Initial commit of IBKR client

This commit is contained in:
moshferatu 2023-09-14 10:50:52 -07:00
commit 9ddfbb11ae
6 changed files with 172 additions and 0 deletions

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client.py Normal file
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import pandas as pd
from datetime import datetime
from exchange import SMART
from ib_insync import IB, Index, Option
from ib_insync.util import isNan
from market_data_type import LIVE
from typing import Callable
class Client:
def __init__(self, host: str, port: int, client_id = 1) -> None:
self.ib = IB()
self.ib.connect(host, port, clientId = client_id)
self.ib.reqMarketDataType(LIVE)
def get_ticker(self, symbol: str, exchange: str):
underlying = Index(symbol, exchange)
self.ib.qualifyContracts(underlying)
return self.ib.reqTickers(underlying)[0]
def get_option_chain(self, symbol: str, expiration: datetime, sub_symbol: str = None,
contract_filter: Callable = None) -> pd.DataFrame:
expiration_date = expiration.strftime('%Y%m%d')
contract_details = self.ib.reqContractDetails(Option(symbol, expiration_date, exchange = SMART))
contracts = [_.contract for _ in contract_details if not sub_symbol or _.contract.tradingClass == sub_symbol]
if contract_filter:
contracts = list(filter(contract_filter, contracts))
option_data = []
for contract in contracts:
option = Option(symbol, expiration_date, contract.strike, contract.right, exchange = SMART, currency = 'USD')
if sub_symbol:
option.tradingClass = sub_symbol
option_data_snapshot = self.ib.reqMktData(option, '', True, False)
option_data.append(option_data_snapshot)
option_chain = []
for option in option_data:
print('Processing Option: ', option)
while isNan(option.bid) or isNan(option.ask) or option.modelGreeks is None:
# TODO: Add a timeout?
self.ib.sleep()
option_chain.append({
'Strike': option.contract.strike,
'Type': option.contract.right, # 'C' for Call, 'P' for Put.
'Bid': option.bid,
'Ask': option.ask,
'Delta': option.modelGreeks.delta,
})
return pd.DataFrame(option_chain)

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exchange.py Normal file
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SMART = 'SMART'

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market_data_type.py Normal file
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LIVE = 1

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option_chain_example.py Normal file
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from client import Client
from datetime import datetime
ibkr_client = Client(host = '127.0.0.1', port = 7497)
underlying_ticker = ibkr_client.get_ticker('SPX', 'CBOE')
current_price = underlying_ticker.last
# Filtering strikes based on distance from current price speeds up the request.
max_strike_distance = 100
def contract_filter(contract):
if contract.right == 'C':
return contract.strike <= (current_price + max_strike_distance) and contract.strike >= current_price
return contract.strike <= current_price and contract.strike >= (current_price - max_strike_distance)
# The weekly symbol for SPX (SPXW) is required in order to distinguish from monthly options.
option_chain = ibkr_client.get_option_chain('SPX', datetime.now(), sub_symbol = 'SPXW', contract_filter = contract_filter)
print(option_chain)

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#########################################################################
# Not currently using this as the call to reqTickers takes > 10 seconds #
#########################################################################
import datetime
import pandas as pd
from exchange import SMART
from ib_insync import *
ib = IB()
ib.connect('127.0.0.1', 7497, clientId=1) # Assuming TWS is running on the current machine.
underlying = Index('SPX', 'CBOE')
ib.qualifyContracts(underlying)
underlying_ticker = ib.reqTickers(underlying)[0]
atm = underlying_ticker.last
print('Last Price:', atm)
chains = ib.reqSecDefOptParams(underlying.symbol, '', underlying.secType, underlying.conId)
chain = next(c for c in chains if c.tradingClass == 'SPXW' and c.exchange == SMART)
today = datetime.datetime.now().strftime('%Y%m%d')
expirations = [exp for exp in chain.expirations if exp == today]
max_strike_distance = 100
call_strikes = sorted(strike for strike in chain.strikes if strike <= (atm + max_strike_distance) and strike >= atm)
put_strikes = sorted(strike for strike in chain.strikes if strike <= atm and strike >= (atm - max_strike_distance))
put_contracts = [Option('SPX', expiration, strike, 'P', SMART) for expiration in expirations for strike in put_strikes]
call_contracts = [Option('SPX', expiration, strike, 'C', SMART) for expiration in expirations for strike in call_strikes]
contracts = put_contracts + call_contracts
qualified_contracts = ib.qualifyContracts(*contracts)
# Requesting market data (e.g., current bid / ask) for each contract.
# This is what takes a long time.
tickers = ib.reqTickers(*qualified_contracts)
data = []
for ticker in tickers:
symbol = ticker.contract.localSymbol
strike = ticker.contract.strike
right = 'CALL' if ticker.contract.right == 'C' else 'PUT'
# TODO: Bid and Ask.
price = iv = delta = gamma = vega = theta = underlying_price = None
# TODO: The model greeks are not always available, wait for them.
if ticker.modelGreeks is not None:
price = ticker.modelGreeks.optPrice
iv = ticker.modelGreeks.impliedVol
delta = ticker.modelGreeks.delta
gamma = ticker.modelGreeks.gamma
vega = ticker.modelGreeks.vega
theta = ticker.modelGreeks.theta
underlying_price = ticker.modelGreeks.undPrice
data.append([symbol, strike, right, price, iv, delta, gamma, vega, theta, underlying_price])
option_chain = pd.DataFrame(data, columns=['Symbol', 'Strike', 'Type', 'Price', 'IV', 'Delta', 'Gamma', 'Vega', 'Theta', 'Underlying Price'])
print('Option Chain:')
print(option_chain)
target_delta = 0.10
# Separate calls and puts.
calls = option_chain[option_chain['Type'] == 'CALL'].copy()
puts = option_chain[option_chain['Type'] == 'PUT'].copy()
# Find the difference between the target delta and actual delta for calls and puts.
calls['Delta Delta'] = abs(calls['Delta'] - target_delta)
puts['Delta Delta'] = abs(puts['Delta'] + target_delta)
# Find the row where this difference is minimized for calls.
closest_call_strike = calls.loc[calls['Delta Delta'].idxmin()]
# Find the row where this difference is minimized for puts.
closest_put_strike = puts.loc[puts['Delta Delta'].idxmin()]
# Determine the target strikes.
target_long_call_strike = closest_call_strike['Strike'] + 50
target_long_put_strike = closest_put_strike['Strike'] - 50
def find_closest_strike(target_strike, option_type, option_chain):
options = option_chain[option_chain['Type'] == option_type].copy()
options['Strike Distance'] = abs(options['Strike'] - target_strike)
nearest_strike = options.loc[options['Strike Distance'].idxmin()]
return nearest_strike
# Find the closest call and put strikes to the desired targets
closest_long_call_strike = find_closest_strike(target_long_call_strike, 'CALL', option_chain)
closest_long_put_strike = find_closest_strike(target_long_put_strike, 'PUT', option_chain)
# For entering an iron condor.
print('Short Call Strike:', closest_call_strike['Strike'])
print('Long Call Strike:', closest_long_call_strike['Strike'])
print("Short Put Strike:", closest_put_strike['Strike'])
print('Long Put Strike:', closest_long_put_strike['Strike'])
ib.disconnect()

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requirements.txt Normal file
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ib_insync
pandas