def test_market(self):
bts = self.bts
m1 = Market(u'BEX', u'BBD', dpay_instance=bts)
self.assertEqual(m1.get_string(), u'BBD:BEX')
m2 = Market(dpay_instance=bts)
self.assertEqual(m2.get_string(), u'BBD:BEX')
m3 = Market(u'BEX:BBD', dpay_instance=bts)
self.assertEqual(m3.get_string(), u'BEX:BBD')
self.assertTrue(m1 == m2)
base = Asset("BBD", dpay_instance=bts)
quote = Asset("BEX", dpay_instance=bts)
m = Market(base, quote, dpay_instance=bts)
self.assertEqual(m.get_string(), u'BEX:BBD')
def test_recenttrades(self):
bts = self.bts
m = Market(u'BEX:BBD', dpay_instance=bts)
recenttrades = m.recent_trades(limit=10)
recenttrades_raw = m.recent_trades(limit=10, raw_data=True)
self.assertEqual(len(recenttrades), 10)
self.assertEqual(len(recenttrades_raw), 10)
def test_ticker(self):
bts = self.bts
m = Market(u'BEX:BBD', dpay_instance=bts)
ticker = m.ticker()
self.assertEqual(len(ticker), 6)
self.assertEqual(ticker['dpay_volume']["symbol"], u'BEX')
self.assertEqual(ticker['bbd_volume']["symbol"], u'BBD')
def test_sell(self):
bts = self.bts
bts.txbuffer.clear()
m = Market(u'BEX:BBD', dpay_instance=bts)
tx = m.sell(5, 0.1, account="test")
self.assertEqual((tx["operations"][0][0]), "limit_order_create")
op = tx["operations"][0][1]
self.assertIn("test", op["owner"])
self.assertEqual(str(Amount('0.500 BBD', dpay_instance=bts)),
op["min_to_receive"])
self.assertEqual(str(Amount('0.100 BEX', dpay_instance=bts)),
op["amount_to_sell"])
p = Price(5, u"BBD:BEX")
tx = m.sell(p, 0.1, account="test")
op = tx["operations"][0][1]
self.assertEqual(str(Amount('0.500 BBD', dpay_instance=bts)),
op["min_to_receive"])
self.assertEqual(str(Amount('0.100 BEX', dpay_instance=bts)),
op["amount_to_sell"])
p = Price(5, u"BBD:BEX", dpay_instance=bts)
a = Amount(0.1, "BEX", dpay_instance=bts)
tx = m.sell(p, a, account="test")
op = tx["operations"][0][1]
self.assertEqual(str(Amount('0.500 BBD', dpay_instance=bts)),
op["min_to_receive"])
self.assertEqual(str(Amount('0.100 BEX', dpay_instance=bts)),
op["amount_to_sell"])
def test_market(self, node_param):
if node_param == "instance":
set_shared_dpay_instance(self.bts)
o = Market()
self.assertIn(o.dpay.rpc.url, self.urls)
with self.assertRaises(RPCConnection):
Market(dpay_instance=DPay(
node="https://abc.d", autoconnect=False, num_retries=1))
else:
set_shared_dpay_instance(
DPay(node="https://abc.d", autoconnect=False, num_retries=1))
stm = self.bts
o = Market(dpay_instance=stm)
self.assertIn(o.dpay.rpc.url, self.urls)
with self.assertRaises(RPCConnection):
Market()
def test_orderbook(self):
bts = self.bts
m = Market(u'BEX:BBD', dpay_instance=bts)
orderbook = m.orderbook(limit=10)
self.assertEqual(len(orderbook['asks_date']), 10)
self.assertEqual(len(orderbook['asks']), 10)
self.assertEqual(len(orderbook['bids_date']), 10)
self.assertEqual(len(orderbook['bids']), 10)
def test_cancel(self):
bts = self.bts
bts.txbuffer.clear()
m = Market(u'BEX:BBD', dpay_instance=bts)
tx = m.cancel(5, account="test")
self.assertEqual((tx["operations"][0][0]), "limit_order_cancel")
op = tx["operations"][0][1]
self.assertIn("test", op["owner"])
def test_trades(self):
bts = self.bts
m = Market(u'BEX:BBD', dpay_instance=bts)
trades = m.trades(limit=10)
trades_raw = m.trades(limit=10, raw_data=True)
trades_history = m.trade_history(limit=10)
self.assertEqual(len(trades), 10)
self.assertTrue(len(trades_history) > 0)
self.assertEqual(len(trades_raw), 10)
def test_market_history(self):
bts = self.bts
m = Market(u'BEX:BBD', dpay_instance=bts)
buckets = m.market_history_buckets()
history = m.market_history(buckets[2])
self.assertTrue(len(history) > 0)
def test_volume(self):
bts = self.bts
m = Market(u'BEX:BBD', dpay_instance=bts)
volume = m.volume24h()
self.assertEqual(volume['BEX']["symbol"], u'BEX')
self.assertEqual(volume['BBD']["symbol"], u'BBD')
def test_dpay_usb_impied(self):
bts = self.bts
m = Market(u'BEX:BBD', dpay_instance=bts)
dpay_usd = m.dpay_usd_implied()
self.assertGreater(dpay_usd, 0)
def test_accountopenorders(self):
bts = self.bts
m = Market(u'BEX:BBD', dpay_instance=bts)
openOrder = m.accountopenorders("test")
self.assertTrue(isinstance(openOrder, list))