def setup(self): print ('creating bitfinex object') auth = get_exchange_auth('bitfinex') self.exchange = Bitfinex( key=auth['key'], secret=auth['secret'], base_currency='usd' )
def get_exchange(exchange_name): exchange_auth = get_exchange_auth(exchange_name) if exchange_name == 'bitfinex': return Bitfinex( key=exchange_auth['key'], secret=exchange_auth['secret'], base_currency=None, # TODO: make optional at the exchange portfolio=None ) elif exchange_name == 'bittrex': return Bittrex( key=exchange_auth['key'], secret=exchange_auth['secret'], base_currency=None, portfolio=None ) elif exchange_name == 'poloniex': return Poloniex( key=exchange_auth['key'], secret=exchange_auth['secret'], base_currency=None, portfolio=None ) else: raise ExchangeNotFoundError(exchange_name=exchange_name)
def setup(self): log.info('creating bitfinex exchange') auth_bitfinex = get_exchange_auth('bitfinex') self.bitfinex = Bitfinex(key=auth_bitfinex['key'], secret=auth_bitfinex['secret'], base_currency='usd') log.info('creating bittrex exchange') auth_bitfinex = get_exchange_auth('bittrex') self.bittrex = Bittrex(key=auth_bitfinex['key'], secret=auth_bitfinex['secret'], base_currency='usd') open_calendar = get_calendar('OPEN') asset_finder = AssetFinderExchange() self.data_portal_live = DataPortalExchangeLive( exchanges=dict(bitfinex=self.bitfinex, bittrex=self.bittrex), asset_finder=asset_finder, trading_calendar=open_calendar, first_trading_day=pd.to_datetime('today', utc=True)) self.data_portal_backtest = DataPortalExchangeBacktest( exchanges=dict(bitfinex=self.bitfinex), asset_finder=asset_finder, trading_calendar=open_calendar, first_trading_day=None # will set dynamically based on assets )
class BitfinexTestCase(BaseExchangeTestCase): @classmethod def setup(self): print ('creating bitfinex object') auth = get_exchange_auth('bitfinex') self.exchange = Bitfinex( key=auth['key'], secret=auth['secret'], base_currency='usd' ) def test_order(self): log.info('creating order') asset = self.exchange.get_asset('eth_usd') order_id = self.exchange.order( asset=asset, style=LimitOrder(limit_price=200), limit_price=200, amount=0.5, stop_price=None ) log.info('order created {}'.format(order_id)) pass def test_open_orders(self): log.info('retrieving open orders') orders = self.exchange.get_open_orders() pass def test_get_order(self): log.info('retrieving order') pass def test_cancel_order(self): log.info('cancel order') pass def test_get_candles(self): log.info('retrieving candles') pass def test_tickers(self): log.info('retrieving tickers') tickers = self.exchange.tickers([ self.exchange.get_asset('eth_usd'), self.exchange.get_asset('btc_usd') ]) pass def test_get_account(self): log.info('retrieving account data') pass def test_get_balances(self): log.info('testing exchange balances') balances = self.exchange.get_balances() pass
def _run(handle_data, initialize, before_trading_start, analyze, algofile, algotext, defines, data_frequency, capital_base, data, bundle, bundle_timestamp, start, end, output, print_algo, local_namespace, environ, live, exchange, algo_namespace, base_currency, live_graph): """Run a backtest for the given algorithm. This is shared between the cli and :func:`catalyst.run_algo`. """ if algotext is not None: if local_namespace: ip = get_ipython() # noqa namespace = ip.user_ns else: namespace = {} for assign in defines: try: name, value = assign.split('=', 2) except ValueError: raise ValueError( 'invalid define %r, should be of the form name=value' % assign, ) try: # evaluate in the same namespace so names may refer to # eachother namespace[name] = eval(value, namespace) except Exception as e: raise ValueError( 'failed to execute definition for name %r: %s' % (name, e), ) elif defines: raise _RunAlgoError( 'cannot pass define without `algotext`', "cannot pass '-D' / '--define' without '-t' / '--algotext'", ) else: namespace = {} if algofile is not None: algotext = algofile.read() if print_algo: if PYGMENTS: highlight( algotext, PythonLexer(), TerminalFormatter(), outfile=sys.stdout, ) else: click.echo(algotext) mode = 'live' if live else 'backtest' log.info('running algo in {mode} mode'.format(mode=mode)) if live and exchange is not None: exchange_name = exchange start = pd.Timestamp.utcnow() end = start + timedelta(minutes=1439) portfolio = get_algo_object(algo_name=algo_namespace, key='portfolio_{}'.format(exchange_name), environ=environ) if portfolio is None: portfolio = ExchangePortfolio(start_date=pd.Timestamp.utcnow()) exchange_auth = get_exchange_auth(exchange_name) if exchange_name == 'bitfinex': exchange = Bitfinex(key=exchange_auth['key'], secret=exchange_auth['secret'], base_currency=base_currency, portfolio=portfolio) elif exchange_name == 'bittrex': exchange = Bittrex(key=exchange_auth['key'], secret=exchange_auth['secret'], base_currency=base_currency, portfolio=portfolio) else: raise NotImplementedError('exchange not supported: %s' % exchange_name) open_calendar = get_calendar('OPEN') sim_params = create_simulation_parameters( start=start, end=end, capital_base=capital_base, data_frequency=data_frequency, emission_rate=data_frequency, ) if live and exchange is not None: env = TradingEnvironment(environ=environ, exchange_tz='UTC', asset_db_path=None) env.asset_finder = AssetFinderExchange(exchange) data = DataPortalExchange(exchange=exchange, asset_finder=env.asset_finder, trading_calendar=open_calendar, first_trading_day=pd.to_datetime('today', utc=True)) choose_loader = None def fetch_capital_base(attempt_index=0): """ Fetch the base currency amount required to bootstrap the algorithm against the exchange. The algorithm cannot continue without this value. :param attempt_index: :return capital_base: the amount of base currency available for trading """ try: log.debug('retrieving capital base in {} to bootstrap ' 'exchange {}'.format(base_currency, exchange_name)) balances = exchange.get_balances() except ExchangeRequestError as e: if attempt_index < 20: sleep(5) return fetch_capital_base(attempt_index + 1) else: raise ExchangeRequestErrorTooManyAttempts( attempts=attempt_index, error=e) if base_currency in balances: return balances[base_currency] else: raise BaseCurrencyNotFoundError(base_currency=base_currency, exchange=exchange_name) sim_params = create_simulation_parameters( start=start, end=end, capital_base=fetch_capital_base(), emission_rate='minute', data_frequency='minute') elif bundle is not None: bundles = bundle.split(',') def get_trading_env_and_data(bundles): env = data = None b = 'poloniex' if len(bundles) == 0: return env, data elif len(bundles) == 1: b = bundles[0] bundle_data = load( b, environ, bundle_timestamp, ) prefix, connstr = re.split( r'sqlite:///', str(bundle_data.asset_finder.engine.url), maxsplit=1, ) if prefix: raise ValueError( "invalid url %r, must begin with 'sqlite:///'" % str(bundle_data.asset_finder.engine.url), ) env = TradingEnvironment( load=partial(load_crypto_market_data, bundle=b, bundle_data=bundle_data, environ=environ), bm_symbol='USDT_BTC', trading_calendar=open_calendar, asset_db_path=connstr, environ=environ, ) first_trading_day = bundle_data.minute_bar_reader.first_trading_day data = DataPortal( env.asset_finder, open_calendar, first_trading_day=first_trading_day, minute_reader=bundle_data.minute_bar_reader, five_minute_reader=bundle_data.five_minute_bar_reader, daily_reader=bundle_data.daily_bar_reader, adjustment_reader=bundle_data.adjustment_reader, ) return env, data def get_loader_for_bundle(b): bundle_data = load( b, environ, bundle_timestamp, ) if b == 'poloniex': return CryptoPricingLoader( bundle_data, data_frequency, CryptoPricing, ) elif b == 'quandl': return USEquityPricingLoader( bundle_data, data_frequency, USEquityPricing, ) raise ValueError("No PipelineLoader registered for bundle %s." % b) loaders = [get_loader_for_bundle(b) for b in bundles] env, data = get_trading_env_and_data(bundles) def choose_loader(column): for loader in loaders: if column in loader.columns: return loader raise ValueError("No PipelineLoader registered for column %s." % column) else: env = TradingEnvironment(environ=environ) choose_loader = None TradingAlgorithmClass = (partial(ExchangeTradingAlgorithm, exchange=exchange, algo_namespace=algo_namespace, live_graph=live_graph) if live and exchange else TradingAlgorithm) perf = TradingAlgorithmClass( namespace=namespace, env=env, get_pipeline_loader=choose_loader, sim_params=sim_params, **{ 'initialize': initialize, 'handle_data': handle_data, 'before_trading_start': before_trading_start, 'analyze': analyze, } if algotext is None else { 'algo_filename': getattr(algofile, 'name', '<algorithm>'), 'script': algotext, }).run( data, overwrite_sim_params=False, ) if output == '-': click.echo(str(perf)) elif output != os.devnull: # make the catalyst magic not write any data perf.to_pickle(output) return perf
def _run(handle_data, initialize, before_trading_start, analyze, algofile, algotext, defines, data_frequency, capital_base, data, bundle, bundle_timestamp, start, end, output, print_algo, local_namespace, environ, live, exchange, algo_namespace, base_currency, live_graph): """Run a backtest for the given algorithm. This is shared between the cli and :func:`catalyst.run_algo`. """ if algotext is not None: if local_namespace: ip = get_ipython() # noqa namespace = ip.user_ns else: namespace = {} for assign in defines: try: name, value = assign.split('=', 2) except ValueError: raise ValueError( 'invalid define %r, should be of the form name=value' % assign, ) try: # evaluate in the same namespace so names may refer to # eachother namespace[name] = eval(value, namespace) except Exception as e: raise ValueError( 'failed to execute definition for name %r: %s' % (name, e), ) elif defines: raise _RunAlgoError( 'cannot pass define without `algotext`', "cannot pass '-D' / '--define' without '-t' / '--algotext'", ) else: namespace = {} if algofile is not None: algotext = algofile.read() if print_algo: if PYGMENTS: highlight( algotext, PythonLexer(), TerminalFormatter(), outfile=sys.stdout, ) else: click.echo(algotext) mode = 'live' if live else 'backtest' log.info('running algo in {mode} mode'.format(mode=mode)) exchange_name = exchange if exchange_name is None: raise ValueError('Please specify at least one exchange.') exchange_list = [x.strip().lower() for x in exchange.split(',')] exchanges = dict() for exchange_name in exchange_list: # Looking for the portfolio from the cache first portfolio = get_algo_object(algo_name=algo_namespace, key='portfolio_{}'.format(exchange_name), environ=environ) if portfolio is None: portfolio = ExchangePortfolio(start_date=pd.Timestamp.utcnow()) # This corresponds to the json file containing api token info exchange_auth = get_exchange_auth(exchange_name) if live and (exchange_auth['key'] == '' or exchange_auth['secret'] == ''): raise ExchangeAuthEmpty(exchange=exchange_name.title(), filename=os.path.join( get_exchange_folder( exchange_name, environ), 'auth.json')) if exchange_name == 'bitfinex': exchanges[exchange_name] = Bitfinex(key=exchange_auth['key'], secret=exchange_auth['secret'], base_currency=base_currency, portfolio=portfolio) elif exchange_name == 'bittrex': exchanges[exchange_name] = Bittrex(key=exchange_auth['key'], secret=exchange_auth['secret'], base_currency=base_currency, portfolio=portfolio) elif exchange_name == 'poloniex': exchanges[exchange_name] = Poloniex(key=exchange_auth['key'], secret=exchange_auth['secret'], base_currency=base_currency, portfolio=portfolio) else: raise ExchangeNotFoundError(exchange_name=exchange_name) open_calendar = get_calendar('OPEN') env = TradingEnvironment( load=partial(load_crypto_market_data, environ=environ, start_dt=start, end_dt=end), environ=environ, exchange_tz='UTC', asset_db_path=None # We don't need an asset db, we have exchanges ) env.asset_finder = AssetFinderExchange() choose_loader = None # TODO: use the DataPortal for in the algorithm class for this if live: start = pd.Timestamp.utcnow() # TODO: fix the end data. end = start + timedelta(hours=8760) data = DataPortalExchangeLive(exchanges=exchanges, asset_finder=env.asset_finder, trading_calendar=open_calendar, first_trading_day=pd.to_datetime( 'today', utc=True)) def fetch_capital_base(exchange, attempt_index=0): """ Fetch the base currency amount required to bootstrap the algorithm against the exchange. The algorithm cannot continue without this value. :param exchange: the targeted exchange :param attempt_index: :return capital_base: the amount of base currency available for trading """ try: log.debug('retrieving capital base in {} to bootstrap ' 'exchange {}'.format(base_currency, exchange_name)) balances = exchange.get_balances() except ExchangeRequestError as e: if attempt_index < 20: log.warn('could not retrieve balances on {}: {}'.format( exchange.name, e)) sleep(5) return fetch_capital_base(exchange, attempt_index + 1) else: raise ExchangeRequestErrorTooManyAttempts( attempts=attempt_index, error=e) if base_currency in balances: return balances[base_currency] else: raise BaseCurrencyNotFoundError(base_currency=base_currency, exchange=exchange_name) capital_base = 0 for exchange_name in exchanges: exchange = exchanges[exchange_name] capital_base += fetch_capital_base(exchange) sim_params = create_simulation_parameters(start=start, end=end, capital_base=capital_base, emission_rate='minute', data_frequency='minute') # TODO: use the constructor instead sim_params._arena = 'live' algorithm_class = partial(ExchangeTradingAlgorithmLive, exchanges=exchanges, algo_namespace=algo_namespace, live_graph=live_graph) else: # Removed the existing Poloniex fork to keep things simple # We can add back the complexity if required. # I don't think that we should have arbitrary price data bundles # Instead, we should center this data around exchanges. # We still need to support bundles for other misc data, but we # can handle this later. data = DataPortalExchangeBacktest(exchanges=exchanges, asset_finder=None, trading_calendar=open_calendar, first_trading_day=start, last_available_session=end) sim_params = create_simulation_parameters( start=start, end=end, capital_base=capital_base, data_frequency=data_frequency, emission_rate=data_frequency, ) algorithm_class = partial(ExchangeTradingAlgorithmBacktest, exchanges=exchanges) perf = algorithm_class( namespace=namespace, env=env, get_pipeline_loader=choose_loader, sim_params=sim_params, **{ 'initialize': initialize, 'handle_data': handle_data, 'before_trading_start': before_trading_start, 'analyze': analyze, } if algotext is None else { 'algo_filename': getattr(algofile, 'name', '<algorithm>'), 'script': algotext, }).run( data, overwrite_sim_params=False, ) if output == '-': click.echo(str(perf)) elif output != os.devnull: # make the catalyst magic not write any data perf.to_pickle(output) return perf
class TestBitfinex(BaseExchangeTestCase): @classmethod def setup(self): log.info('creating bitfinex object') auth = get_exchange_auth('bitfinex') self.exchange = Bitfinex( key=auth['key'], secret=auth['secret'], base_currency='usd' ) def test_order(self): log.info('creating order') asset = self.exchange.get_asset('eth_usd') order_id = self.exchange.order( asset=asset, style=LimitOrder(limit_price=200), limit_price=200, amount=0.5, stop_price=None ) log.info('order created {}'.format(order_id)) pass def test_open_orders(self): log.info('retrieving open orders') # orders = self.exchange.get_open_orders() pass def test_get_order(self): log.info('retrieving order') pass def test_cancel_order(self): log.info('cancel order') pass def test_get_candles(self): log.info('retrieving candles') # ohlcv_neo = self.exchange.get_candles( # freq='1T', # assets=self.exchange.get_asset('neo_btc')) pass def test_tickers(self): log.info('retrieving tickers') # tickers = self.exchange.tickers([ # self.exchange.get_asset('eth_btc'), # self.exchange.get_asset('etc_btc') # ]) pass def test_get_account(self): log.info('retrieving account data') pass def test_get_balances(self): log.info('testing exchange balances') # balances = self.exchange.get_balances() pass def test_orderbook(self): log.info('testing order book for bitfinex') # asset = self.exchange.get_asset('eth_btc') # orderbook = self.exchange.get_orderbook(asset) pass