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tick_taker.py
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tick_taker.py
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import argparse
import pandas as pd
import numpy as np
import alpaca_trade_api as tradeapi
class Quote():
"""
We use Quote objects to represent the bid/ask spread. When we encounter a
'level change', a move of exactly 1 penny, we may attempt to make one
trade. Whether or not the trade is successfully filled, we do not submit
another trade until we see another level change.
Note: Only moves of 1 penny are considered eligible because larger moves
could potentially indicate some newsworthy event for the stock, which this
algorithm is not tuned to trade.
"""
def __init__(self):
self.prev_bid = 0
self.prev_ask = 0
self.prev_spread = 0
self.bid = 0
self.ask = 0
self.bid_size = 0
self.ask_size = 0
self.spread = 0
self.traded = True
self.level_ct = 1
self.time = 0
def reset(self):
# Called when a level change happens
self.traded = False
self.level_ct += 1
def update(self, data):
# Update bid and ask sizes and timestamp
self.bid_size = data.bidsize
self.ask_size = data.asksize
# Check if there has been a level change
if (
self.bid != data.bidprice
and self.ask != data.askprice
and round(data.askprice - data.bidprice, 2) == .01
):
# Update bids and asks and time of level change
self.prev_bid = self.bid
self.prev_ask = self.ask
self.bid = data.bidprice
self.ask = data.askprice
self.time = data.timestamp
# Update spreads
self.prev_spread = round(self.prev_ask - self.prev_bid, 3)
self.spread = round(self.ask - self.bid, 3)
print(
'Level change:', self.prev_bid, self.prev_ask,
self.prev_spread, self.bid, self.ask, self.spread, flush=True
)
# If change is from one penny spread level to a different penny
# spread level, then initialize for new level (reset stale vars)
if self.prev_spread == 0.01:
self.reset()
class Position():
"""
The position object is used to track how many shares we have. We need to
keep track of this so our position size doesn't inflate beyond the level
we're willing to trade with. Because orders may sometimes be partially
filled, we need to keep track of how many shares are "pending" a buy or
sell as well as how many have been filled into our account.
"""
def __init__(self):
self.orders_filled_amount = {}
self.pending_buy_shares = 0
self.pending_sell_shares = 0
self.total_shares = 0
def update_pending_buy_shares(self, quantity):
self.pending_buy_shares += quantity
def update_pending_sell_shares(self, quantity):
self.pending_sell_shares += quantity
def update_filled_amount(self, order_id, new_amount, side):
old_amount = self.orders_filled_amount[order_id]
if new_amount > old_amount:
if side == 'buy':
self.update_pending_buy_shares(old_amount - new_amount)
self.update_total_shares(new_amount - old_amount)
else:
self.update_pending_sell_shares(old_amount - new_amount)
self.update_total_shares(old_amount - new_amount)
self.orders_filled_amount[order_id] = new_amount
def remove_pending_order(self, order_id, side):
old_amount = self.orders_filled_amount[order_id]
if side == 'buy':
self.update_pending_buy_shares(old_amount - 100)
else:
self.update_pending_sell_shares(old_amount - 100)
del self.orders_filled_amount[order_id]
def update_total_shares(self, quantity):
self.total_shares += quantity
def run(args):
symbol = args.symbol
max_shares = args.quantity
opts = {}
if args.key_id:
opts['key_id'] = args.key_id
if args.secret_key:
opts['secret_key'] = args.secret_key
if args.base_url:
opts['base_url'] = args.base_url
elif 'key_id' in opts and opts['key_id'].startswith('PK'):
opts['base_url'] = 'https://paper-api.alpaca.markets'
# Create an API object which can be used to submit orders, etc.
api = tradeapi.REST(**opts)
symbol = symbol.upper()
quote = Quote()
qc = 'Q.%s' % symbol
tc = 'T.%s' % symbol
position = Position()
# Establish streaming connection
conn = tradeapi.StreamConn(**opts)
# Define our message handling
@conn.on(r'Q$')
async def on_quote(conn, channel, data):
# Quote update received
quote.update(data)
@conn.on(r'T$')
async def on_trade(conn, channel, data):
if quote.traded:
return
# We've received a trade and might be ready to follow it
if (
data.timestamp <= (
quote.time + pd.Timedelta(np.timedelta64(50, 'ms'))
)
):
# The trade came too close to the quote update
# and may have been for the previous level
return
if data.size >= 100:
# The trade was large enough to follow, so we check to see if
# we're ready to trade. We also check to see that the
# bid vs ask quantities (order book imbalance) indicate
# a movement in that direction. We also want to be sure that
# we're not buying or selling more than we should.
if (
data.price == quote.ask
and quote.bid_size > (quote.ask_size * 1.8)
and (
position.total_shares + position.pending_buy_shares
) < max_shares - 100
):
# Everything looks right, so we submit our buy at the ask
try:
o = api.submit_order(
symbol=symbol, qty='100', side='buy',
type='limit', time_in_force='day',
limit_price=str(quote.ask)
)
# Approximate an IOC order by immediately cancelling
api.cancel_order(o.id)
position.update_pending_buy_shares(100)
position.orders_filled_amount[o.id] = 0
print('Buy at', quote.ask, flush=True)
quote.traded = True
except Exception as e:
print(e)
elif (
data.price == quote.bid
and quote.ask_size > (quote.bid_size * 1.8)
and (
position.total_shares - position.pending_sell_shares
) >= 100
):
# Everything looks right, so we submit our sell at the bid
try:
o = api.submit_order(
symbol=symbol, qty='100', side='sell',
type='limit', time_in_force='day',
limit_price=str(quote.bid)
)
# Approximate an IOC order by immediately cancelling
api.cancel_order(o.id)
position.update_pending_sell_shares(100)
position.orders_filled_amount[o.id] = 0
print('Sell at', quote.bid, flush=True)
quote.traded = True
except Exception as e:
print(e)
@conn.on(r'trade_updates')
async def on_trade_updates(conn, channel, data):
# We got an update on one of the orders we submitted. We need to
# update our position with the new information.
event = data.event
if event == 'fill':
if data.order['side'] == 'buy':
position.update_total_shares(
int(data.order['filled_qty'])
)
else:
position.update_total_shares(
-1 * int(data.order['filled_qty'])
)
position.remove_pending_order(
data.order['id'], data.order['side']
)
elif event == 'partial_fill':
position.update_filled_amount(
data.order['id'], int(data.order['filled_qty']),
data.order['side']
)
elif event == 'canceled' or event == 'rejected':
position.remove_pending_order(
data.order['id'], data.order['side']
)
conn.run(
['trade_updates', tc, qc]
)
if __name__ == '__main__':
parser = argparse.ArgumentParser()
parser.add_argument(
'--symbol', type=str, default='SNAP',
help='Symbol you want to trade.'
)
parser.add_argument(
'--quantity', type=int, default=500,
help='Maximum number of shares to hold at once. Minimum 100.'
)
parser.add_argument(
'--key-id', type=str, default=None,
help='API key ID',
)
parser.add_argument(
'--secret-key', type=str, default=None,
help='API secret key',
)
parser.add_argument(
'--base-url', type=str, default=None,
help='set https://paper-api.alpaca.markets if paper trading',
)
args = parser.parse_args()
assert args.quantity >= 100
run(args)