"""File generated by TLObjects' generator. All changes will be ERASED"""
from ...tl.tlobject import TLObject
from typing import Optional, List, Union, TYPE_CHECKING
import os
import struct
from datetime import datetime
if TYPE_CHECKING:
    from ...tl.types import TypeAccessPointRule, TypeChat, TypeDataJSON, TypeDocument, TypeJSONValue, TypeMessageEntity, TypePeer, TypePendingSuggestion, TypePremiumSubscriptionOption, TypeRecentMeUrl, TypeTimezone, TypeUser
    from ...tl.types.help import TypeCountry, TypeCountryCode, TypePeerColorOption, TypePeerColorSet, TypeTermsOfService



class AppConfig(TLObject):
    CONSTRUCTOR_ID = 0xdd18782e
    SUBCLASS_OF_ID = 0x14381c9a

    def __init__(self, hash: int, config: 'TypeJSONValue'):
        """
        Constructor for help.AppConfig: Instance of either AppConfigNotModified, AppConfig.
        """
        self.hash = hash
        self.config = config

    def to_dict(self):
        return {
            '_': 'AppConfig',
            'hash': self.hash,
            'config': self.config.to_dict() if isinstance(self.config, TLObject) else self.config
        }

    def _bytes(self):
        return b''.join((
            b'.x\x18\xdd',
            struct.pack('<i', self.hash),
            self.config._bytes(),
        ))

    @classmethod
    def from_reader(cls, reader):
        _hash = reader.read_int()
        _config = reader.tgread_object()
        return cls(hash=_hash, config=_config)


class AppConfigNotModified(TLObject):
    CONSTRUCTOR_ID = 0x7cde641d
    SUBCLASS_OF_ID = 0x14381c9a

    def to_dict(self):
        return {
            '_': 'AppConfigNotModified'
        }

    def _bytes(self):
        return b''.join((
            b'\x1dd\xde|',
        ))

    @classmethod
    def from_reader(cls, reader):
        return cls()


class AppUpdate(TLObject):
    CONSTRUCTOR_ID = 0xccbbce30
    SUBCLASS_OF_ID = 0x5897069e

    def __init__(self, id: int, version: str, text: str, entities: List['TypeMessageEntity'], can_not_skip: Optional[bool]=None, document: Optional['TypeDocument']=None, url: Optional[str]=None, sticker: Optional['TypeDocument']=None):
        """
        Constructor for help.AppUpdate: Instance of either AppUpdate, NoAppUpdate.
        """
        self.id = id
        self.version = version
        self.text = text
        self.entities = entities
        self.can_not_skip = can_not_skip
        self.document = document
        self.url = url
        self.sticker = sticker

    def to_dict(self):
        return {
            '_': 'AppUpdate',
            'id': self.id,
            'version': self.version,
            'text': self.text,
            'entities': [] if self.entities is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.entities],
            'can_not_skip': self.can_not_skip,
            'document': self.document.to_dict() if isinstance(self.document, TLObject) else self.document,
            'url': self.url,
            'sticker': self.sticker.to_dict() if isinstance(self.sticker, TLObject) else self.sticker
        }

    def _bytes(self):
        return b''.join((
            b'0\xce\xbb\xcc',
            struct.pack('<I', (0 if self.can_not_skip is None or self.can_not_skip is False else 1) | (0 if self.document is None or self.document is False else 2) | (0 if self.url is None or self.url is False else 4) | (0 if self.sticker is None or self.sticker is False else 8)),
            struct.pack('<i', self.id),
            self.serialize_bytes(self.version),
            self.serialize_bytes(self.text),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.entities)),b''.join(x._bytes() for x in self.entities),
            b'' if self.document is None or self.document is False else (self.document._bytes()),
            b'' if self.url is None or self.url is False else (self.serialize_bytes(self.url)),
            b'' if self.sticker is None or self.sticker is False else (self.sticker._bytes()),
        ))

    @classmethod
    def from_reader(cls, reader):
        flags = reader.read_int()

        _can_not_skip = bool(flags & 1)
        _id = reader.read_int()
        _version = reader.tgread_string()
        _text = reader.tgread_string()
        reader.read_int()
        _entities = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _entities.append(_x)

        if flags & 2:
            _document = reader.tgread_object()
        else:
            _document = None
        if flags & 4:
            _url = reader.tgread_string()
        else:
            _url = None
        if flags & 8:
            _sticker = reader.tgread_object()
        else:
            _sticker = None
        return cls(id=_id, version=_version, text=_text, entities=_entities, can_not_skip=_can_not_skip, document=_document, url=_url, sticker=_sticker)


class ConfigSimple(TLObject):
    CONSTRUCTOR_ID = 0x5a592a6c
    SUBCLASS_OF_ID = 0x29183ac4

    def __init__(self, date: Optional[datetime], expires: Optional[datetime], rules: List['TypeAccessPointRule']):
        """
        Constructor for help.ConfigSimple: Instance of ConfigSimple.
        """
        self.date = date
        self.expires = expires
        self.rules = rules

    def to_dict(self):
        return {
            '_': 'ConfigSimple',
            'date': self.date,
            'expires': self.expires,
            'rules': [] if self.rules is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.rules]
        }

    def _bytes(self):
        return b''.join((
            b'l*YZ',
            self.serialize_datetime(self.date),
            self.serialize_datetime(self.expires),
            struct.pack('<i', len(self.rules)),b''.join(x._bytes() for x in self.rules),
        ))

    @classmethod
    def from_reader(cls, reader):
        _date = reader.tgread_date()
        _expires = reader.tgread_date()
        _rules = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _rules.append(_x)

        return cls(date=_date, expires=_expires, rules=_rules)


class CountriesList(TLObject):
    CONSTRUCTOR_ID = 0x87d0759e
    SUBCLASS_OF_ID = 0xea31fe88

    def __init__(self, countries: List['TypeCountry'], hash: int):
        """
        Constructor for help.CountriesList: Instance of either CountriesListNotModified, CountriesList.
        """
        self.countries = countries
        self.hash = hash

    def to_dict(self):
        return {
            '_': 'CountriesList',
            'countries': [] if self.countries is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.countries],
            'hash': self.hash
        }

    def _bytes(self):
        return b''.join((
            b'\x9eu\xd0\x87',
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.countries)),b''.join(x._bytes() for x in self.countries),
            struct.pack('<i', self.hash),
        ))

    @classmethod
    def from_reader(cls, reader):
        reader.read_int()
        _countries = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _countries.append(_x)

        _hash = reader.read_int()
        return cls(countries=_countries, hash=_hash)


class CountriesListNotModified(TLObject):
    CONSTRUCTOR_ID = 0x93cc1f32
    SUBCLASS_OF_ID = 0xea31fe88

    def to_dict(self):
        return {
            '_': 'CountriesListNotModified'
        }

    def _bytes(self):
        return b''.join((
            b'2\x1f\xcc\x93',
        ))

    @classmethod
    def from_reader(cls, reader):
        return cls()


class Country(TLObject):
    CONSTRUCTOR_ID = 0xc3878e23
    SUBCLASS_OF_ID = 0xa22e9e28

    def __init__(self, iso2: str, default_name: str, country_codes: List['TypeCountryCode'], hidden: Optional[bool]=None, name: Optional[str]=None):
        """
        Constructor for help.Country: Instance of Country.
        """
        self.iso2 = iso2
        self.default_name = default_name
        self.country_codes = country_codes
        self.hidden = hidden
        self.name = name

    def to_dict(self):
        return {
            '_': 'Country',
            'iso2': self.iso2,
            'default_name': self.default_name,
            'country_codes': [] if self.country_codes is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.country_codes],
            'hidden': self.hidden,
            'name': self.name
        }

    def _bytes(self):
        return b''.join((
            b'#\x8e\x87\xc3',
            struct.pack('<I', (0 if self.hidden is None or self.hidden is False else 1) | (0 if self.name is None or self.name is False else 2)),
            self.serialize_bytes(self.iso2),
            self.serialize_bytes(self.default_name),
            b'' if self.name is None or self.name is False else (self.serialize_bytes(self.name)),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.country_codes)),b''.join(x._bytes() for x in self.country_codes),
        ))

    @classmethod
    def from_reader(cls, reader):
        flags = reader.read_int()

        _hidden = bool(flags & 1)
        _iso2 = reader.tgread_string()
        _default_name = reader.tgread_string()
        if flags & 2:
            _name = reader.tgread_string()
        else:
            _name = None
        reader.read_int()
        _country_codes = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _country_codes.append(_x)

        return cls(iso2=_iso2, default_name=_default_name, country_codes=_country_codes, hidden=_hidden, name=_name)


class CountryCode(TLObject):
    CONSTRUCTOR_ID = 0x4203c5ef
    SUBCLASS_OF_ID = 0x76f34665

    def __init__(self, country_code: str, prefixes: Optional[List[str]]=None, patterns: Optional[List[str]]=None):
        """
        Constructor for help.CountryCode: Instance of CountryCode.
        """
        self.country_code = country_code
        self.prefixes = prefixes
        self.patterns = patterns

    def to_dict(self):
        return {
            '_': 'CountryCode',
            'country_code': self.country_code,
            'prefixes': [] if self.prefixes is None else self.prefixes[:],
            'patterns': [] if self.patterns is None else self.patterns[:]
        }

    def _bytes(self):
        return b''.join((
            b'\xef\xc5\x03B',
            struct.pack('<I', (0 if self.prefixes is None or self.prefixes is False else 1) | (0 if self.patterns is None or self.patterns is False else 2)),
            self.serialize_bytes(self.country_code),
            b'' if self.prefixes is None or self.prefixes is False else b''.join((b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.prefixes)),b''.join(self.serialize_bytes(x) for x in self.prefixes))),
            b'' if self.patterns is None or self.patterns is False else b''.join((b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.patterns)),b''.join(self.serialize_bytes(x) for x in self.patterns))),
        ))

    @classmethod
    def from_reader(cls, reader):
        flags = reader.read_int()

        _country_code = reader.tgread_string()
        if flags & 1:
            reader.read_int()
            _prefixes = []
            for _ in range(reader.read_int()):
                _x = reader.tgread_string()
                _prefixes.append(_x)

        else:
            _prefixes = None
        if flags & 2:
            reader.read_int()
            _patterns = []
            for _ in range(reader.read_int()):
                _x = reader.tgread_string()
                _patterns.append(_x)

        else:
            _patterns = None
        return cls(country_code=_country_code, prefixes=_prefixes, patterns=_patterns)


class DeepLinkInfo(TLObject):
    CONSTRUCTOR_ID = 0x6a4ee832
    SUBCLASS_OF_ID = 0x984aac38

    def __init__(self, message: str, update_app: Optional[bool]=None, entities: Optional[List['TypeMessageEntity']]=None):
        """
        Constructor for help.DeepLinkInfo: Instance of either DeepLinkInfoEmpty, DeepLinkInfo.
        """
        self.message = message
        self.update_app = update_app
        self.entities = entities

    def to_dict(self):
        return {
            '_': 'DeepLinkInfo',
            'message': self.message,
            'update_app': self.update_app,
            'entities': [] if self.entities is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.entities]
        }

    def _bytes(self):
        return b''.join((
            b'2\xe8Nj',
            struct.pack('<I', (0 if self.update_app is None or self.update_app is False else 1) | (0 if self.entities is None or self.entities is False else 2)),
            self.serialize_bytes(self.message),
            b'' if self.entities is None or self.entities is False else b''.join((b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.entities)),b''.join(x._bytes() for x in self.entities))),
        ))

    @classmethod
    def from_reader(cls, reader):
        flags = reader.read_int()

        _update_app = bool(flags & 1)
        _message = reader.tgread_string()
        if flags & 2:
            reader.read_int()
            _entities = []
            for _ in range(reader.read_int()):
                _x = reader.tgread_object()
                _entities.append(_x)

        else:
            _entities = None
        return cls(message=_message, update_app=_update_app, entities=_entities)


class DeepLinkInfoEmpty(TLObject):
    CONSTRUCTOR_ID = 0x66afa166
    SUBCLASS_OF_ID = 0x984aac38

    def to_dict(self):
        return {
            '_': 'DeepLinkInfoEmpty'
        }

    def _bytes(self):
        return b''.join((
            b'f\xa1\xaff',
        ))

    @classmethod
    def from_reader(cls, reader):
        return cls()


class InviteText(TLObject):
    CONSTRUCTOR_ID = 0x18cb9f78
    SUBCLASS_OF_ID = 0xcf70aa35

    def __init__(self, message: str):
        """
        Constructor for help.InviteText: Instance of InviteText.
        """
        self.message = message

    def to_dict(self):
        return {
            '_': 'InviteText',
            'message': self.message
        }

    def _bytes(self):
        return b''.join((
            b'x\x9f\xcb\x18',
            self.serialize_bytes(self.message),
        ))

    @classmethod
    def from_reader(cls, reader):
        _message = reader.tgread_string()
        return cls(message=_message)


class NoAppUpdate(TLObject):
    CONSTRUCTOR_ID = 0xc45a6536
    SUBCLASS_OF_ID = 0x5897069e

    def to_dict(self):
        return {
            '_': 'NoAppUpdate'
        }

    def _bytes(self):
        return b''.join((
            b'6eZ\xc4',
        ))

    @classmethod
    def from_reader(cls, reader):
        return cls()


class PassportConfig(TLObject):
    CONSTRUCTOR_ID = 0xa098d6af
    SUBCLASS_OF_ID = 0xc666c0ad

    def __init__(self, hash: int, countries_langs: 'TypeDataJSON'):
        """
        Constructor for help.PassportConfig: Instance of either PassportConfigNotModified, PassportConfig.
        """
        self.hash = hash
        self.countries_langs = countries_langs

    def to_dict(self):
        return {
            '_': 'PassportConfig',
            'hash': self.hash,
            'countries_langs': self.countries_langs.to_dict() if isinstance(self.countries_langs, TLObject) else self.countries_langs
        }

    def _bytes(self):
        return b''.join((
            b'\xaf\xd6\x98\xa0',
            struct.pack('<i', self.hash),
            self.countries_langs._bytes(),
        ))

    @classmethod
    def from_reader(cls, reader):
        _hash = reader.read_int()
        _countries_langs = reader.tgread_object()
        return cls(hash=_hash, countries_langs=_countries_langs)


class PassportConfigNotModified(TLObject):
    CONSTRUCTOR_ID = 0xbfb9f457
    SUBCLASS_OF_ID = 0xc666c0ad

    def to_dict(self):
        return {
            '_': 'PassportConfigNotModified'
        }

    def _bytes(self):
        return b''.join((
            b'W\xf4\xb9\xbf',
        ))

    @classmethod
    def from_reader(cls, reader):
        return cls()


class PeerColorOption(TLObject):
    CONSTRUCTOR_ID = 0xadec6ebe
    SUBCLASS_OF_ID = 0x56b8ae98

    def __init__(self, color_id: int, hidden: Optional[bool]=None, colors: Optional['TypePeerColorSet']=None, dark_colors: Optional['TypePeerColorSet']=None, channel_min_level: Optional[int]=None, group_min_level: Optional[int]=None):
        """
        Constructor for help.PeerColorOption: Instance of PeerColorOption.
        """
        self.color_id = color_id
        self.hidden = hidden
        self.colors = colors
        self.dark_colors = dark_colors
        self.channel_min_level = channel_min_level
        self.group_min_level = group_min_level

    def to_dict(self):
        return {
            '_': 'PeerColorOption',
            'color_id': self.color_id,
            'hidden': self.hidden,
            'colors': self.colors.to_dict() if isinstance(self.colors, TLObject) else self.colors,
            'dark_colors': self.dark_colors.to_dict() if isinstance(self.dark_colors, TLObject) else self.dark_colors,
            'channel_min_level': self.channel_min_level,
            'group_min_level': self.group_min_level
        }

    def _bytes(self):
        return b''.join((
            b'\xben\xec\xad',
            struct.pack('<I', (0 if self.hidden is None or self.hidden is False else 1) | (0 if self.colors is None or self.colors is False else 2) | (0 if self.dark_colors is None or self.dark_colors is False else 4) | (0 if self.channel_min_level is None or self.channel_min_level is False else 8) | (0 if self.group_min_level is None or self.group_min_level is False else 16)),
            struct.pack('<i', self.color_id),
            b'' if self.colors is None or self.colors is False else (self.colors._bytes()),
            b'' if self.dark_colors is None or self.dark_colors is False else (self.dark_colors._bytes()),
            b'' if self.channel_min_level is None or self.channel_min_level is False else (struct.pack('<i', self.channel_min_level)),
            b'' if self.group_min_level is None or self.group_min_level is False else (struct.pack('<i', self.group_min_level)),
        ))

    @classmethod
    def from_reader(cls, reader):
        flags = reader.read_int()

        _hidden = bool(flags & 1)
        _color_id = reader.read_int()
        if flags & 2:
            _colors = reader.tgread_object()
        else:
            _colors = None
        if flags & 4:
            _dark_colors = reader.tgread_object()
        else:
            _dark_colors = None
        if flags & 8:
            _channel_min_level = reader.read_int()
        else:
            _channel_min_level = None
        if flags & 16:
            _group_min_level = reader.read_int()
        else:
            _group_min_level = None
        return cls(color_id=_color_id, hidden=_hidden, colors=_colors, dark_colors=_dark_colors, channel_min_level=_channel_min_level, group_min_level=_group_min_level)


class PeerColorProfileSet(TLObject):
    CONSTRUCTOR_ID = 0x767d61eb
    SUBCLASS_OF_ID = 0x11cbe12c

    def __init__(self, palette_colors: List[int], bg_colors: List[int], story_colors: List[int]):
        """
        Constructor for help.PeerColorSet: Instance of either PeerColorSet, PeerColorProfileSet.
        """
        self.palette_colors = palette_colors
        self.bg_colors = bg_colors
        self.story_colors = story_colors

    def to_dict(self):
        return {
            '_': 'PeerColorProfileSet',
            'palette_colors': [] if self.palette_colors is None else self.palette_colors[:],
            'bg_colors': [] if self.bg_colors is None else self.bg_colors[:],
            'story_colors': [] if self.story_colors is None else self.story_colors[:]
        }

    def _bytes(self):
        return b''.join((
            b'\xeba}v',
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.palette_colors)),b''.join(struct.pack('<i', x) for x in self.palette_colors),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.bg_colors)),b''.join(struct.pack('<i', x) for x in self.bg_colors),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.story_colors)),b''.join(struct.pack('<i', x) for x in self.story_colors),
        ))

    @classmethod
    def from_reader(cls, reader):
        reader.read_int()
        _palette_colors = []
        for _ in range(reader.read_int()):
            _x = reader.read_int()
            _palette_colors.append(_x)

        reader.read_int()
        _bg_colors = []
        for _ in range(reader.read_int()):
            _x = reader.read_int()
            _bg_colors.append(_x)

        reader.read_int()
        _story_colors = []
        for _ in range(reader.read_int()):
            _x = reader.read_int()
            _story_colors.append(_x)

        return cls(palette_colors=_palette_colors, bg_colors=_bg_colors, story_colors=_story_colors)


class PeerColorSet(TLObject):
    CONSTRUCTOR_ID = 0x26219a58
    SUBCLASS_OF_ID = 0x11cbe12c

    def __init__(self, colors: List[int]):
        """
        Constructor for help.PeerColorSet: Instance of either PeerColorSet, PeerColorProfileSet.
        """
        self.colors = colors

    def to_dict(self):
        return {
            '_': 'PeerColorSet',
            'colors': [] if self.colors is None else self.colors[:]
        }

    def _bytes(self):
        return b''.join((
            b'X\x9a!&',
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.colors)),b''.join(struct.pack('<i', x) for x in self.colors),
        ))

    @classmethod
    def from_reader(cls, reader):
        reader.read_int()
        _colors = []
        for _ in range(reader.read_int()):
            _x = reader.read_int()
            _colors.append(_x)

        return cls(colors=_colors)


class PeerColors(TLObject):
    CONSTRUCTOR_ID = 0xf8ed08
    SUBCLASS_OF_ID = 0xe3f6733

    def __init__(self, hash: int, colors: List['TypePeerColorOption']):
        """
        Constructor for help.PeerColors: Instance of either PeerColorsNotModified, PeerColors.
        """
        self.hash = hash
        self.colors = colors

    def to_dict(self):
        return {
            '_': 'PeerColors',
            'hash': self.hash,
            'colors': [] if self.colors is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.colors]
        }

    def _bytes(self):
        return b''.join((
            b'\x08\xed\xf8\x00',
            struct.pack('<i', self.hash),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.colors)),b''.join(x._bytes() for x in self.colors),
        ))

    @classmethod
    def from_reader(cls, reader):
        _hash = reader.read_int()
        reader.read_int()
        _colors = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _colors.append(_x)

        return cls(hash=_hash, colors=_colors)


class PeerColorsNotModified(TLObject):
    CONSTRUCTOR_ID = 0x2ba1f5ce
    SUBCLASS_OF_ID = 0xe3f6733

    def to_dict(self):
        return {
            '_': 'PeerColorsNotModified'
        }

    def _bytes(self):
        return b''.join((
            b'\xce\xf5\xa1+',
        ))

    @classmethod
    def from_reader(cls, reader):
        return cls()


class PremiumPromo(TLObject):
    CONSTRUCTOR_ID = 0x5334759c
    SUBCLASS_OF_ID = 0xc987a338

    def __init__(self, status_text: str, status_entities: List['TypeMessageEntity'], video_sections: List[str], videos: List['TypeDocument'], period_options: List['TypePremiumSubscriptionOption'], users: List['TypeUser']):
        """
        Constructor for help.PremiumPromo: Instance of PremiumPromo.
        """
        self.status_text = status_text
        self.status_entities = status_entities
        self.video_sections = video_sections
        self.videos = videos
        self.period_options = period_options
        self.users = users

    def to_dict(self):
        return {
            '_': 'PremiumPromo',
            'status_text': self.status_text,
            'status_entities': [] if self.status_entities is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.status_entities],
            'video_sections': [] if self.video_sections is None else self.video_sections[:],
            'videos': [] if self.videos is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.videos],
            'period_options': [] if self.period_options is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.period_options],
            'users': [] if self.users is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.users]
        }

    def _bytes(self):
        return b''.join((
            b'\x9cu4S',
            self.serialize_bytes(self.status_text),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.status_entities)),b''.join(x._bytes() for x in self.status_entities),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.video_sections)),b''.join(self.serialize_bytes(x) for x in self.video_sections),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.videos)),b''.join(x._bytes() for x in self.videos),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.period_options)),b''.join(x._bytes() for x in self.period_options),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.users)),b''.join(x._bytes() for x in self.users),
        ))

    @classmethod
    def from_reader(cls, reader):
        _status_text = reader.tgread_string()
        reader.read_int()
        _status_entities = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _status_entities.append(_x)

        reader.read_int()
        _video_sections = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_string()
            _video_sections.append(_x)

        reader.read_int()
        _videos = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _videos.append(_x)

        reader.read_int()
        _period_options = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _period_options.append(_x)

        reader.read_int()
        _users = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _users.append(_x)

        return cls(status_text=_status_text, status_entities=_status_entities, video_sections=_video_sections, videos=_videos, period_options=_period_options, users=_users)


class PromoData(TLObject):
    CONSTRUCTOR_ID = 0x8a4d87a
    SUBCLASS_OF_ID = 0x9d595542

    def __init__(self, expires: Optional[datetime], pending_suggestions: List[str], dismissed_suggestions: List[str], chats: List['TypeChat'], users: List['TypeUser'], proxy: Optional[bool]=None, peer: Optional['TypePeer']=None, psa_type: Optional[str]=None, psa_message: Optional[str]=None, custom_pending_suggestion: Optional['TypePendingSuggestion']=None):
        """
        Constructor for help.PromoData: Instance of either PromoDataEmpty, PromoData.
        """
        self.expires = expires
        self.pending_suggestions = pending_suggestions
        self.dismissed_suggestions = dismissed_suggestions
        self.chats = chats
        self.users = users
        self.proxy = proxy
        self.peer = peer
        self.psa_type = psa_type
        self.psa_message = psa_message
        self.custom_pending_suggestion = custom_pending_suggestion

    def to_dict(self):
        return {
            '_': 'PromoData',
            'expires': self.expires,
            'pending_suggestions': [] if self.pending_suggestions is None else self.pending_suggestions[:],
            'dismissed_suggestions': [] if self.dismissed_suggestions is None else self.dismissed_suggestions[:],
            'chats': [] if self.chats is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.chats],
            'users': [] if self.users is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.users],
            'proxy': self.proxy,
            'peer': self.peer.to_dict() if isinstance(self.peer, TLObject) else self.peer,
            'psa_type': self.psa_type,
            'psa_message': self.psa_message,
            'custom_pending_suggestion': self.custom_pending_suggestion.to_dict() if isinstance(self.custom_pending_suggestion, TLObject) else self.custom_pending_suggestion
        }

    def _bytes(self):
        return b''.join((
            b'z\xd8\xa4\x08',
            struct.pack('<I', (0 if self.proxy is None or self.proxy is False else 1) | (0 if self.peer is None or self.peer is False else 8) | (0 if self.psa_type is None or self.psa_type is False else 2) | (0 if self.psa_message is None or self.psa_message is False else 4) | (0 if self.custom_pending_suggestion is None or self.custom_pending_suggestion is False else 16)),
            self.serialize_datetime(self.expires),
            b'' if self.peer is None or self.peer is False else (self.peer._bytes()),
            b'' if self.psa_type is None or self.psa_type is False else (self.serialize_bytes(self.psa_type)),
            b'' if self.psa_message is None or self.psa_message is False else (self.serialize_bytes(self.psa_message)),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.pending_suggestions)),b''.join(self.serialize_bytes(x) for x in self.pending_suggestions),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.dismissed_suggestions)),b''.join(self.serialize_bytes(x) for x in self.dismissed_suggestions),
            b'' if self.custom_pending_suggestion is None or self.custom_pending_suggestion is False else (self.custom_pending_suggestion._bytes()),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.chats)),b''.join(x._bytes() for x in self.chats),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.users)),b''.join(x._bytes() for x in self.users),
        ))

    @classmethod
    def from_reader(cls, reader):
        flags = reader.read_int()

        _proxy = bool(flags & 1)
        _expires = reader.tgread_date()
        if flags & 8:
            _peer = reader.tgread_object()
        else:
            _peer = None
        if flags & 2:
            _psa_type = reader.tgread_string()
        else:
            _psa_type = None
        if flags & 4:
            _psa_message = reader.tgread_string()
        else:
            _psa_message = None
        reader.read_int()
        _pending_suggestions = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_string()
            _pending_suggestions.append(_x)

        reader.read_int()
        _dismissed_suggestions = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_string()
            _dismissed_suggestions.append(_x)

        if flags & 16:
            _custom_pending_suggestion = reader.tgread_object()
        else:
            _custom_pending_suggestion = None
        reader.read_int()
        _chats = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _chats.append(_x)

        reader.read_int()
        _users = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _users.append(_x)

        return cls(expires=_expires, pending_suggestions=_pending_suggestions, dismissed_suggestions=_dismissed_suggestions, chats=_chats, users=_users, proxy=_proxy, peer=_peer, psa_type=_psa_type, psa_message=_psa_message, custom_pending_suggestion=_custom_pending_suggestion)


class PromoDataEmpty(TLObject):
    CONSTRUCTOR_ID = 0x98f6ac75
    SUBCLASS_OF_ID = 0x9d595542

    def __init__(self, expires: Optional[datetime]):
        """
        Constructor for help.PromoData: Instance of either PromoDataEmpty, PromoData.
        """
        self.expires = expires

    def to_dict(self):
        return {
            '_': 'PromoDataEmpty',
            'expires': self.expires
        }

    def _bytes(self):
        return b''.join((
            b'u\xac\xf6\x98',
            self.serialize_datetime(self.expires),
        ))

    @classmethod
    def from_reader(cls, reader):
        _expires = reader.tgread_date()
        return cls(expires=_expires)


class RecentMeUrls(TLObject):
    CONSTRUCTOR_ID = 0xe0310d7
    SUBCLASS_OF_ID = 0xf269c477

    def __init__(self, urls: List['TypeRecentMeUrl'], chats: List['TypeChat'], users: List['TypeUser']):
        """
        Constructor for help.RecentMeUrls: Instance of RecentMeUrls.
        """
        self.urls = urls
        self.chats = chats
        self.users = users

    def to_dict(self):
        return {
            '_': 'RecentMeUrls',
            'urls': [] if self.urls is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.urls],
            'chats': [] if self.chats is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.chats],
            'users': [] if self.users is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.users]
        }

    def _bytes(self):
        return b''.join((
            b'\xd7\x10\x03\x0e',
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.urls)),b''.join(x._bytes() for x in self.urls),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.chats)),b''.join(x._bytes() for x in self.chats),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.users)),b''.join(x._bytes() for x in self.users),
        ))

    @classmethod
    def from_reader(cls, reader):
        reader.read_int()
        _urls = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _urls.append(_x)

        reader.read_int()
        _chats = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _chats.append(_x)

        reader.read_int()
        _users = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _users.append(_x)

        return cls(urls=_urls, chats=_chats, users=_users)


class Support(TLObject):
    CONSTRUCTOR_ID = 0x17c6b5f6
    SUBCLASS_OF_ID = 0x7159bceb

    def __init__(self, phone_number: str, user: 'TypeUser'):
        """
        Constructor for help.Support: Instance of Support.
        """
        self.phone_number = phone_number
        self.user = user

    def to_dict(self):
        return {
            '_': 'Support',
            'phone_number': self.phone_number,
            'user': self.user.to_dict() if isinstance(self.user, TLObject) else self.user
        }

    def _bytes(self):
        return b''.join((
            b'\xf6\xb5\xc6\x17',
            self.serialize_bytes(self.phone_number),
            self.user._bytes(),
        ))

    @classmethod
    def from_reader(cls, reader):
        _phone_number = reader.tgread_string()
        _user = reader.tgread_object()
        return cls(phone_number=_phone_number, user=_user)


class SupportName(TLObject):
    CONSTRUCTOR_ID = 0x8c05f1c9
    SUBCLASS_OF_ID = 0x7f50b7c2

    def __init__(self, name: str):
        """
        Constructor for help.SupportName: Instance of SupportName.
        """
        self.name = name

    def to_dict(self):
        return {
            '_': 'SupportName',
            'name': self.name
        }

    def _bytes(self):
        return b''.join((
            b'\xc9\xf1\x05\x8c',
            self.serialize_bytes(self.name),
        ))

    @classmethod
    def from_reader(cls, reader):
        _name = reader.tgread_string()
        return cls(name=_name)


class TermsOfService(TLObject):
    CONSTRUCTOR_ID = 0x780a0310
    SUBCLASS_OF_ID = 0x20ee8312

    def __init__(self, id: 'TypeDataJSON', text: str, entities: List['TypeMessageEntity'], popup: Optional[bool]=None, min_age_confirm: Optional[int]=None):
        """
        Constructor for help.TermsOfService: Instance of TermsOfService.
        """
        self.id = id
        self.text = text
        self.entities = entities
        self.popup = popup
        self.min_age_confirm = min_age_confirm

    def to_dict(self):
        return {
            '_': 'TermsOfService',
            'id': self.id.to_dict() if isinstance(self.id, TLObject) else self.id,
            'text': self.text,
            'entities': [] if self.entities is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.entities],
            'popup': self.popup,
            'min_age_confirm': self.min_age_confirm
        }

    def _bytes(self):
        return b''.join((
            b'\x10\x03\nx',
            struct.pack('<I', (0 if self.popup is None or self.popup is False else 1) | (0 if self.min_age_confirm is None or self.min_age_confirm is False else 2)),
            self.id._bytes(),
            self.serialize_bytes(self.text),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.entities)),b''.join(x._bytes() for x in self.entities),
            b'' if self.min_age_confirm is None or self.min_age_confirm is False else (struct.pack('<i', self.min_age_confirm)),
        ))

    @classmethod
    def from_reader(cls, reader):
        flags = reader.read_int()

        _popup = bool(flags & 1)
        _id = reader.tgread_object()
        _text = reader.tgread_string()
        reader.read_int()
        _entities = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _entities.append(_x)

        if flags & 2:
            _min_age_confirm = reader.read_int()
        else:
            _min_age_confirm = None
        return cls(id=_id, text=_text, entities=_entities, popup=_popup, min_age_confirm=_min_age_confirm)


class TermsOfServiceUpdate(TLObject):
    CONSTRUCTOR_ID = 0x28ecf961
    SUBCLASS_OF_ID = 0x293c2977

    def __init__(self, expires: Optional[datetime], terms_of_service: 'TypeTermsOfService'):
        """
        Constructor for help.TermsOfServiceUpdate: Instance of either TermsOfServiceUpdateEmpty, TermsOfServiceUpdate.
        """
        self.expires = expires
        self.terms_of_service = terms_of_service

    def to_dict(self):
        return {
            '_': 'TermsOfServiceUpdate',
            'expires': self.expires,
            'terms_of_service': self.terms_of_service.to_dict() if isinstance(self.terms_of_service, TLObject) else self.terms_of_service
        }

    def _bytes(self):
        return b''.join((
            b'a\xf9\xec(',
            self.serialize_datetime(self.expires),
            self.terms_of_service._bytes(),
        ))

    @classmethod
    def from_reader(cls, reader):
        _expires = reader.tgread_date()
        _terms_of_service = reader.tgread_object()
        return cls(expires=_expires, terms_of_service=_terms_of_service)


class TermsOfServiceUpdateEmpty(TLObject):
    CONSTRUCTOR_ID = 0xe3309f7f
    SUBCLASS_OF_ID = 0x293c2977

    def __init__(self, expires: Optional[datetime]):
        """
        Constructor for help.TermsOfServiceUpdate: Instance of either TermsOfServiceUpdateEmpty, TermsOfServiceUpdate.
        """
        self.expires = expires

    def to_dict(self):
        return {
            '_': 'TermsOfServiceUpdateEmpty',
            'expires': self.expires
        }

    def _bytes(self):
        return b''.join((
            b'\x7f\x9f0\xe3',
            self.serialize_datetime(self.expires),
        ))

    @classmethod
    def from_reader(cls, reader):
        _expires = reader.tgread_date()
        return cls(expires=_expires)


class TimezonesList(TLObject):
    CONSTRUCTOR_ID = 0x7b74ed71
    SUBCLASS_OF_ID = 0xca76e475

    def __init__(self, timezones: List['TypeTimezone'], hash: int):
        """
        Constructor for help.TimezonesList: Instance of either TimezonesListNotModified, TimezonesList.
        """
        self.timezones = timezones
        self.hash = hash

    def to_dict(self):
        return {
            '_': 'TimezonesList',
            'timezones': [] if self.timezones is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.timezones],
            'hash': self.hash
        }

    def _bytes(self):
        return b''.join((
            b'q\xedt{',
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.timezones)),b''.join(x._bytes() for x in self.timezones),
            struct.pack('<i', self.hash),
        ))

    @classmethod
    def from_reader(cls, reader):
        reader.read_int()
        _timezones = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _timezones.append(_x)

        _hash = reader.read_int()
        return cls(timezones=_timezones, hash=_hash)


class TimezonesListNotModified(TLObject):
    CONSTRUCTOR_ID = 0x970708cc
    SUBCLASS_OF_ID = 0xca76e475

    def to_dict(self):
        return {
            '_': 'TimezonesListNotModified'
        }

    def _bytes(self):
        return b''.join((
            b'\xcc\x08\x07\x97',
        ))

    @classmethod
    def from_reader(cls, reader):
        return cls()


class UserInfo(TLObject):
    CONSTRUCTOR_ID = 0x1eb3758
    SUBCLASS_OF_ID = 0x5c53d7d8

    def __init__(self, message: str, entities: List['TypeMessageEntity'], author: str, date: Optional[datetime]):
        """
        Constructor for help.UserInfo: Instance of either UserInfoEmpty, UserInfo.
        """
        self.message = message
        self.entities = entities
        self.author = author
        self.date = date

    def to_dict(self):
        return {
            '_': 'UserInfo',
            'message': self.message,
            'entities': [] if self.entities is None else [x.to_dict() if isinstance(x, TLObject) else x for x in self.entities],
            'author': self.author,
            'date': self.date
        }

    def _bytes(self):
        return b''.join((
            b'X7\xeb\x01',
            self.serialize_bytes(self.message),
            b'\x15\xc4\xb5\x1c',struct.pack('<i', len(self.entities)),b''.join(x._bytes() for x in self.entities),
            self.serialize_bytes(self.author),
            self.serialize_datetime(self.date),
        ))

    @classmethod
    def from_reader(cls, reader):
        _message = reader.tgread_string()
        reader.read_int()
        _entities = []
        for _ in range(reader.read_int()):
            _x = reader.tgread_object()
            _entities.append(_x)

        _author = reader.tgread_string()
        _date = reader.tgread_date()
        return cls(message=_message, entities=_entities, author=_author, date=_date)


class UserInfoEmpty(TLObject):
    CONSTRUCTOR_ID = 0xf3ae2eed
    SUBCLASS_OF_ID = 0x5c53d7d8

    def to_dict(self):
        return {
            '_': 'UserInfoEmpty'
        }

    def _bytes(self):
        return b''.join((
            b'\xed.\xae\xf3',
        ))

    @classmethod
    def from_reader(cls, reader):
        return cls()