import math from datetime import datetime from pprint import pprint from sqlalchemy.orm import Session from dibbler.models import Product, Transaction, User from dibbler.queries.product_price import product_price, product_price_log # TODO: see if we can use pytest_runtest_makereport to print the "product_price_log"s # only on failures instead of inlining it in every test function def insert_test_data(sql_session: Session) -> tuple[User, Product]: user = User("Test User") product = Product("1234567890123", "Test Product") sql_session.add(user) sql_session.add(product) sql_session.commit() return user, product def test_product_price_no_transactions(sql_session: Session) -> None: _, product = insert_test_data(sql_session) pprint(product_price_log(sql_session, product)) assert product_price(sql_session, product) == 0 def test_product_price_basic_history(sql_session: Session) -> None: user, product = insert_test_data(sql_session) transactions = [ Transaction.add_product( time=datetime(2023, 10, 1, 12, 0, 0), amount=27 * 2 - 1, per_product=27, product_count=2, user_id=user.id, product_id=product.id, ), ] sql_session.add_all(transactions) sql_session.commit() pprint(product_price_log(sql_session, product)) assert product_price(sql_session, product) == 27 def test_product_price_sold_out(sql_session: Session) -> None: user, product = insert_test_data(sql_session) transactions = [ Transaction.add_product( time=datetime(2023, 10, 1, 12, 0, 0), amount=27 * 2 - 1, per_product=27, product_count=2, user_id=user.id, product_id=product.id, ), Transaction.buy_product( time=datetime(2023, 10, 1, 12, 0, 1), product_count=2, user_id=user.id, product_id=product.id, ), ] sql_session.add_all(transactions) sql_session.commit() pprint(product_price_log(sql_session, product)) assert product_price(sql_session, product) == 27 def test_product_price_interest(sql_session: Session) -> None: user, product = insert_test_data(sql_session) transactions = [ Transaction.adjust_interest( time=datetime(2023, 10, 1, 12, 0, 0), interest_rate_percent=110, user_id=user.id, ), Transaction.add_product( time=datetime(2023, 10, 1, 12, 0, 1), amount=27 * 2 - 1, per_product=27, product_count=2, user_id=user.id, product_id=product.id, ), ] sql_session.add_all(transactions) sql_session.commit() pprint(product_price_log(sql_session, product)) product_price_ = product_price(sql_session, product) product_price_interest = product_price(sql_session, product, include_interest=True) assert product_price_ == 27 assert product_price_interest == math.ceil(27 * 1.1) def test_product_price_changing_interest(sql_session: Session) -> None: user, product = insert_test_data(sql_session) transactions = [ Transaction.adjust_interest( time=datetime(2023, 10, 1, 12, 0, 0), interest_rate_percent=110, user_id=user.id, ), Transaction.add_product( time=datetime(2023, 10, 1, 12, 0, 1), amount=27 * 2 - 1, per_product=27, product_count=2, user_id=user.id, product_id=product.id, ), Transaction.adjust_interest( time=datetime(2023, 10, 1, 12, 0, 2), interest_rate_percent=120, user_id=user.id, ), ] sql_session.add_all(transactions) sql_session.commit() pprint(product_price_log(sql_session, product)) product_price_interest = product_price(sql_session, product, include_interest=True) assert product_price_interest == math.ceil(27 * 1.2) def test_product_price_old_transaction(sql_session: Session) -> None: user, product = insert_test_data(sql_session) transactions = [ Transaction.add_product( time=datetime(2023, 10, 1, 12, 0, 1), amount=27 * 2, per_product=27, product_count=2, user_id=user.id, product_id=product.id, ), # Price should be 27 Transaction.add_product( time=datetime(2023, 10, 1, 12, 0, 2), amount=38 * 3, per_product=38, product_count=3, user_id=user.id, product_id=product.id, ), # price should be averaged upwards ] sql_session.add_all(transactions) sql_session.commit() until_transaction = transactions[0] pprint( product_price_log( sql_session, product, until=until_transaction, ) ) product_price_ = product_price( sql_session, product, until=until_transaction, ) assert product_price_ == 27 # Price goes up and gets rounded up to the next integer def test_product_price_round_up_from_below(sql_session: Session) -> None: user, product = insert_test_data(sql_session) transactions = [ Transaction.add_product( time=datetime(2023, 10, 1, 12, 0, 1), amount=27 * 2, per_product=27, product_count=2, user_id=user.id, product_id=product.id, ), # Price should be 27 Transaction.add_product( time=datetime(2023, 10, 1, 12, 0, 2), amount=38 * 3, per_product=38, product_count=3, user_id=user.id, product_id=product.id, ), # price should be averaged upwards ] sql_session.add_all(transactions) sql_session.commit() pprint(product_price_log(sql_session, product)) product_price_ = product_price(sql_session, product) assert product_price_ == math.ceil((27 * 2 + 38 * 3) / (2 + 3)) # Price goes down and gets rounded up to the next integer def test_product_price_round_up_from_above(sql_session: Session) -> None: user, product = insert_test_data(sql_session) transactions = [ Transaction.add_product( time=datetime(2023, 10, 1, 12, 0, 1), amount=27 * 2, per_product=27, product_count=2, user_id=user.id, product_id=product.id, ), # Price should be 27 Transaction.add_product( time=datetime(2023, 10, 1, 12, 0, 2), amount=20 * 3, per_product=20, product_count=3, user_id=user.id, product_id=product.id, ), # price should be averaged downwards ] sql_session.add_all(transactions) sql_session.commit() pprint(product_price_log(sql_session, product)) product_price_ = product_price(sql_session, product) assert product_price_ == math.ceil((27 * 2 + 20 * 3) / (2 + 3)) def test_product_price_with_negative_stock_single_addition(sql_session: Session) -> None: user, product = insert_test_data(sql_session) transactions = [ Transaction.add_product( time=datetime(2023, 10, 1, 13, 0, 0), amount=1, per_product=10, product_count=1, user_id=user.id, product_id=product.id, ), Transaction.buy_product( time=datetime(2023, 10, 1, 13, 0, 1), product_count=10, user_id=user.id, product_id=product.id, ), Transaction.add_product( time=datetime(2023, 10, 1, 13, 0, 2), amount=22, per_product=22, product_count=1, user_id=user.id, product_id=product.id, ), ] sql_session.add_all(transactions) sql_session.commit() pprint(product_price_log(sql_session, product)) # Stock went subzero, price should be the last added product price product1_price = product_price(sql_session, product) assert product1_price == 22 # TODO: what happens when stock is still negative and yet new products are added? def test_product_price_with_negative_stock_multiple_additions(sql_session: Session) -> None: user, product = insert_test_data(sql_session) transactions = [ Transaction.add_product( time=datetime(2023, 10, 1, 13, 0, 0), amount=1, per_product=10, product_count=1, user_id=user.id, product_id=product.id, ), Transaction.buy_product( time=datetime(2023, 10, 1, 13, 0, 1), product_count=10, user_id=user.id, product_id=product.id, ), Transaction.add_product( time=datetime(2023, 10, 1, 13, 0, 2), amount=22, per_product=22, product_count=1, user_id=user.id, product_id=product.id, ), Transaction.add_product( time=datetime(2023, 10, 1, 13, 0, 3), amount=29, per_product=29, product_count=2, user_id=user.id, product_id=product.id, ), ] sql_session.add_all(transactions) sql_session.commit() pprint(product_price_log(sql_session, product)) # Stock went subzero, price should be the ceiled average of the last added products product1_price = product_price(sql_session, product) assert product1_price == math.ceil((22 + 29 * 2) / (1 + 2))