async def setUp(self): super(TestDatabase, self).setUp() path = os.path.join(self.getStateDir(), 'sqlite') if not os.path.exists(path): os.makedirs(path) self.database = MarketDB(self.getStateDir(), 'market') self.order_id1 = OrderId(TraderId(b'3' * 20), OrderNumber(4)) self.order_id2 = OrderId(TraderId(b'4' * 20), OrderNumber(5)) self.order1 = Order( self.order_id1, AssetPair(AssetAmount(5, 'BTC'), AssetAmount(6, 'EUR')), Timeout(3600), Timestamp.now(), True) self.order2 = Order( self.order_id2, AssetPair(AssetAmount(5, 'BTC'), AssetAmount(6, 'EUR')), Timeout(3600), Timestamp.now(), False) self.order2.reserve_quantity_for_tick( OrderId(TraderId(b'3' * 20), OrderNumber(4)), 3) self.transaction_id1 = TransactionId(b'a' * 32) self.transaction1 = Transaction( self.transaction_id1, AssetPair(AssetAmount(100, 'BTC'), AssetAmount(30, 'MB')), OrderId(TraderId(b'0' * 20), OrderNumber(1)), OrderId(TraderId(b'1' * 20), OrderNumber(2)), Timestamp(20000)) self.payment1 = Payment(TraderId(b'0' * 20), self.transaction_id1, AssetAmount(5, 'BTC'), WalletAddress('abc'), WalletAddress('def'), PaymentId("abc"), Timestamp(20000)) self.transaction1.add_payment(self.payment1)
def test_insert_or_update_transaction(self): """ Test the conditional insertion or update of a transaction in the database """ # Test insertion self.database.insert_or_update_transaction(self.transaction1) transactions = self.database.get_all_transactions() self.assertEqual(len(transactions), 1) # Test try to update with older timestamp before_trans1 = Transaction( self.transaction1.transaction_id, self.transaction1.assets, self.transaction1.order_id, self.transaction1.partner_order_id, Timestamp(int(self.transaction1.timestamp) - 1000)) self.database.insert_or_update_transaction(before_trans1) transaction = self.database.get_transaction( self.transaction1.transaction_id) self.assertEqual(int(transaction.timestamp), int(self.transaction1.timestamp)) # Test update with newer timestamp after_trans1 = Transaction( self.transaction1.transaction_id, self.transaction1.assets, self.transaction1.order_id, self.transaction1.partner_order_id, Timestamp(int(self.transaction1.timestamp) + 1000)) self.database.insert_or_update_transaction(after_trans1) transaction = self.database.get_transaction( self.transaction1.transaction_id) self.assertEqual(int(transaction.timestamp), int(after_trans1.timestamp))
def from_database(cls, data, reserved_ticks): """ Create an Order object based on information in the database. """ (trader_id, order_number, asset1_amount, asset1_type, asset2_amount, asset2_type, traded_quantity, timeout, order_timestamp, completed_timestamp, is_ask, cancelled, verified) = data order_id = OrderId(TraderId(bytes(trader_id)), OrderNumber(order_number)) order = cls( order_id, AssetPair(AssetAmount(asset1_amount, str(asset1_type)), AssetAmount(asset2_amount, str(asset2_type))), Timeout(timeout), Timestamp(order_timestamp), bool(is_ask)) order._traded_quantity = traded_quantity order._cancelled = bool(cancelled) order._verified = verified if completed_timestamp: order._completed_timestamp = Timestamp(completed_timestamp) for reserved_order_id, quantity in reserved_ticks: order.reserved_ticks[reserved_order_id] = quantity order._reserved_quantity += quantity return order
def test_from_network(self): # Test for from network data = StartTransaction.from_network( type( 'Data', (object, ), { "trader_id": TraderId(b'0' * 20), "transaction_id": TransactionId(TraderId(b'0' * 20), TransactionNumber(1)), "order_id": OrderId(TraderId(b'0' * 20), OrderNumber(1)), "recipient_order_id": OrderId(TraderId(b'1' * 20), OrderNumber(2)), "proposal_id": 1235, "assets": AssetPair(AssetAmount(30, 'BTC'), AssetAmount(40, 'MC')), "timestamp": Timestamp(0) })) self.assertEquals(TraderId(b'0' * 20), data.trader_id) self.assertEquals( TransactionId(TraderId(b'0' * 20), TransactionNumber(1)), data.transaction_id) self.assertEquals(OrderId(TraderId(b'0' * 20), OrderNumber(1)), data.order_id) self.assertEquals(OrderId(TraderId(b'1' * 20), OrderNumber(2)), data.recipient_order_id) self.assertEquals(1235, data.proposal_id) self.assertEquals(Timestamp(0), data.timestamp)
def test_update_ticks(self): """ Test updating ticks in an order book """ self.order_book.insert_ask(self.ask) self.order_book.insert_bid(self.bid) ask_dict = { "trader_id": self.ask.order_id.trader_id.as_hex(), "order_number": int(self.ask.order_id.order_number), "assets": self.ask.assets.to_dictionary(), "traded": 100, "timeout": 3600, "timestamp": int(Timestamp.now()) } bid_dict = { "trader_id": self.bid.order_id.trader_id.as_hex(), "order_number": int(self.bid.order_id.order_number), "assets": self.bid.assets.to_dictionary(), "traded": 100, "timeout": 3600, "timestamp": int(Timestamp.now()) } ask_dict["traded"] = 50 bid_dict["traded"] = 50 self.order_book.completed_orders = [] self.order_book.update_ticks(ask_dict, bid_dict, 100) self.assertEqual(len(self.order_book.asks), 1) self.assertEqual(len(self.order_book.bids), 1)
def test_insert_or_update_transaction(db, transaction): """ Test the conditional insertion or update of a transaction in the database """ # Test insertion db.insert_or_update_transaction(transaction) transactions = db.get_all_transactions() assert len(transactions) == 1 # Test try to update with older timestamp before_trans1 = Transaction(transaction.transaction_id, transaction.assets, transaction.order_id, transaction.partner_order_id, Timestamp(int(transaction.timestamp) - 1000)) db.insert_or_update_transaction(before_trans1) transaction = db.get_transaction(transaction.transaction_id) assert int(transaction.timestamp) == int(transaction.timestamp) # Test update with newer timestamp after_trans1 = Transaction(transaction.transaction_id, transaction.assets, transaction.order_id, transaction.partner_order_id, Timestamp(int(transaction.timestamp) + 1000)) db.insert_or_update_transaction(after_trans1) transaction = db.get_transaction(transaction.transaction_id) assert int(transaction.timestamp) == int(after_trans1.timestamp)
def test_update_ticks(ask, bid, order_book): """ Test updating ticks in an order book """ order_book.insert_ask(ask) order_book.insert_bid(bid) ask_dict = { "trader_id": ask.order_id.trader_id.as_hex(), "order_number": int(ask.order_id.order_number), "assets": ask.assets.to_dictionary(), "traded": 100, "timeout": 3600, "timestamp": int(Timestamp.now()) } bid_dict = { "trader_id": bid.order_id.trader_id.as_hex(), "order_number": int(bid.order_id.order_number), "assets": bid.assets.to_dictionary(), "traded": 100, "timeout": 3600, "timestamp": int(Timestamp.now()) } ask_dict["traded"] = 50 bid_dict["traded"] = 50 order_book.completed_orders = [] order_book.update_ticks(ask_dict, bid_dict, 100) assert len(order_book.asks) == 1 assert len(order_book.bids) == 1
def get_tx_done_block(ask_amount, bid_amount, traded_amount, ask_total_traded, bid_total_traded): ask_pair = AssetPair(AssetAmount(ask_amount, 'BTC'), AssetAmount(ask_amount, 'MB')) bid_pair = AssetPair(AssetAmount(bid_amount, 'BTC'), AssetAmount(bid_amount, 'MB')) ask = Order(OrderId(TraderId(b'0' * 20), OrderNumber(1)), ask_pair, Timeout(3600), Timestamp.now(), True) ask._traded_quantity = ask_total_traded bid = Order(OrderId(TraderId(b'1' * 20), OrderNumber(1)), bid_pair, Timeout(3600), Timestamp.now(), False) bid._traded_quantity = bid_total_traded tx = Transaction( TransactionId(TraderId(b'0' * 20), TransactionNumber(1)), AssetPair(AssetAmount(traded_amount, 'BTC'), AssetAmount(traded_amount, 'MB')), OrderId(TraderId(b'0' * 20), OrderNumber(1)), OrderId(TraderId(b'1' * 20), OrderNumber(1)), Timestamp(0)) tx.transferred_assets.first += AssetAmount(traded_amount, 'BTC') tx.transferred_assets.second += AssetAmount(traded_amount, 'MB') tx_done_block = MarketBlock() tx_done_block.type = b'tx_done' tx_done_block.transaction = { 'ask': ask.to_status_dictionary(), 'bid': bid.to_status_dictionary(), 'tx': tx.to_dictionary(), 'version': MarketCommunity.PROTOCOL_VERSION } tx_done_block.transaction['ask']['address'], tx_done_block.transaction[ 'ask']['port'] = "1.1.1.1", 1234 tx_done_block.transaction['bid']['address'], tx_done_block.transaction[ 'bid']['port'] = "1.1.1.1", 1234 return tx_done_block
def test_timed_out(self): # Test for timed out self.assertTrue( self.timeout1.is_timed_out( Timestamp(int(time.time() * 1000) - 3700 * 1000))) self.assertFalse( self.timeout2.is_timed_out(Timestamp(int(time.time() * 1000))))
def setUp(self): yield super(MatchingEngineTestSuite, self).setUp() # Object creation self.ask = Ask( OrderId(TraderId(b'2' * 20), OrderNumber(1)), AssetPair(AssetAmount(3000, 'BTC'), AssetAmount(30, 'MB')), Timeout(30), Timestamp.now()) self.bid = Bid( OrderId(TraderId(b'4' * 20), OrderNumber(2)), AssetPair(AssetAmount(3000, 'BTC'), AssetAmount(30, 'MB')), Timeout(30), Timestamp.now()) self.ask_order = Order( OrderId(TraderId(b'5' * 20), OrderNumber(3)), AssetPair(AssetAmount(3000, 'BTC'), AssetAmount(30, 'MB')), Timeout(30), Timestamp.now(), True) self.bid_order = Order( OrderId(TraderId(b'6' * 20), OrderNumber(4)), AssetPair(AssetAmount(3000, 'BTC'), AssetAmount(30, 'MB')), Timeout(30), Timestamp.now(), False) self.order_book = OrderBook() self.matching_engine = MatchingEngine( PriceTimeStrategy(self.order_book)) self.ask_count = 2 self.bid_count = 2
def test_from_network(self): # Test for from network data = ProposedTrade.from_network( type( 'Data', (object, ), { "trader_id": TraderId(b'0' * 20), "order_number": OrderNumber(1), "recipient_order_id": OrderId(TraderId(b'1' * 20), OrderNumber(2)), "proposal_id": 1234, "timestamp": Timestamp(1462224447117), "assets": AssetPair(AssetAmount(60, 'BTC'), AssetAmount(30, 'MB')) })) self.assertEquals(TraderId(b'0' * 20), data.trader_id) self.assertEquals(OrderId(TraderId(b'0' * 20), OrderNumber(1)), data.order_id) self.assertEquals(OrderId(TraderId(b'1' * 20), OrderNumber(2)), data.recipient_order_id) self.assertEquals(1234, data.proposal_id) self.assertEquals( AssetPair(AssetAmount(60, 'BTC'), AssetAmount(30, 'MB')), data.assets) self.assertEquals(Timestamp(1462224447117), data.timestamp)
def test_from_network(self): # Test for from network data = Payment.from_network( type( 'Data', (object, ), { "trader_id": TraderId(b'0' * 20), "transaction_id": TransactionId(TraderId(b'2' * 20), TransactionNumber(2)), "transferred_assets": AssetAmount(3, 'BTC'), "address_from": WalletAddress('a'), "address_to": WalletAddress('b'), "payment_id": PaymentId('aaa'), "timestamp": Timestamp(4000), "success": True })) self.assertEquals(TraderId(b'0' * 20), data.trader_id) self.assertEquals( TransactionId(TraderId(b'2' * 20), TransactionNumber(2)), data.transaction_id) self.assertEquals(AssetAmount(3, 'BTC'), data.transferred_assets) self.assertEquals(Timestamp(4000), data.timestamp) self.assertTrue(data.success)
def setUp(self): # Object creation self.memory_order_repository = MemoryOrderRepository(b'0' * 20) self.order_id = OrderId(TraderId(b'0' * 20), OrderNumber(1)) self.order = Order(self.order_id, AssetPair(AssetAmount(100, 'BTC'), AssetAmount(30, 'MC')), Timeout(0), Timestamp(10), False) self.order2 = Order(self.order_id, AssetPair(AssetAmount(1000, 'BTC'), AssetAmount(30, 'MC')), Timeout(0), Timestamp(10), False)
def setUp(self): order_id = OrderId(TraderId(b'3' * 20), OrderNumber(1)) self.ask_order = Order( order_id, AssetPair(AssetAmount(5, 'BTC'), AssetAmount(6, 'EUR')), Timeout(3600), Timestamp.now(), True) self.bid_order = Order( order_id, AssetPair(AssetAmount(5, 'BTC'), AssetAmount(6, 'EUR')), Timeout(3600), Timestamp.now(), False) self.queue = MatchPriorityQueue(self.ask_order)
def setUp(self): # Object creation self.proposed_trade = Trade.propose( TraderId(b'0' * 20), OrderId(TraderId(b'0' * 20), OrderNumber(1)), OrderId(TraderId(b'1' * 20), OrderNumber(2)), AssetPair(AssetAmount(60, 'BTC'), AssetAmount(30, 'MB')), Timestamp(1462224447117)) self.declined_trade = Trade.decline( TraderId(b'0' * 20), Timestamp(1462224447117), self.proposed_trade, DeclinedTradeReason.ORDER_COMPLETED)
def setUp(self): # Object creation self.tick = Tick(OrderId(TraderId(b'0' * 20), OrderNumber(1)), AssetPair(AssetAmount(60, 'BTC'), AssetAmount(30, 'MB')), Timeout(100), Timestamp.now(), True) self.tick2 = Tick(OrderId(TraderId(b'1' * 20), OrderNumber(2)), AssetPair(AssetAmount(120, 'BTC'), AssetAmount(30, 'MB')), Timeout(100), Timestamp.now(), True) self.side = Side()
def setUp(self): BaseTestCase.setUp(self) self.ask = Ask( OrderId(TraderId(b'0' * 20), OrderNumber(1)), AssetPair(AssetAmount(30, 'BTC'), AssetAmount(30, 'MB')), Timeout(30), Timestamp(0), True) self.bid = Ask( OrderId(TraderId(b'1' * 20), OrderNumber(1)), AssetPair(AssetAmount(30, 'BTC'), AssetAmount(30, 'MB')), Timeout(30), Timestamp(0), False) self.transaction = Transaction( TransactionId(TraderId(b'0' * 20), TransactionNumber(1)), AssetPair(AssetAmount(30, 'BTC'), AssetAmount(30, 'MB')), OrderId(TraderId(b'0' * 20), OrderNumber(1)), OrderId(TraderId(b'1' * 20), OrderNumber(1)), Timestamp(0)) ask_tx = self.ask.to_block_dict() bid_tx = self.bid.to_block_dict() self.tick_block = MarketBlock() self.tick_block.type = b'ask' self.tick_block.transaction = {'tick': ask_tx} self.cancel_block = MarketBlock() self.cancel_block.type = b'cancel_order' self.cancel_block.transaction = { 'trader_id': 'a' * 20, 'order_number': 1 } self.tx_block = MarketBlock() self.tx_block.type = b'tx_init' self.tx_block.transaction = { 'ask': ask_tx, 'bid': bid_tx, 'tx': self.transaction.to_dictionary() } payment = { 'trader_id': 'a' * 40, 'transaction_number': 3, 'transferred': { 'amount': 3, 'type': 'BTC' }, 'payment_id': 'a', 'address_from': 'a', 'address_to': 'b', 'timestamp': 1234, 'success': True } self.payment_block = MarketBlock() self.payment_block.type = b'tx_payment' self.payment_block.transaction = {'payment': payment}
def setUp(self): # Object creation self.proposed_trade = Trade.propose( TraderId(b'0' * 20), OrderId(TraderId(b'0' * 20), OrderNumber(1)), OrderId(TraderId(b'1' * 20), OrderNumber(2)), AssetPair(AssetAmount(60, 'BTC'), AssetAmount(30, 'MB')), Timestamp(1462224447117)) self.counter_trade = Trade.counter( TraderId(b'0' * 20), AssetPair(AssetAmount(60, 'BTC'), AssetAmount(30, 'MB')), Timestamp(1462224447117), self.proposed_trade)
def update_ticks(self, ask_order_dict, bid_order_dict, traded_quantity): """ Update ticks according to a TrustChain block containing the status of the ask/bid orders. :type ask_order_dict: dict :type bid_order_dict: dict :type traded_quantity: int """ ask_order_id = OrderId(TraderId(unhexlify(ask_order_dict["trader_id"])), OrderNumber(ask_order_dict["order_number"])) bid_order_id = OrderId(TraderId(unhexlify(bid_order_dict["trader_id"])), OrderNumber(bid_order_dict["order_number"])) self._logger.debug("Updating ticks in order book: %s and %s (traded quantity: %s)", str(ask_order_id), str(bid_order_id), str(traded_quantity)) # Update ask tick ask_exists = self.tick_exists(ask_order_id) if ask_exists and ask_order_dict["traded"] >= self.get_tick(ask_order_id).traded: tick = self.get_tick(ask_order_id) tick.traded = ask_order_dict["traded"] if tick.traded >= tick.assets.first.amount: self.remove_tick(tick.order_id) self.completed_orders.add(tick.order_id) elif not ask_exists and ask_order_dict["traded"] < ask_order_dict["assets"]["first"]["amount"] and \ ask_order_id not in self.completed_orders: new_pair = AssetPair.from_dictionary(ask_order_dict["assets"]) ask = Ask(ask_order_id, new_pair, Timeout(ask_order_dict["timeout"]), Timestamp(ask_order_dict["timestamp"]), traded=ask_order_dict["traded"]) self.insert_ask(ask) elif not ask_exists and ask_order_dict["traded"] >= ask_order_dict["assets"]["first"]["amount"]: self.completed_orders.add(ask_order_id) # Update bid tick bid_exists = self.tick_exists(bid_order_id) if bid_exists and bid_order_dict["traded"] >= self.get_tick(bid_order_id).traded: tick = self.get_tick(bid_order_id) tick.traded = bid_order_dict["traded"] if tick.traded >= tick.assets.first.amount: self.remove_tick(tick.order_id) self.completed_orders.add(tick.order_id) elif not bid_exists and bid_order_dict["traded"] < bid_order_dict["assets"]["first"]["amount"] and \ bid_order_id not in self.completed_orders: new_pair = AssetPair.from_dictionary(bid_order_dict["assets"]) bid = Bid(bid_order_id, new_pair, Timeout(bid_order_dict["timeout"]), Timestamp(bid_order_dict["timestamp"]), traded=bid_order_dict["traded"]) self.insert_bid(bid) elif not bid_exists and bid_order_dict["traded"] >= bid_order_dict["assets"]["first"]["amount"]: self.completed_orders.add(bid_order_id)
async def setUp(self): super(TickEntryTestSuite, self).setUp() # Object creation tick = Tick(OrderId(TraderId(b'0' * 20), OrderNumber(1)), AssetPair(AssetAmount(60, 'BTC'), AssetAmount(30, 'MB')), Timeout(0), Timestamp(0), True) tick2 = Tick( OrderId(TraderId(b'0' * 20), OrderNumber(2)), AssetPair(AssetAmount(63400, 'BTC'), AssetAmount(30, 'MB')), Timeout(100), Timestamp.now(), True) self.price_level = PriceLevel(Price(100, 1, 'MB', 'BTC')) self.tick_entry = TickEntry(tick, self.price_level) self.tick_entry2 = TickEntry(tick2, self.price_level)
def setUp(self): # Object creation tick = Tick(OrderId(TraderId(b'0' * 20), OrderNumber(1)), AssetPair(AssetAmount(60, 'BTC'), AssetAmount(30, 'MC')), Timeout(100), Timestamp.now(), True) tick2 = Tick(OrderId(TraderId(b'0' * 20), OrderNumber(2)), AssetPair(AssetAmount(30, 'BTC'), AssetAmount(30, 'MC')), Timeout(100), Timestamp.now(), True) self.price_level = PriceLevel(Price(50, 5, 'MC', 'BTC')) self.tick_entry1 = TickEntry(tick, self.price_level) self.tick_entry2 = TickEntry(tick, self.price_level) self.tick_entry3 = TickEntry(tick, self.price_level) self.tick_entry4 = TickEntry(tick, self.price_level) self.tick_entry5 = TickEntry(tick2, self.price_level)
async def tick_entry2(price_level): tick = Tick(OrderId(TraderId(b'0' * 20), OrderNumber(2)), AssetPair(AssetAmount(63400, 'BTC'), AssetAmount(30, 'MB')), Timeout(100), Timestamp.now(), True) tick_entry = TickEntry(tick, price_level) yield tick_entry await tick_entry.shutdown_task_manager()
def from_unpack_list(cls, trader_id, timestamp, order_number, other_trader_id, other_order_number, decline_reason): return DeclineMatchPayload( TraderId(trader_id), Timestamp(timestamp), OrderNumber(order_number), OrderId(TraderId(other_trader_id), OrderNumber(other_order_number)), decline_reason)
def from_unpack_list(cls, trader_id, timestamp, transaction_id, incoming_address, outgoing_address): return WalletInfoPayload( TraderId(trader_id), Timestamp(timestamp), TransactionId(transaction_id), WalletAddress(incoming_address.decode('utf-8')), WalletAddress(outgoing_address.decode('utf-8')))
def setUp(self): # Object creation self.payment = Payment( TraderId(b'0' * 20), TransactionId(TraderId(b'2' * 20), TransactionNumber(2)), AssetAmount(3, 'BTC'), WalletAddress('a'), WalletAddress('b'), PaymentId('aaa'), Timestamp(4000), True)
def from_unpack_list(cls, trader_id, timestamp, transaction_trader_id, transaction_number, transferred_amount, transferred_type, address_from, address_to, payment_id, success): return PaymentPayload(TraderId(trader_id), Timestamp(timestamp), TransactionId(TraderId(transaction_trader_id), TransactionNumber(transaction_number)), AssetAmount(transferred_amount, transferred_type.decode('utf-8')), WalletAddress(address_from.decode('utf-8')), WalletAddress(address_to.decode('utf-8')), PaymentId(payment_id.decode('utf-8')), success)
def from_unpack_list(cls, trader_id, timestamp, order_number, asset1_amount, asset1_type, asset2_amount, asset2_type, timeout, traded, recipient_order_number, match_trader_id, matchmaker_trader_id): return MatchPayload(TraderId(trader_id), Timestamp(timestamp), OrderNumber(order_number), AssetPair(AssetAmount(asset1_amount, asset1_type.decode('utf-8')), AssetAmount(asset2_amount, asset2_type.decode('utf-8'))), Timeout(timeout), traded, OrderNumber(recipient_order_number), TraderId(match_trader_id), TraderId(matchmaker_trader_id))
def from_database(cls, data, payments): """ Create a Transaction object based on information in the database. """ (trader_id, transaction_id, order_number, partner_trader_id, partner_order_number, asset1_amount, asset1_type, asset1_transferred, asset2_amount, asset2_type, asset2_transferred, transaction_timestamp, sent_wallet_info, received_wallet_info, incoming_address, outgoing_address, partner_incoming_address, partner_outgoing_address) = data transaction_id = TransactionId(bytes(transaction_id)) transaction = cls(transaction_id, AssetPair(AssetAmount(asset1_amount, str(asset1_type)), AssetAmount(asset2_amount, str(asset2_type))), OrderId(TraderId(bytes(trader_id)), OrderNumber(order_number)), OrderId(TraderId(bytes(partner_trader_id)), OrderNumber(partner_order_number)), Timestamp(transaction_timestamp)) transaction._transferred_assets = AssetPair(AssetAmount(asset1_transferred, str(asset1_type)), AssetAmount(asset2_transferred, str(asset2_type))) transaction.sent_wallet_info = sent_wallet_info transaction.received_wallet_info = received_wallet_info transaction.incoming_address = WalletAddress(str(incoming_address)) transaction.outgoing_address = WalletAddress(str(outgoing_address)) transaction.partner_incoming_address = WalletAddress(str(partner_incoming_address)) transaction.partner_outgoing_address = WalletAddress(str(partner_outgoing_address)) transaction._payments = payments return transaction
def order2(): order_id2 = OrderId(TraderId(b'4' * 20), OrderNumber(5)) order2 = Order(order_id2, AssetPair(AssetAmount(5, 'BTC'), AssetAmount(6, 'EUR')), Timeout(3600), Timestamp.now(), False) order2.reserve_quantity_for_tick( OrderId(TraderId(b'3' * 20), OrderNumber(4)), 3) return order2
def test_to_network(self): # Test for to network self.assertEquals( (TraderId(b'0' * 20), Timestamp(1462224447117), OrderNumber(1), OrderId(TraderId(b'1' * 20), OrderNumber(2)), self.proposed_trade.proposal_id, AssetPair(AssetAmount(60, 'BTC'), AssetAmount(30, 'MB'))), self.proposed_trade.to_network())