` latitude and longitude may be passed. longitude: Longitude of address. Only address `or`` latitude and longitude may be passed. photo_file_id: Telegram file ID of the user photo functions: Function(s) this member holds. allow_contact_sharing: Whether sharing this users contact information with others is allowed. Defaults to :obj:`False`. """ _AD_URL: ClassVar[str] = '' _AD_URL_ACTIVE: ClassVar[str] = '' _AD_USERNAME: ClassVar[str] = '' _AD_PASSWORD: ClassVar[str] = '' _AKADRESSEN: ClassVar[Optional[pd.DataFrame]] = None _AKADRESSEN_ACTIVE: ClassVar[Optional[pd.DataFrame]] = None _AKADRESSEN_CACHE_TIME: ClassVar[Optional[dt.date]] = None def __init__( self, user_id: Union[str, int], phone_number: str = None, first_name: str = None, last_name: str = None, nickname: str = None, gender: str = None, date_of_birth: dt.date = None, instruments: Union[List[Instrument], Instrument] = None, address: str = None, latitude: float = None, longitude: float = None, photo_file_id: str = None, allow_contact_sharing: Optional[bool] = False, joined: int = None, functions: Union[List[str], str] = None, ) -> None: if sum([x is not None for x in [longitude, latitude]]) == 1: raise ValueError( 'Either none of longitude and latitude or both must be passed!' ) if longitude and address: raise ValueError( 'Only address or longitude and latitude may be passed!') self.user_id: int = int(user_id) self.phone_number = phone_number self.first_name = first_name self.last_name = last_name self.nickname = nickname self.gender = gender self.joined = joined self.date_of_birth = date_of_birth self.photo_file_id = photo_file_id self.allow_contact_sharing = allow_contact_sharing self.user_score = UserScore() # See https://github.com/python/mypy/issues/3004 self._instruments: List[Instrument] = [] self.instruments = instruments # type: ignore self._functions: List[str] = [] self.functions = functions # type: ignore self._geo_locator: Photon = Photon(timeout=5) self._address: Optional[str] = None self._longitude: Optional[float] = None self._latitude: Optional[float] = None self._raw_address: Optional[dict] = None if address: self.set_address(address=address) if longitude and latitude: self.set_address(coordinates=(latitude, longitude)) def __repr__(self) -> str: return f'Member({self.full_name or str(self.user_id)})' def __eq__(self, other: object) -> bool: if isinstance(other, Member): return self.user_id == other.user_id return False def __hash__(self) -> int: return self.user_id def __getitem__( self, item: str ) -> Union[str, dt.date, int, List[Instrument], None, float]: if item not in self.SUBSCRIPTABLE: raise KeyError( 'Member either does not have such an attribute or does not support ' 'subscription for it.') return getattr(self, item) def __setitem__(self, item: str, value: Any) -> None: if item not in self.SUBSCRIPTABLE: raise KeyError( 'Member either does not have such an attribute or does not support ' 'subscription for it.') return setattr(self, item, value) def to_str(self) -> str: # pylint: disable=C0116 with setlocale('de_DE.UTF-8'): return ( f'Name: {self.full_name or "-"}\n' f'Geschlecht: {self.gender or "-"}\n' f'Geburtstag: ' f'{self.date_of_birth.strftime("%d. %B %Y") if self.date_of_birth else "-"}\n' f'Instrument/e: {self.instruments_str or "-"}\n' f'Dabei seit: {self.joined or "-"}\n' f'Ämter: {self.functions_str or "-"}\n' f'Adresse: {self.address or "-"}\n' f'Mobil: {self.phone_number or "-"}\n' f'Foto: {"🖼" if self.photo_file_id else "-"}\n' f'Daten an AkaBlasen weitergeben: ' f'{"Aktiviert" if self.allow_contact_sharing else "Deaktiviert"}' ) def set_address(self, address: str = None, coordinates: Tuple[float, float] = None) -> Optional[str]: """ Tries to get the missing data from the Open Street Map API. Exactly one of the optional parameters must be passed. Args: address: The address. coordinates: Coordinates as tuple of latitude and longitude. Returns: The found address. """ if bool(address and coordinates) or not bool(address or coordinates): raise ValueError('Exactly one of the parameters must be passed!') try: if address: location = self._geo_locator.geocode(address) else: location = self._geo_locator.reverse(coordinates) except GeopyError: self._raw_address = None self._address = None self._longitude = None self._latitude = None return self._address if location: if 'properties' in location.raw: raw = location.raw['properties'] if (('street' in raw or 'name' in raw) and 'postcode' in raw and 'city' in raw and 'country' in raw): raw['city'] = raw['city'].replace('Brunswick', 'Braunschweig') street = raw.get('street') or raw.get('name') raw['street'] = street h_m = raw.get('housenumber') housenumber = f" {h_m}" if h_m else '' self._address = f"{street}{housenumber}, {raw['postcode']} {raw['city']}" if raw['country'] != 'Germany': self._address += f" {raw['country']}" self._raw_address = raw else: self._address = location.address else: self._address = location.address self._latitude = location.latitude self._longitude = location.longitude else: self._raw_address = None self._address = None self._longitude = None self._latitude = None return self._address def clear_address(self) -> None: """ Deletes the address of this member. """ self._raw_address = None self._address = None self._longitude = None self._latitude = None @property def full_name(self) -> Optional[str]: """ Full name of the member. May be :obj:`None`. """ if not any([self.first_name, self.last_name, self.nickname]): return None if self.first_name is None and self.last_name is None: return self.nickname nickname: Optional[str] = None if self.nickname is not None: nickname = f'"{self.nickname}"' return ' '.join([ n for n in [self.first_name, nickname, self.last_name] if n is not None ]) @property def address(self) -> Optional[str]: """ Address of the member. """ return self._address @address.setter def address(self, value: str) -> NoReturn: # pylint: disable=R0201 raise ValueError('Please use set_address to update the address!') @property def latitude(self) -> Optional[float]: """ Latitude of the members address. """ return self._latitude @latitude.setter def latitude(self, value: float) -> NoReturn: # pylint: disable=R0201 raise ValueError('Please use set_address to update the latitude!') @property def longitude(self) -> Optional[float]: """ Longitude of the members address. """ return self._longitude @longitude.setter def longitude(self, value: float) -> NoReturn: # pylint: disable=R0201 raise ValueError('Please use set_address to update the longitude!') @property def instruments(self) -> List[Instrument]: """ Instrument(s) this member plays. List may be empty """ return self._instruments @instruments.setter def instruments( self, instruments: Optional[Union[List[Instrument], Instrument]]) -> None: if instruments is None: self._instruments = [] elif isinstance(instruments, Instrument): self._instruments = [ instruments ] if instruments in self.ALLOWED_INSTRUMENTS else [] else: self._instruments = [ i for i in instruments if i in self.ALLOWED_INSTRUMENTS ] @property def instruments_str(self) -> Optional[str]: """ Stringified list of the instrument(s) the member plays. May be empty. """ if self.instruments: return ', '.join(str(i) for i in self.instruments) return None @property def functions(self) -> List[str]: """ Function(s) this member holds. List may be empty """ return self._functions @functions.setter def functions(self, functions: Optional[Union[List[str], str]]) -> None: if functions is None: self._functions = [] elif isinstance(functions, str): self._functions = [functions] else: self._functions = functions @property def functions_str(self) -> Optional[str]: """ Stringified list of the function(s) the member holds. May be empty. """ if self.functions: return ', '.join(self.functions) return None @property def vcard_filename(self) -> str: """ Gives a filename of the vcard generated by :attr:`vcard`. """ return f'{self.full_name}.vcf'.replace(' ', '_').replace('"', '') def vcard(self, bot: Bot, admin: bool = False) -> BytesIO: """ Gives a vCard of the member. Args: bot: A Telegram bot to retrieve the members photo (if set). Must be the same bot that retrieved the file ID. admin: Whether this method is invoked with admin rights. Returns: The vCard as bytes stream. Make sure to close it! Raises: ValueError: If sharing contact information is not allowed and :attr:`admin` is :obj:`False`. """ if not (self.allow_contact_sharing or admin): raise ValueError( 'This member does not allow sharing it\'s contact information.' ) vcard = vobject.vCard() if self.full_name: vcard.add('fn').value = self.full_name.replace('"', '') else: vcard.add('fn').value = '' vcard.add('n').value = vobject.vcard.Name(family=self.last_name or '', given=self.first_name or '') vcard.add('nickname').value = self.nickname or '' vcard.add('tel').value = self.phone_number or '' vcard.add('role').value = self.instruments_str or '' org = ['AkaBlas e.V.'] if self.instruments: org.append(self.instruments_str) # type: ignore vcard.add('org').value = org vcard.add('title').value = self.functions_str or '' if self.gender == Gender.MALE: vcard.add('gender').value = 'M' elif self.gender == Gender.FEMALE: vcard.add('gender').value = 'F' if self.date_of_birth: vcard.add('bday').value = self.date_of_birth.strftime('%Y%m%d') if self._raw_address: vcard.add('adr').value = vobject.vcard.Address( city=self._raw_address['city'], code=self._raw_address['postcode'], street=' '.join([ self._raw_address['street'], self._raw_address.get('housenumber', '') ]), ) if self.photo_file_id: photo_stream = BytesIO() file = bot.get_file(self.photo_file_id) file.download(out=photo_stream) photo_stream.seek(0) photo = vcard.add('photo') photo.encoding_param = 'B' photo.type_param = 'JPG' photo.value = photo_stream.read() vcard_file = BytesIO() vcard_file.write(vcard.serialize().encode('utf-8')) vcard_file.seek(0) return vcard_file @staticmethod def _compare(str1: str, str2: str, allow_partial: bool = True) -> float: str_1 = str1.lower() str_2 = str2.lower() if allow_partial: return max(fuzz.ratio(str_1, str_2), fuzz.partial_ratio(str_1, str_2)) / 100 return fuzz.ratio(str_1, str_2) / 100 def compare_instruments_to(self, string: str) -> float: """ Compares the members instruments to the given string. The comparison is case insensitive. Args: string: The string to compare to. Returns: Similarity in percentage. Raises: ValueError: If the member has no instruments. """ if not self.instruments_str: raise ValueError('This member has no instruments.') return self._compare(self.instruments_str, string) def compare_functions_to(self, string: str) -> float: """ Compares the members functions to the given string. The comparison is case insensitive. Args: string: The string to compare to. Returns: Similarity in percentage. Raises: ValueError: If the member holds no functions. """ if not self.functions_str: raise ValueError('This member holds no functions.') functions = copy.deepcopy(self.functions) if 'Pärchenwart' in self.functions: if self.gender == Gender.FEMALE: functions.append('Männerwart') elif self.gender == Gender.MALE: functions.append('Frauenwart') return max( self._compare(f, string, allow_partial=False) for f in functions) def compare_first_name_to(self, string: str) -> float: """ Compares the members first name to the given string. The comparison is case insensitive. Args: string: The string to compare to. Returns: Similarity in percentage. Raises: ValueError: If the member has no first name. """ if self.first_name is None: raise ValueError('This member has no first name.') return self._compare(self.first_name, string) def compare_last_name_to(self, string: str) -> float: """ Compares the members last name to the given string. The comparison is case insensitive. Args: string: The string to compare to. Returns: Similarity in percentage. Raises: ValueError: If the member has no last name. """ if self.last_name is None: raise ValueError('This member has no last name.') return self._compare(self.last_name, string) def compare_nickname_to(self, string: str) -> float: """ Compares the members nickname to the given string. The comparison is case insensitive. Args: string: The string to compare to. Returns: Similarity in percentage. Raises: ValueError: If the member has no nickname. """ if self.nickname is None: raise ValueError('This member has no nickname.') return self._compare(self.nickname, string) def compare_full_name_to(self, string: str) -> float: """ Compares the members full name to the given string. The comparison is case insensitive. Args: string: The string to compare to. Returns: Similarity in percentage. Raises: ValueError: If the member has no full name. """ if self.full_name is None: raise ValueError('This member has no full name.') str_1 = self.full_name.lower().replace('"', '') str_2 = string.lower() return (fuzz.ratio(str_1, str_2) + fuzz.token_set_ratio(str_1, str_2)) / 200 def compare_address_to(self, string: str) -> float: """ Compares the members address to the given string. The comparison is case insensitive. Args: string: The string to compare to. Returns: Similarity in percentage. Raises: ValueError: If the member has no address. """ if self.address is None: raise ValueError('This member has no address.') return fuzz.token_sort_ratio(self.address.lower(), string.lower()) / 100 def distance_of_address_to(self, coordinates: Tuple[float, float]) -> float: """ Computes the distance between the members address and the given coordinates. Args: coordinates: A tuple of latitude and longitude to compare to. Returns: The distance in kilometers. Raises: ValueError: If the member has no address. """ if self.address is None: raise ValueError('This member has no address.') return distance.distance((self.latitude, self.longitude), coordinates).kilometers @property def age(self) -> Optional[int]: """ The age of the member at evaluation time. :obj:`None`, if :attr:`date_of_birth` is not set. """ if not self.date_of_birth: return None today = dt.date.today() born = self.date_of_birth return today.year - born.year - ((today.month, today.day) < (born.month, born.day)) @property def birthday(self) -> Optional[str]: """ The birthday of the member int he format ``DD.MM.``. :obj:`None`, if :attr:`date_of_birth` is not set. """ if not self.date_of_birth: return None return self.date_of_birth.strftime('%d.%m.') @classmethod def set_akadressen_credentials(cls, url: str, url_active: str, username: str, password: str) -> None: """ Set the credentials needed to retrieve the AkaDRessen Args: url: The URL of the AkaDressen. url_active: The URL of the AkaDressen containing only the active members. username: Username. password: Password. """ cls._AD_URL = url cls._AD_URL_ACTIVE = url_active cls._AD_USERNAME = username cls._AD_PASSWORD = password def copy(self) -> 'Member': """ Returns: A (deep) copy of this member. """ # for backwards compatibility if not hasattr(self, '_functions'): self._functions = [] # pylint: disable=W0212 # type: ignore if hasattr(self.user_score, 'member'): del self.user_score.member # type: ignore # pylint: disable=E1101 # pragma: no cover for score in self.user_score._high_score.values(): # pylint: disable=W0212 # type: ignore if hasattr(score, 'member'): # pragma: no cover del score.member # pragma: no cover new_member = copy.deepcopy(self) if not hasattr(new_member, 'joined'): new_member.joined = None new_member.instruments = [ i for i in new_member.instruments if i in self.ALLOWED_INSTRUMENTS ] return new_member @classmethod def _get_akadressen(cls, active: bool = False) -> pd.DataFrame: # pylint: disable=R0915 # A bunch of helpers to parse the downloaded data leading_whitespace_pattern = re.compile(r'\b(?=\w)(\w) (\w)') trailing_whitespace_pattern = re.compile(r'(\w) ([^0-9])\b(?<=\w)') def string_to_date(string: Union[str, np.nan]) -> Optional[dt.date]: if string is np.nan: return None with setlocale('de_DE.UTF-8'): string = string.replace('Mrz', dt.datetime(2020, 3, 1).strftime('%b')) try: out = dt.datetime.strptime(string, '%d. %b. %y').date() except ValueError: out = dt.datetime.strptime(string, '%d. %b. %Y').date() if out.year >= dt.datetime.now().year: out = out.replace(year=out.year - 100) return out def year_to_int(string: Union[str, np.nan]) -> Optional[int]: if string is np.nan: return None out = dt.datetime.strptime(string, '%y').date() if out.year >= dt.datetime.now().year: out = out.replace(year=out.year - 100) return out.year def string_to_instrument(string: str) -> Optional[Instrument]: try: return Instrument.from_string(string) except ValueError: return None def remove_whitespaces(string: str) -> str: string = re.sub(leading_whitespace_pattern, r'\g<1>\g<2>', string) return re.sub(trailing_whitespace_pattern, r'\g<1>\g<2>', string) def extract_nickname(string: str) -> Optional[str]: if '(' in string: return string.split('(')[0].strip() return None def remove_nickname(string: str) -> str: if '(' in string: parts = string.split('(') string = ' '.join(parts[1:]).replace(')', '') return string def expand_brunswick(address: str) -> str: address = remove_whitespaces(address) return address.replace('BS', 'Braunschweig') def first_name(string: str) -> str: names = string.split(' ') if len(names) > 2: return ' '.join(names[:-1]) return names[0] def last_name(string: str) -> str: return string.split(' ')[-1] with NamedTemporaryFile(suffix='.pdf', delete=False) as akadressen: response = requests.get( cls._AD_URL_ACTIVE if active else cls._AD_URL, auth=(cls._AD_USERNAME, cls._AD_PASSWORD), stream=True, ) if response.status_code == 200: response.raw.decode_content = True shutil.copyfileobj(response.raw, akadressen) akadressen.close() # Read tables from PDF tables = read_pdf(akadressen.name, flavor='stream', pages='all') # Convert to pandas DataFrame d_f = pd.concat([t.df for t in tables]) # Rename columns if active: d_f = d_f.rename( columns={ 0: 'name', 1: 'date_of_birth', 2: 'address', 3: 'phone', 4: 'instrument', 5: 'joined', }) else: d_f = d_f.rename( columns={ 0: 'name', 1: 'address', 2: 'phone', 3: 'date_of_birth', 4: 'instrument', }) # Drop empty lines d_f = d_f.replace(r'^\s*$', np.nan, regex=True) d_f = d_f.dropna(thresh=4) # Parse all the data if active: d_f.loc[:, 'joined'] = d_f.loc[:, 'joined'].apply(year_to_int) d_f.loc[:, 'fullname'] = d_f.loc[:, 'name'].apply( remove_whitespaces) else: d_f.loc[:, 'date_of_birth'] = d_f.loc[:, 'date_of_birth'].apply( string_to_date) d_f.loc[:, 'instrument'] = d_f.loc[:, 'instrument'].apply( string_to_instrument) d_f.loc[:, 'address'] = d_f.loc[:, 'address'].apply( expand_brunswick) d_f.loc[:, 'fullname'] = d_f.loc[:, 'name'].apply( remove_whitespaces) d_f.loc[:, 'name'] = d_f.loc[:, 'name'].apply(remove_whitespaces) d_f.loc[:, 'nickname'] = d_f.loc[:, 'name'].apply( extract_nickname) d_f.loc[:, 'name'] = d_f.loc[:, 'name'].apply(remove_nickname) d_f.loc[:, 'first_name'] = d_f.loc[:, 'name'].apply(first_name) d_f.loc[:, 'last_name'] = d_f.loc[:, 'name'].apply(last_name) return d_f raise Exception('Could not retrieve AkaDressen.') @classmethod def guess_member(cls, user: User) -> Optional[List['Member']]: """ Tries to guess a :class:`components.Member` from the AkaDressen based on the Telegram users attributes. May return no or several hits. Args: user: A Telegram user. """ def generous_ratio(str1: Optional[str], str2: Optional[str]) -> float: if str1 is None or str2 is None: return 0.0 str1 = str1.lower().strip() str2 = str2.lower().strip() return max( fuzz.ratio(str1, str2), fuzz.partial_ratio(str1, str2), fuzz.token_set_ratio(str1, str2), ) # Refresh AkaDressen if (cls._AKADRESSEN_CACHE_TIME is None or cls._AKADRESSEN_ACTIVE is None or dt.date.today() > cls._AKADRESSEN_CACHE_TIME or cls._AKADRESSEN is None): cls._AKADRESSEN = cls._get_akadressen() cls._AKADRESSEN_ACTIVE = cls._get_akadressen(active=True) if cls._AKADRESSEN is not None: cls._AKADRESSEN_CACHE_TIME = dt.date.today() ranking: Dict[int, float] = defaultdict(lambda: 0.0) count = 0 for row in cls._AKADRESSEN.itertuples(index=True): ranking[count] = 0 for attr in ['first_name', 'last_name']: ranking[count] += generous_ratio(getattr(user, attr), getattr(row, attr)) for attr in ['first_name', 'last_name', 'nickname']: ranking[count] += generous_ratio(user.username, getattr(row, attr)) count += 1 max_ranking = max(ranking.values()) if max_ranking == 0: return None list_df = list(cls._AKADRESSEN.itertuples(index=False)) all_max_rankings = [ list_df[idx] for idx in ranking if ranking[idx] == max_ranking ] members = [] for row in all_max_rankings: potential_joined = cls._AKADRESSEN_ACTIVE.loc[ cls._AKADRESSEN_ACTIVE['fullname'] == row.fullname # pylint: disable=E1136 ] if len(potential_joined) == 1: joined = potential_joined.iloc[0].joined else: joined = None members.append( Member( user_id=user.id, first_name=row.first_name, last_name=row.last_name, nickname=row.nickname, address=row.address, instruments=row.instrument, date_of_birth=row.date_of_birth, joined=joined, )) return members SUBSCRIPTABLE = sorted([ 'birthday', 'age', 'first_name', 'last_name', 'nickname', 'address', 'latitude', 'longitude', 'instruments', 'gender', 'phone_number', 'date_of_birth', 'full_name', 'joined', 'photo_file_id', 'functions', 'allow_contact_sharing', ]) """List[:obj:`str`]: Attributes supported by subscription.""" ALLOWED_INSTRUMENTS: List[Instrument] = [ PercussionInstrument(), Flute(), Clarinet(), Oboe(), Bassoon(), SopranoSaxophone(), AltoSaxophone(), TenorSaxophone(), BaritoneSaxophone(), Euphonium(), BaritoneHorn(), Baritone(), Trombone(), Tuba(), Trumpet(), Flugelhorn(), Horn(), Drums(), Guitar(), BassGuitar(), ] """List[:class:`components.Instrument`]: Instruments that members are allowed to play."""
class TestInstruments: @pytest.mark.parametrize( 'cls', [i for i in instruments.__dict__.values() if isinstance(i, type)]) def test_instruments(self, cls): instrument = cls() assert isinstance(instrument.name, str) assert isinstance(str(instrument), str) @pytest.mark.parametrize( 'cls', [i for i in instruments.__dict__.values() if isinstance(i, type)]) def test_from_string_by_name(self, cls): assert Instrument.from_string(cls.name) == cls() @pytest.mark.parametrize( 'abbr, expected', [ ('flö', Flute()), ('kla', Clarinet()), ('obe', Oboe()), ('hlz', WoodwindInstrument()), ('sax', Saxophone()), ('asx', AltoSaxophone()), ('tsx', TenorSaxophone()), ('f*g', Bassoon()), ('trp', Trumpet()), ('flü', Flugelhorn()), ('teh', BaritoneHorn()), ('hrn', Horn()), ('pos', Trombone()), ('tub', Tuba()), ('tpd', PercussionInstrument()), ('git', Guitar()), ('bss', BassGuitar()), ], ) def test_from_string_by_abbreviation(self, abbr, expected): assert Instrument.from_string(abbr) == expected @pytest.mark.parametrize('string', ['unknown', 'Geige', 'Violin', 'Brennholz']) def test_from_string_unknown(self, string): with pytest.raises(ValueError, match='Unknown'): Instrument.from_string(string) def test_from_string_allowed(self): assert Instrument.from_string('tub', []) is None assert Instrument.from_string('tub', [Trombone(), 'Schlagzeug']) is None assert Instrument.from_string('tub', ['Tuba']) == Tuba() assert Instrument.from_string('tub', [Tuba()]) == Tuba() @pytest.mark.parametrize( 'cls', [i for i in instruments.__dict__.values() if isinstance(i, type)]) def test_global(self, cls): instrument = cls() assert isinstance(instrument, Instrument) assert instrument <= Instrument() assert Instrument() >= instrument assert instrument < Instrument() or type(instrument) is Instrument assert Instrument() > instrument or type(instrument) is Instrument assert not instrument > Instrument() assert instrument == cls() assert hash(instrument) == hash(cls()) @pytest.mark.parametrize( 'cls', [i for i in instruments.__dict__.values() if isinstance(i, type)]) def test_string_equality(self, cls): assert cls() == cls.name assert cls.name.lower() == cls() assert not cls() == f' {cls.name}' assert not cls() == 'random string' @pytest.mark.parametrize('cls', [WoodwindInstrument, BrassInstrument]) def test_classes(self, cls): instrument = cls() assert isinstance(instrument, Instrument) @pytest.mark.parametrize('cls', [HighBrassInstrument, LowBrassInstrument]) def test_brass(self, cls): instrument = cls() assert isinstance(instrument, BrassInstrument) assert instrument <= BrassInstrument() assert BrassInstrument() >= instrument assert instrument < BrassInstrument() assert BrassInstrument() > instrument assert not instrument > BrassInstrument() assert hash(instrument) != hash(BrassInstrument()) assert instrument == cls() @pytest.mark.parametrize('cls', [Trumpet, Flugelhorn, Horn]) def test_high_brass(self, cls): instrument = cls() assert isinstance(instrument, HighBrassInstrument) assert instrument <= HighBrassInstrument() assert HighBrassInstrument() >= instrument assert instrument < HighBrassInstrument() assert HighBrassInstrument() > instrument assert not instrument > HighBrassInstrument() assert hash(instrument) != hash(HighBrassInstrument()) assert instrument == cls() @pytest.mark.parametrize( 'cls', [Euphonium, Baritone, BaritoneHorn, Tuba, Trombone]) def test_low_brass(self, cls): instrument = cls() assert isinstance(instrument, LowBrassInstrument) assert instrument <= LowBrassInstrument() assert LowBrassInstrument() >= instrument assert instrument < LowBrassInstrument() assert LowBrassInstrument() > instrument assert not instrument > LowBrassInstrument() assert hash(instrument) != hash(LowBrassInstrument()) assert instrument == cls() @pytest.mark.parametrize( 'cls', [ Flute, Clarinet, Oboe, Saxophone, AltoSaxophone, SopranoSaxophone, BaritoneSaxophone, TenorSaxophone, Bassoon, ], ) def test_wood(self, cls): instrument = cls() assert isinstance(instrument, WoodwindInstrument) assert instrument <= WoodwindInstrument() assert WoodwindInstrument() >= instrument assert instrument < WoodwindInstrument() assert WoodwindInstrument() > instrument assert not instrument > WoodwindInstrument() assert hash(instrument) != hash(WoodwindInstrument()) assert instrument == cls() @pytest.mark.parametrize( 'cls', [AltoSaxophone, SopranoSaxophone, BaritoneSaxophone, TenorSaxophone]) def test_sax(self, cls): instrument = cls() assert isinstance(instrument, Saxophone) assert instrument <= Saxophone() assert Saxophone() >= instrument assert instrument < Saxophone() assert Saxophone() > instrument assert not instrument > Saxophone() assert hash(instrument) != hash(Saxophone()) assert instrument == cls() def test_percussion(self): instrument = Drums() assert isinstance(instrument, PercussionInstrument) assert instrument <= PercussionInstrument() assert PercussionInstrument() >= instrument assert instrument < PercussionInstrument() assert PercussionInstrument() > instrument assert not instrument > PercussionInstrument() assert hash(instrument) != hash(PercussionInstrument()) assert instrument == Drums() def test_guitar(self): instrument = BassGuitar() assert isinstance(instrument, Guitar) assert instrument <= Guitar() assert Guitar() >= instrument assert instrument < Guitar() assert Guitar() > instrument assert not instrument > Guitar() assert hash(instrument) != hash(Guitar()) assert instrument == BassGuitar() def test_conductor_warning(self, recwarn): Conductor() assert len(recwarn) == 1 assert 'Conductor is deprecated.' in str(recwarn[0].message)
]) """:class:`telegram.InlineKeyboardMarkup`: Keyboard leading to the info channel and the docs.""" BACK = 'Zurück' """:obj:`str`: Text indicating a 'back' action. Use as text or callback data.""" DONE = 'Fertig' """:obj:`str`: Text indicating a 'done' action. Use as text or callback data.""" ALL = 'Alles' """:obj:`str`: Text indicating to select all. Use as text or callback data.""" INSTRUMENT_KEYBOARD: List[List[Instrument]] = [ [Flute(), Clarinet()], [Oboe(), Bassoon()], [SopranoSaxophone(), AltoSaxophone()], [TenorSaxophone(), BaritoneSaxophone()], [Trumpet(), Flugelhorn()], [Horn()], [Euphonium(), Baritone()], [BaritoneHorn(), Trombone()], [Tuba()], [Guitar(), BassGuitar()], [PercussionInstrument(), Drums()], ] QUESTION_HINT_KEYBOARD: List[List[str]] = [ ['first_name', 'last_name'], ['full_name', 'nickname'], ['age', 'birthday'], ['instruments', 'joined'], ['address', 'photo_file_id'], ['functions'], ]