python-telegram-bot/tests/test_stars.py

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#!/usr/bin/env python
#
# A library that provides a Python interface to the Telegram Bot API
# Copyright (C) 2015-2024
# Leandro Toledo de Souza <devs@python-telegram-bot.org>
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Lesser Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Lesser Public License for more details.
#
# You should have received a copy of the GNU Lesser Public License
# along with this program. If not, see [http://www.gnu.org/licenses/].
import datetime
from copy import deepcopy
import pytest
from telegram import (
Dice,
RevenueWithdrawalState,
RevenueWithdrawalStateFailed,
RevenueWithdrawalStatePending,
RevenueWithdrawalStateSucceeded,
StarTransaction,
StarTransactions,
TransactionPartner,
TransactionPartnerFragment,
TransactionPartnerOther,
TransactionPartnerUser,
User,
)
from telegram._utils.datetime import UTC, from_timestamp, to_timestamp
from telegram.constants import RevenueWithdrawalStateType, TransactionPartnerType
from tests.auxil.slots import mro_slots
def withdrawal_state_succeeded():
return RevenueWithdrawalStateSucceeded(
date=datetime.datetime(2024, 1, 1, 0, 0, 0, 0, tzinfo=UTC),
url="url",
)
@pytest.fixture()
def withdrawal_state_failed():
return RevenueWithdrawalStateFailed()
@pytest.fixture()
def withdrawal_state_pending():
return RevenueWithdrawalStatePending()
def transaction_partner_user():
return TransactionPartnerUser(
user=User(id=1, is_bot=False, first_name="first_name", username="username"),
)
@pytest.fixture()
def transaction_partner_other():
return TransactionPartnerOther()
def transaction_partner_fragment():
return TransactionPartnerFragment(
withdrawal_state=withdrawal_state_succeeded(),
)
def star_transaction():
return StarTransaction(
id="1",
amount=1,
date=to_timestamp(datetime.datetime(2024, 1, 1, 0, 0, 0, 0, tzinfo=UTC)),
source=transaction_partner_user(),
receiver=transaction_partner_fragment(),
)
@pytest.fixture()
def star_transactions():
return StarTransactions(
transactions=[
star_transaction(),
star_transaction(),
]
)
@pytest.fixture(
scope="module",
params=[
TransactionPartner.FRAGMENT,
TransactionPartner.OTHER,
TransactionPartner.USER,
],
)
def tp_scope_type(request):
return request.param
@pytest.fixture(
scope="module",
params=[
TransactionPartnerFragment,
TransactionPartnerOther,
TransactionPartnerUser,
],
ids=[
TransactionPartner.FRAGMENT,
TransactionPartner.OTHER,
TransactionPartner.USER,
],
)
def tp_scope_class(request):
return request.param
@pytest.fixture(
scope="module",
params=[
(TransactionPartnerFragment, TransactionPartner.FRAGMENT),
(TransactionPartnerOther, TransactionPartner.OTHER),
(TransactionPartnerUser, TransactionPartner.USER),
],
ids=[
TransactionPartner.FRAGMENT,
TransactionPartner.OTHER,
TransactionPartner.USER,
],
)
def tp_scope_class_and_type(request):
return request.param
@pytest.fixture(scope="module")
def transaction_partner(tp_scope_class_and_type):
# We use de_json here so that we don't have to worry about which class gets which arguments
return tp_scope_class_and_type[0].de_json(
{
"type": tp_scope_class_and_type[1],
"withdrawal_state": TestTransactionPartnerBase.withdrawal_state.to_dict(),
"user": TestTransactionPartnerBase.user.to_dict(),
},
bot=None,
)
@pytest.fixture(
scope="module",
params=[
RevenueWithdrawalState.FAILED,
RevenueWithdrawalState.SUCCEEDED,
RevenueWithdrawalState.PENDING,
],
)
def rws_scope_type(request):
return request.param
@pytest.fixture(
scope="module",
params=[
RevenueWithdrawalStateFailed,
RevenueWithdrawalStateSucceeded,
RevenueWithdrawalStatePending,
],
ids=[
RevenueWithdrawalState.FAILED,
RevenueWithdrawalState.SUCCEEDED,
RevenueWithdrawalState.PENDING,
],
)
def rws_scope_class(request):
return request.param
@pytest.fixture(
scope="module",
params=[
(RevenueWithdrawalStateFailed, RevenueWithdrawalState.FAILED),
(RevenueWithdrawalStateSucceeded, RevenueWithdrawalState.SUCCEEDED),
(RevenueWithdrawalStatePending, RevenueWithdrawalState.PENDING),
],
ids=[
RevenueWithdrawalState.FAILED,
RevenueWithdrawalState.SUCCEEDED,
RevenueWithdrawalState.PENDING,
],
)
def rws_scope_class_and_type(request):
return request.param
@pytest.fixture(scope="module")
def revenue_withdrawal_state(rws_scope_class_and_type):
# We use de_json here so that we don't have to worry about which class gets which arguments
return rws_scope_class_and_type[0].de_json(
{
"type": rws_scope_class_and_type[1],
"date": to_timestamp(TestRevenueWithdrawalStateBase.date),
"url": TestRevenueWithdrawalStateBase.url,
},
bot=None,
)
class TestStarTransactionBase:
id = "2"
amount = 2
date = to_timestamp(datetime.datetime(2024, 1, 1, 0, 0, 0, 0, tzinfo=UTC))
source = TransactionPartnerUser(
user=User(
id=2,
is_bot=False,
first_name="first_name",
),
)
receiver = TransactionPartnerOther()
class TestStarTransactionWithoutRequest(TestStarTransactionBase):
def test_slot_behaviour(self):
inst = star_transaction()
for attr in inst.__slots__:
assert getattr(inst, attr, "err") != "err", f"got extra slot '{attr}'"
assert len(mro_slots(inst)) == len(set(mro_slots(inst))), "duplicate slot"
def test_de_json(self, bot):
json_dict = {
"id": self.id,
"amount": self.amount,
"date": self.date,
"source": self.source.to_dict(),
"receiver": self.receiver.to_dict(),
}
st = StarTransaction.de_json(json_dict, bot)
st_none = StarTransaction.de_json(None, bot)
assert st.id == self.id
assert st.amount == self.amount
assert st.date == from_timestamp(self.date)
assert st.source == self.source
assert st.receiver == self.receiver
assert st_none is None
def test_de_json_star_transaction_localization(self, tz_bot, bot, raw_bot):
json_dict = star_transaction().to_dict()
st_raw = StarTransaction.de_json(json_dict, raw_bot)
st_bot = StarTransaction.de_json(json_dict, bot)
st_tz = StarTransaction.de_json(json_dict, tz_bot)
# comparing utcoffsets because comparing timezones is unpredicatable
st_offset = st_tz.date.utcoffset()
tz_bot_offset = tz_bot.defaults.tzinfo.utcoffset(st_tz.date.replace(tzinfo=None))
assert st_raw.date.tzinfo == UTC
assert st_bot.date.tzinfo == UTC
assert st_offset == tz_bot_offset
def test_to_dict(self):
st = star_transaction()
expected_dict = {
"id": "1",
"amount": 1,
"date": st.date,
"source": st.source.to_dict(),
"receiver": st.receiver.to_dict(),
}
assert st.to_dict() == expected_dict
def test_equality(self):
a = StarTransaction(
id=self.id,
amount=self.amount,
date=self.date,
source=self.source,
receiver=self.receiver,
)
b = StarTransaction(
id=self.id,
amount=self.amount,
date=None,
source=self.source,
receiver=self.receiver,
)
c = StarTransaction(
id="3",
amount=3,
date=to_timestamp(datetime.datetime.utcnow()),
source=TransactionPartnerUser(
user=User(
id=3,
is_bot=False,
first_name="first_name",
),
),
receiver=TransactionPartnerOther(),
)
assert a == b
assert hash(a) == hash(b)
assert a != c
assert hash(a) != hash(c)
class TestStarTransactionsBase:
transactions = [star_transaction(), star_transaction()]
class TestStarTransactionsWithoutRequest(TestStarTransactionsBase):
def test_slot_behaviour(self, star_transactions):
inst = star_transactions
for attr in inst.__slots__:
assert getattr(inst, attr, "err") != "err", f"got extra slot '{attr}'"
assert len(mro_slots(inst)) == len(set(mro_slots(inst))), "duplicate slot"
def test_de_json(self, bot):
json_dict = {
"transactions": [t.to_dict() for t in self.transactions],
}
st = StarTransactions.de_json(json_dict, bot)
st_none = StarTransactions.de_json(None, bot)
assert st.transactions == tuple(self.transactions)
assert st_none is None
def test_to_dict(self, star_transactions):
expected_dict = {
"transactions": [t.to_dict() for t in self.transactions],
}
assert star_transactions.to_dict() == expected_dict
def test_equality(self):
a = StarTransactions(
transactions=self.transactions,
)
b = StarTransactions(
transactions=self.transactions,
)
c = StarTransactions(
transactions=[star_transaction()],
)
assert a == b
assert hash(a) == hash(b)
assert a != c
assert hash(a) != hash(c)
class TestTransactionPartnerBase:
withdrawal_state = withdrawal_state_succeeded()
user = transaction_partner_user().user
class TestTransactionPartner(TestTransactionPartnerBase):
def test_slot_behaviour(self, transaction_partner):
inst = transaction_partner
for attr in inst.__slots__:
assert getattr(inst, attr, "err") != "err", f"got extra slot '{attr}'"
assert len(mro_slots(inst)) == len(set(mro_slots(inst))), "duplicate slot"
def test_de_json(self, bot, tp_scope_class_and_type):
cls = tp_scope_class_and_type[0]
type_ = tp_scope_class_and_type[1]
json_dict = {
"type": type_,
"withdrawal_state": self.withdrawal_state.to_dict(),
"user": self.user.to_dict(),
}
tp = TransactionPartner.de_json(json_dict, bot)
assert set(tp.api_kwargs.keys()) == {"user", "withdrawal_state"} - set(cls.__slots__)
assert isinstance(tp, TransactionPartner)
assert type(tp) is cls
assert tp.type == type_
if "withdrawal_state" in cls.__slots__:
assert tp.withdrawal_state == self.withdrawal_state
if "user" in cls.__slots__:
assert tp.user == self.user
assert cls.de_json(None, bot) is None
assert TransactionPartner.de_json({}, bot) is None
def test_de_json_invalid_type(self, bot):
json_dict = {
"type": "invalid",
"withdrawal_state": self.withdrawal_state.to_dict(),
"user": self.user.to_dict(),
}
tp = TransactionPartner.de_json(json_dict, bot)
assert tp.api_kwargs == {
"withdrawal_state": self.withdrawal_state.to_dict(),
"user": self.user.to_dict(),
}
assert type(tp) is TransactionPartner
assert tp.type == "invalid"
def test_de_json_subclass(self, tp_scope_class, bot):
"""This makes sure that e.g. TransactionPartnerUser(data) never returns a
TransactionPartnerFragment instance."""
json_dict = {
"type": "invalid",
"withdrawal_state": self.withdrawal_state.to_dict(),
"user": self.user.to_dict(),
}
assert type(tp_scope_class.de_json(json_dict, bot)) is tp_scope_class
def test_to_dict(self, transaction_partner):
tp_dict = transaction_partner.to_dict()
assert isinstance(tp_dict, dict)
assert tp_dict["type"] == transaction_partner.type
if hasattr(transaction_partner, "web_app"):
assert tp_dict["user"] == transaction_partner.user.to_dict()
if hasattr(transaction_partner, "withdrawal_state"):
assert tp_dict["withdrawal_state"] == transaction_partner.withdrawal_state.to_dict()
def test_type_enum_conversion(self):
assert type(TransactionPartner("other").type) is TransactionPartnerType
assert TransactionPartner("unknown").type == "unknown"
def test_equality(self, transaction_partner, bot):
a = TransactionPartner("base_type")
b = TransactionPartner("base_type")
c = transaction_partner
d = deepcopy(transaction_partner)
e = Dice(4, "emoji")
assert a == b
assert hash(a) == hash(b)
assert a != c
assert hash(a) != hash(c)
assert a != d
assert hash(a) != hash(d)
assert a != e
assert hash(a) != hash(e)
assert c == d
assert hash(c) == hash(d)
assert c != e
assert hash(c) != hash(e)
if hasattr(c, "user"):
json_dict = c.to_dict()
json_dict["user"] = User(2, "something", True).to_dict()
f = c.__class__.de_json(json_dict, bot)
assert c != f
assert hash(c) != hash(f)
class TestRevenueWithdrawalStateBase:
date = datetime.datetime(2024, 1, 1, 0, 0, 0, 0, tzinfo=UTC)
url = "url"
class TestRevenueWithdrawalState(TestRevenueWithdrawalStateBase):
def test_slot_behaviour(self, revenue_withdrawal_state):
inst = revenue_withdrawal_state
for attr in inst.__slots__:
assert getattr(inst, attr, "err") != "err", f"got extra slot '{attr}'"
assert len(mro_slots(inst)) == len(set(mro_slots(inst))), "duplicate slot"
def test_de_json(self, bot, rws_scope_class_and_type):
cls = rws_scope_class_and_type[0]
type_ = rws_scope_class_and_type[1]
json_dict = {
"type": type_,
"date": to_timestamp(self.date),
"url": self.url,
}
rws = RevenueWithdrawalState.de_json(json_dict, bot)
assert set(rws.api_kwargs.keys()) == {"date", "url"} - set(cls.__slots__)
assert isinstance(rws, RevenueWithdrawalState)
assert type(rws) is cls
assert rws.type == type_
if "date" in cls.__slots__:
assert rws.date == self.date
if "url" in cls.__slots__:
assert rws.url == self.url
assert cls.de_json(None, bot) is None
assert RevenueWithdrawalState.de_json({}, bot) is None
def test_de_json_invalid_type(self, bot):
json_dict = {
"type": "invalid",
"date": to_timestamp(self.date),
"url": self.url,
}
rws = RevenueWithdrawalState.de_json(json_dict, bot)
assert rws.api_kwargs == {
"date": to_timestamp(self.date),
"url": self.url,
}
assert type(rws) is RevenueWithdrawalState
assert rws.type == "invalid"
def test_de_json_subclass(self, rws_scope_class, bot):
"""This makes sure that e.g. RevenueWithdrawalState(data) never returns a
RevenueWithdrawalStateFailed instance."""
json_dict = {
"type": "invalid",
"date": to_timestamp(self.date),
"url": self.url,
}
assert type(rws_scope_class.de_json(json_dict, bot)) is rws_scope_class
def test_to_dict(self, revenue_withdrawal_state):
rws_dict = revenue_withdrawal_state.to_dict()
assert isinstance(rws_dict, dict)
assert rws_dict["type"] == revenue_withdrawal_state.type
if hasattr(revenue_withdrawal_state, "date"):
assert rws_dict["date"] == to_timestamp(revenue_withdrawal_state.date)
if hasattr(revenue_withdrawal_state, "url"):
assert rws_dict["url"] == revenue_withdrawal_state.url
def test_type_enum_conversion(self):
assert type(RevenueWithdrawalState("failed").type) is RevenueWithdrawalStateType
assert RevenueWithdrawalState("unknown").type == "unknown"
def test_equality(self, revenue_withdrawal_state, bot):
a = RevenueWithdrawalState("base_type")
b = RevenueWithdrawalState("base_type")
c = revenue_withdrawal_state
d = deepcopy(revenue_withdrawal_state)
e = Dice(4, "emoji")
assert a == b
assert hash(a) == hash(b)
assert a != c
assert hash(a) != hash(c)
assert a != d
assert hash(a) != hash(d)
assert a != e
assert hash(a) != hash(e)
assert c == d
assert hash(c) == hash(d)
assert c != e
assert hash(c) != hash(e)
if hasattr(c, "url"):
json_dict = c.to_dict()
json_dict["url"] = "something"
f = c.__class__.de_json(json_dict, bot)
assert c == f
assert hash(c) == hash(f)
if hasattr(c, "date"):
json_dict = c.to_dict()
json_dict["date"] = to_timestamp(datetime.datetime.utcnow())
f = c.__class__.de_json(json_dict, bot)
assert c != f
assert hash(c) != hash(f)