スキマ時間でやってるから、歩みは遅いけど、ちょっとずつ進めている。
#!/usr/bin/env python # coding: utf-8 # ## Utilities # In[1]: def is_in_jupyter() -> bool: ''' Determine wheather is the environment Jupyter Notebook https://blog.amedama.jp/entry/detect-jupyter-env ''' if 'get_ipython' not in globals(): # Python shell return False env_name = get_ipython().__class__.__name__ if env_name == 'TerminalInteractiveShell': # IPython shell return False # Jupyter Notebook return True print(is_in_jupyter()) # In[2]: # https://recruit-tech.co.jp/blog/2018/10/16/jupyter_notebook_tips/ if is_in_jupyter(): def set_stylesheet(): from IPython.display import display, HTML css = get_ipython().getoutput('wget https://raw.githubusercontent.com/lapis-zero09/jupyter_notebook_tips/master/css/jupyter_notebook/monokai.css -q -O -') css = "\n".join(css) display(HTML('<style type="text/css">%s</style>'%css)) set_stylesheet() # ## Main # In[3]: #!/usr/bin/env python # -*- coding: utf-8; py-indent-offset:4 -*- ############################################################################### # # Copyright (C) 2015-2020 Daniel Rodriguez # Copyright (C) 2021 dogwood008 (modified) # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>. # ############################################################################### from __future__ import (absolute_import, division, print_function, unicode_literals) import collections from datetime import datetime, timedelta import time as _time import json import threading # import oandapy # import requests # oandapy depdendency import backtrader as bt from backtrader.metabase import MetaParams from backtrader.utils.py3 import queue, with_metaclass from backtrader.utils import AutoDict import kabusapi kabusapi.Context ############################################ ## ここまで動作確認済み # ## for reference # In[4]: # Extend the exceptions to support extra cases # ''' # class OandaRequestError(oandapy.OandaError): # def __init__(self): # er = dict(code=599, message='Request Error', description='') # super(self.__class__, self).__init__(er) # # # class OandaStreamError(oandapy.OandaError): # def __init__(self, content=''): # er = dict(code=598, message='Failed Streaming', description=content) # super(self.__class__, self).__init__(er) # # # class OandaTimeFrameError(oandapy.OandaError): # def __init__(self, content): # er = dict(code=597, message='Not supported TimeFrame', description='') # super(self.__class__, self).__init__(er) # # # class OandaNetworkError(oandapy.OandaError): # def __init__(self): # er = dict(code=596, message='Network Error', description='') # super(self.__class__, self).__init__(er) # ''' # class API(oandapy.API): # def request(self, endpoint, method='GET', params=None): # # Overriden to make something sensible out of a # # request.RequestException rather than simply issuing a print(str(e)) # url = '%s/%s' % (self.api_url, endpoint) # # method = method.lower() # params = params or {} # # func = getattr(self.client, method) # # request_args = {} # if method == 'get': # request_args['params'] = params # else: # request_args['data'] = params # # # Added the try block # try: # response = func(url, **request_args) # except requests.RequestException as e: # return OandaRequestError().error_response # # content = response.content.decode('utf-8') # content = json.loads(content) # # # error message # if response.status_code >= 400: # # changed from raise to return # return oandapy.OandaError(content).error_response # # return content # ## for reference # In[5]: #FIXME # class Streamer(oandapy.Streamer): # def __init__(self, q, headers=None, *args, **kwargs): # # Override to provide headers, which is in the standard API interface # super(Streamer, self).__init__(*args, **kwargs) # # if headers: # self.client.headers.update(headers) # # self.q = q # # def run(self, endpoint, params=None): # # Override to better manage exceptions. # # Kept as much as possible close to the original # self.connected = True # # params = params or {} # # ignore_heartbeat = None # if 'ignore_heartbeat' in params: # ignore_heartbeat = params['ignore_heartbeat'] # # request_args = {} # request_args['params'] = params # # url = '%s/%s' % (self.api_url, endpoint) # # while self.connected: # # Added exception control here # try: # response = self.client.get(url, **request_args) # except requests.RequestException as e: # self.q.put(OandaRequestError().error_response) # break # # if response.status_code != 200: # self.on_error(response.content) # break # added break here # # # Changed chunk_size 90 -> None # try: # for line in response.iter_lines(chunk_size=None): # if not self.connected: # break # # if line: # data = json.loads(line.decode('utf-8')) # if not (ignore_heartbeat and 'heartbeat' in data): # self.on_success(data) # # except: # socket.error has been seen # self.q.put(OandaStreamError().error_response) # break # # def on_success(self, data): # if 'tick' in data: # self.q.put(data['tick']) # elif 'transaction' in data: # self.q.put(data['transaction']) # # def on_error(self, data): # self.disconnect() # self.q.put(OandaStreamError(data).error_response) # ## Main # ## KabuSAPIEnv # In[6]: from enum import Enum class KabuSAPIEnv(Enum): DEV = 'dev' PROD = 'prod' # ## MetaSingleton # In[7]: class MetaSingleton(MetaParams): '''Metaclass to make a metaclassed class a singleton''' def __init__(cls, name, bases, dct): super(MetaSingleton, cls).__init__(name, bases, dct) cls._singleton = None def __call__(cls, *args, **kwargs): if cls._singleton is None: cls._singleton = ( super(MetaSingleton, cls).__call__(*args, **kwargs)) return cls._singleton # ## KabuSAPIStore # In[8]: class KabuSAPIStore(with_metaclass(MetaSingleton, object)): '''Singleton class wrapping to control the connections to Kabu STATION API. Params: - ``token`` (default:``None``): API access token - ``account`` (default: ``None``): account id - ``practice`` (default: ``False``): use the test environment - ``account_tmout`` (default: ``10.0``): refresh period for account value/cash refresh ''' BrokerCls = None # broker class will autoregister DataCls = None # data class will auto register params = ( ('url', 'localhost'), ('env', KabuSAPIEnv.DEV), ('port', None), ('password', None), ) # _DTEPOCH = datetime(1970, 1, 1) # _ENVPRACTICE = 'practice' # _ENVLIVE = 'live' @classmethod def getdata(cls, *args, **kwargs): '''Returns ``DataCls`` with args, kwargs''' return cls.DataCls(*args, **kwargs) @classmethod def getbroker(cls, *args, **kwargs): '''Returns broker with *args, **kwargs from registered ``BrokerCls``''' return cls.BrokerCls(*args, **kwargs) def __init__(self): def _getport() -> int: if self.p.port: return port return 18081 if self.p.env == KabuSAPIEnv.DEV else 18080 def _init_kabusapi_client() -> kabusapi.Context: url = self.p.url port = self.p.port or _getport() password = self.p.password token = kabusapi.Context(url, port, password).token self.kapi = kabusapi.Context(url, port, token=token) super(KabuSAPIStore, self).__init__() self.notifs = collections.deque() # store notifications for cerebro self._env = None # reference to cerebro for general notifications self.broker = None # broker instance self.datas = list() # datas that have registered over start self._orders = collections.OrderedDict() # map order.ref to oid self._ordersrev = collections.OrderedDict() # map oid to order.ref self._transpend = collections.defaultdict(collections.deque) _init_kabusapi_client() self._cash = 0.0 self._value = 0.0 self._evt_acct = threading.Event() def start(self, data=None, broker=None): # Datas require some processing to kickstart data reception if data is None and broker is None: self.cash = None return if data is not None: self._env = data._env # For datas simulate a queue with None to kickstart co self.datas.append(data) if self.broker is not None: self.broker.data_started(data) elif broker is not None: self.broker = broker self.streaming_events() self.broker_threads() def stop(self): # signal end of thread if self.broker is not None: self.q_ordercreate.put(None) self.q_orderclose.put(None) self.q_account.put(None) def put_notification(self, msg, *args, **kwargs): self.notifs.append((msg, args, kwargs)) def get_notifications(self): '''Return the pending "store" notifications''' self.notifs.append(None) # put a mark / threads could still append return [x for x in iter(self.notifs.popleft, None)] # Oanda supported granularities # _GRANULARITIES = { # (bt.TimeFrame.Seconds, 5): 'S5', # (bt.TimeFrame.Seconds, 10): 'S10', # (bt.TimeFrame.Seconds, 15): 'S15', # (bt.TimeFrame.Seconds, 30): 'S30', # (bt.TimeFrame.Minutes, 1): 'M1', # (bt.TimeFrame.Minutes, 2): 'M3', # (bt.TimeFrame.Minutes, 3): 'M3', # (bt.TimeFrame.Minutes, 4): 'M4', # (bt.TimeFrame.Minutes, 5): 'M5', # (bt.TimeFrame.Minutes, 10): 'M5', # (bt.TimeFrame.Minutes, 15): 'M5', # (bt.TimeFrame.Minutes, 30): 'M5', # (bt.TimeFrame.Minutes, 60): 'H1', # (bt.TimeFrame.Minutes, 120): 'H2', # (bt.TimeFrame.Minutes, 180): 'H3', # (bt.TimeFrame.Minutes, 240): 'H4', # (bt.TimeFrame.Minutes, 360): 'H6', # (bt.TimeFrame.Minutes, 480): 'H8', # (bt.TimeFrame.Days, 1): 'D', # (bt.TimeFrame.Weeks, 1): 'W', # (bt.TimeFrame.Months, 1): 'M', # } def get_positions(self): try: positions = self.kapi.positions() except (oandapy.OandaError, OandaRequestError,): # FIXME: Error handling return None poslist = positions.get('positions', []) return poslist #def get_granularity(self, timeframe, compression): # return self._GRANULARITIES.get((timeframe, compression), None) # def get_instrument(self, dataname): # try: # insts = self.oapi.get_instruments(self.p.account_tmout, # FIXME: oapi # instruments=dataname) # except (oandapy.OandaError, OandaRequestError,): # return None # # i = insts.get('instruments', [{}]) # return i[0] or None def streaming_events(self, tmout=None): # q = queue.Queue() kwargs = {'q': q, 'tmout': tmout} t = threading.Thread(target=self._streaming_listener, kwargs=kwargs) t.daemon = True t.start() # t = threading.Thread(target=self._t_streaming_events, kwargs=kwargs) # FIXME: _t_streaming_events # t.daemon = True # t.start() return q # FIXME: @self.kapi.websocket def _streaming_listener(msg): ''' Ref: https://github.com/shirasublue/python-kabusapi/blob/master/sample/push_sample.py ''' # WIP pass #def _t_streaming_listener(self, q, tmout=None): # while True: # trans = q.get() # self._transaction(trans) # FIXME: Streamer # def _t_streaming_events(self, q, tmout=None): # if tmout is not None: # _time.sleep(tmout) # # # FIXME: oandapy.Streamer # # streamer = Streamer(q, # # environment=self._oenv, # # access_token=self.p.token, # # headers={'X-Accept-Datetime-Format': 'UNIX'}) # # # # streamer.events(ignore_heartbeat=False) def candles(self, dataname, dtbegin, dtend, timeframe, compression, candleFormat, includeFirst): kwargs = locals().copy() kwargs.pop('self') kwargs['q'] = q = queue.Queue() t = threading.Thread(target=self._t_candles, kwargs=kwargs) # FIXME: _t_candles t.daemon = True t.start() return q def _t_candles(self, dataname, dtbegin, dtend, timeframe, compression, candleFormat, includeFirst, q): # FIXME: granularity = self.get_granularity(timeframe, compression) if granularity is None: e = OandaTimeFrameError() q.put(e.error_response) return dtkwargs = {} if dtbegin is not None: dtkwargs['start'] = int((dtbegin - self._DTEPOCH).total_seconds()) # FIXME: _DTEPOCH if dtend is not None: dtkwargs['end'] = int((dtend - self._DTEPOCH).total_seconds()) # FIXME: _DTEPOCH try: pass # FIXME: granularity # response = self.oapi.get_history(instrument=dataname, # granularity=granularity, # candleFormat=candleFormat, # **dtkwargs) except oandapy.OandaError as e: q.put(e.error_response) q.put(None) return # FIXME for candle in response.get('candles', []): q.put(candle) q.put({}) # end of transmission def streaming_prices(self, dataname, tmout=None): q = queue.Queue() kwargs = {'q': q, 'dataname': dataname, 'tmout': tmout} t = threading.Thread(target=self._t_streaming_prices, kwargs=kwargs) # FIXME: _t_streaming_prices t.daemon = True t.start() return q # FIXME: Streamer def _t_streaming_prices(self, dataname, q, tmout): if tmout is not None: _time.sleep(tmout) # FIXME: Streamer # FIXME streamer = Streamer(q, environment=self._oenv, # FIXME access_token=self.p.token, # FIXME headers={'X-Accept-Datetime-Format': 'UNIX'}) # FIXME streamer.rates(self.p.account, instruments=dataname) def get_cash(self): return self._cash def get_value(self): return self._value _ORDEREXECS = { bt.Order.Market: 'market', bt.Order.Limit: 'limit', bt.Order.Stop: 'stop', bt.Order.StopLimit: 'stop', } def broker_threads(self): self.q_account = queue.Queue() self.q_account.put(True) # force an immediate update t = threading.Thread(target=self._t_account) t.daemon = True t.start() self.q_ordercreate = queue.Queue() t = threading.Thread(target=self._t_order_create) t.daemon = True t.start() self.q_orderclose = queue.Queue() t = threading.Thread(target=self._t_order_cancel) t.daemon = True t.start() # Wait once for the values to be set self._evt_acct.wait(self.p.account_tmout) def _t_account(self): while True: try: msg = self.q_account.get(timeout=self.p.account_tmout) if msg is None: break # end of thread except queue.Empty: # tmout -> time to refresh pass try: accinfo = self.oapi.get_account(self.p.account) except Exception as e: self.put_notification(e) continue try: self._cash = accinfo['marginAvail'] self._value = accinfo['balance'] except KeyError: pass self._evt_acct.set() def order_create(self, order, stopside=None, takeside=None, **kwargs): okwargs = dict() okwargs['instrument'] = order.data._dataname okwargs['units'] = abs(order.created.size) okwargs['side'] = 'buy' if order.isbuy() else 'sell' okwargs['type'] = self._ORDEREXECS[order.exectype] if order.exectype != bt.Order.Market: okwargs['price'] = order.created.price if order.valid is None: # 1 year and datetime.max fail ... 1 month works valid = datetime.utcnow() + timedelta(days=30) else: valid = order.data.num2date(order.valid) # To timestamp with seconds precision okwargs['expiry'] = int((valid - self._DTEPOCH).total_seconds()) # FIXME: _DTEPOCH if order.exectype == bt.Order.StopLimit: okwargs['lowerBound'] = order.created.pricelimit okwargs['upperBound'] = order.created.pricelimit if order.exectype == bt.Order.StopTrail: okwargs['trailingStop'] = order.trailamount if stopside is not None: okwargs['stopLoss'] = stopside.price if takeside is not None: okwargs['takeProfit'] = takeside.price okwargs.update(**kwargs) # anything from the user self.q_ordercreate.put((order.ref, okwargs,)) return order _OIDSINGLE = ['orderOpened', 'tradeOpened', 'tradeReduced'] _OIDMULTIPLE = ['tradesClosed'] def _t_order_create(self): while True: msg = self.q_ordercreate.get() if msg is None: break oref, okwargs = msg try: o = self.oapi.create_order(self.p.account, **okwargs) except Exception as e: self.put_notification(e) self.broker._reject(oref) return # Ids are delivered in different fields and all must be fetched to # match them (as executions) to the order generated here oids = list() for oidfield in self._OIDSINGLE: if oidfield in o and 'id' in o[oidfield]: oids.append(o[oidfield]['id']) for oidfield in self._OIDMULTIPLE: if oidfield in o: for suboidfield in o[oidfield]: oids.append(suboidfield['id']) if not oids: self.broker._reject(oref) return self._orders[oref] = oids[0] self.broker._submit(oref) if okwargs['type'] == 'market': self.broker._accept(oref) # taken immediately for oid in oids: self._ordersrev[oid] = oref # maps ids to backtrader order # An transaction may have happened and was stored tpending = self._transpend[oid] tpending.append(None) # eom marker while True: trans = tpending.popleft() if trans is None: break self._process_transaction(oid, trans) def order_cancel(self, order): self.q_orderclose.put(order.ref) return order def _t_order_cancel(self): while True: oref = self.q_orderclose.get() if oref is None: break oid = self._orders.get(oref, None) if oid is None: continue # the order is no longer there try: o = self.oapi.close_order(self.p.account, oid) except Exception as e: continue # not cancelled - FIXME: notify self.broker._cancel(oref) _X_ORDER_CREATE = ('STOP_ORDER_CREATE', 'LIMIT_ORDER_CREATE', 'MARKET_IF_TOUCHED_ORDER_CREATE',) def _transaction(self, trans): ''' ストリームイベントを拾って、ハンドルする。 Invoked from Streaming Events. May actually receive an event for an oid which has not yet been returned after creating an order. Hence store if not yet seen, else forward to processer ''' ttype = trans['type'] if ttype == 'MARKET_ORDER_CREATE': try: oid = trans['tradeReduced']['id'] except KeyError: try: oid = trans['tradeOpened']['id'] except KeyError: return # cannot do anything else elif ttype in self._X_ORDER_CREATE: oid = trans['id'] elif ttype == 'ORDER_FILLED': oid = trans['orderId'] elif ttype == 'ORDER_CANCEL': oid = trans['orderId'] elif ttype == 'TRADE_CLOSE': oid = trans['id'] pid = trans['tradeId'] if pid in self._orders and False: # Know nothing about trade return # can do nothing # Skip above - at the moment do nothing # Received directly from an event in the WebGUI for example which # closes an existing position related to order with id -> pid # COULD BE DONE: Generate a fake counter order to gracefully # close the existing position msg = ('Received TRADE_CLOSE for unknown order, possibly generated' ' over a different client or GUI') self.put_notification(msg, trans) return else: # Go aways gracefully try: oid = trans['id'] except KeyError: oid = 'None' msg = 'Received {} with oid {}. Unknown situation' msg = msg.format(ttype, oid) self.put_notification(msg, trans) return try: oref = self._ordersrev[oid] self._process_transaction(oid, trans) except KeyError: # not yet seen, keep as pending self._transpend[oid].append(trans) _X_ORDER_FILLED = ('MARKET_ORDER_CREATE', 'ORDER_FILLED', 'TAKE_PROFIT_FILLED', 'STOP_LOSS_FILLED', 'TRAILING_STOP_FILLED',) def _process_transaction(self, oid, trans): try: oref = self._ordersrev.pop(oid) except KeyError: return ttype = trans['type'] if ttype in self._X_ORDER_FILLED: size = trans['units'] if trans['side'] == 'sell': size = -size price = trans['price'] self.broker._fill(oref, size, price, ttype=ttype) elif ttype in self._X_ORDER_CREATE: self.broker._accept(oref) self._ordersrev[oid] = oref elif ttype in 'ORDER_CANCEL': reason = trans['reason'] if reason == 'ORDER_FILLED': pass # individual execs have done the job elif reason == 'TIME_IN_FORCE_EXPIRED': self.broker._expire(oref) elif reason == 'CLIENT_REQUEST': self.broker._cancel(oref) else: # default action ... if nothing else self.broker._reject(oref) # ## KabuSAPICommInfo # In[9]: # WIP # -*- coding: utf-8; py-indent-offset:4 -*- ############################################################################### # # Copyright (C) 2015-2020 Daniel Rodriguez # Copyright (C) 2021 dogwood008 (modified) # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>. # ############################################################################### from __future__ import (absolute_import, division, print_function, unicode_literals) import collections from copy import copy from datetime import date, datetime, timedelta import threading from backtrader.feed import DataBase from backtrader import (TimeFrame, num2date, date2num, BrokerBase, Order, BuyOrder, SellOrder, OrderBase, OrderData) from backtrader.utils.py3 import bytes, with_metaclass, MAXFLOAT from backtrader.metabase import MetaParams from backtrader.comminfo import CommInfoBase from backtrader.position import Position from backtrader.utils import AutoDict, AutoOrderedDict from backtrader.comminfo import CommInfoBase class OandaCommInfo(CommInfoBase): def getvaluesize(self, size, price): # In real life the margin approaches the price return abs(size) * price def getoperationcost(self, size, price): '''Returns the needed amount of cash an operation would cost''' # Same reasoning as above return abs(size) * price KabuSCommInfo = OandaCommInfo class MetaOandaBroker(BrokerBase.__class__): def __init__(cls, name, bases, dct): '''Class has already been created ... register''' # Initialize the class super(MetaOandaBroker, cls).__init__(name, bases, dct) KabuSAPIStore.BrokerCls = cls MetaKabuSBroker = MetaOandaBroker # ## OandaBroker # In[10]: class OandaBroker(with_metaclass(MetaOandaBroker, BrokerBase)): '''Broker implementation for Oanda. This class maps the orders/positions from Oanda to the internal API of ``backtrader``. Params: - ``use_positions`` (default:``True``): When connecting to the broker provider use the existing positions to kickstart the broker. Set to ``False`` during instantiation to disregard any existing position ''' params = ( ('use_positions', True), ('commission', OandaCommInfo(mult=1.0, stocklike=False)), ) def __init__(self, **kwargs): super(OandaBroker, self).__init__() self.o = KabuSAPIStore(**kwargs) self.orders = collections.OrderedDict() # orders by order id self.notifs = collections.deque() # holds orders which are notified self.opending = collections.defaultdict(list) # pending transmission self.brackets = dict() # confirmed brackets self.startingcash = self.cash = 0.0 self.startingvalue = self.value = 0.0 self.positions = collections.defaultdict(Position) def start(self): super(OandaBroker, self).start() self.o.start(broker=self) self.startingcash = self.cash = cash = self.o.get_cash() self.startingvalue = self.value = self.o.get_value() if self.p.use_positions: for p in self.o.get_positions(): print('position for instrument:', p['instrument']) is_sell = p['side'] == 'sell' size = p['units'] if is_sell: size = -size price = p['avgPrice'] self.positions[p['instrument']] = Position(size, price) def data_started(self, data): pos = self.getposition(data) if pos.size < 0: order = SellOrder(data=data, size=pos.size, price=pos.price, exectype=Order.Market, simulated=True) order.addcomminfo(self.getcommissioninfo(data)) order.execute(0, pos.size, pos.price, 0, 0.0, 0.0, pos.size, 0.0, 0.0, 0.0, 0.0, pos.size, pos.price) order.completed() self.notify(order) elif pos.size > 0: order = BuyOrder(data=data, size=pos.size, price=pos.price, exectype=Order.Market, simulated=True) order.addcomminfo(self.getcommissioninfo(data)) order.execute(0, pos.size, pos.price, 0, 0.0, 0.0, pos.size, 0.0, 0.0, 0.0, 0.0, pos.size, pos.price) order.completed() self.notify(order) def stop(self): super(OandaBroker, self).stop() self.o.stop() def getcash(self): # This call cannot block if no answer is available from oanda self.cash = cash = self.o.get_cash() return cash def getvalue(self, datas=None): self.value = self.o.get_value() return self.value def getposition(self, data, clone=True): # return self.o.getposition(data._dataname, clone=clone) pos = self.positions[data._dataname] if clone: pos = pos.clone() return pos def orderstatus(self, order): o = self.orders[order.ref] return o.status def _submit(self, oref): order = self.orders[oref] order.submit(self) self.notify(order) for o in self._bracketnotif(order): o.submit(self) self.notify(o) def _reject(self, oref): order = self.orders[oref] order.reject(self) self.notify(order) self._bracketize(order, cancel=True) def _accept(self, oref): order = self.orders[oref] order.accept() self.notify(order) for o in self._bracketnotif(order): o.accept(self) self.notify(o) def _cancel(self, oref): order = self.orders[oref] order.cancel() self.notify(order) self._bracketize(order, cancel=True) def _expire(self, oref): order = self.orders[oref] order.expire() self.notify(order) self._bracketize(order, cancel=True) def _bracketnotif(self, order): pref = getattr(order.parent, 'ref', order.ref) # parent ref or self br = self.brackets.get(pref, None) # to avoid recursion return br[-2:] if br is not None else [] def _bracketize(self, order, cancel=False): pref = getattr(order.parent, 'ref', order.ref) # parent ref or self br = self.brackets.pop(pref, None) # to avoid recursion if br is None: return if not cancel: if len(br) == 3: # all 3 orders in place, parent was filled br = br[1:] # discard index 0, parent for o in br: o.activate() # simulate activate for children self.brackets[pref] = br # not done - reinsert children elif len(br) == 2: # filling a children oidx = br.index(order) # find index to filled (0 or 1) self._cancel(br[1 - oidx].ref) # cancel remaining (1 - 0 -> 1) else: # Any cancellation cancel the others for o in br: if o.alive(): self._cancel(o.ref) def _fill(self, oref, size, price, ttype, **kwargs): order = self.orders[oref] if not order.alive(): # can be a bracket pref = getattr(order.parent, 'ref', order.ref) if pref not in self.brackets: msg = ('Order fill received for {}, with price {} and size {} ' 'but order is no longer alive and is not a bracket. ' 'Unknown situation') msg.format(order.ref, price, size) self.put_notification(msg, order, price, size) return # [main, stopside, takeside], neg idx to array are -3, -2, -1 if ttype == 'STOP_LOSS_FILLED': order = self.brackets[pref][-2] elif ttype == 'TAKE_PROFIT_FILLED': order = self.brackets[pref][-1] else: msg = ('Order fill received for {}, with price {} and size {} ' 'but order is no longer alive and is a bracket. ' 'Unknown situation') msg.format(order.ref, price, size) self.put_notification(msg, order, price, size) return data = order.data pos = self.getposition(data, clone=False) psize, pprice, opened, closed = pos.update(size, price) comminfo = self.getcommissioninfo(data) closedvalue = closedcomm = 0.0 openedvalue = openedcomm = 0.0 margin = pnl = 0.0 order.execute(data.datetime[0], size, price, closed, closedvalue, closedcomm, opened, openedvalue, openedcomm, margin, pnl, psize, pprice) if order.executed.remsize: order.partial() self.notify(order) else: order.completed() self.notify(order) self._bracketize(order) def _transmit(self, order): oref = order.ref pref = getattr(order.parent, 'ref', oref) # parent ref or self if order.transmit: if oref != pref: # children order # Put parent in orders dict, but add stopside and takeside # to order creation. Return the takeside order, to have 3s takeside = order # alias for clarity parent, stopside = self.opending.pop(pref) for o in parent, stopside, takeside: self.orders[o.ref] = o # write them down self.brackets[pref] = [parent, stopside, takeside] self.o.order_create(parent, stopside, takeside) return takeside # parent was already returned else: # Parent order, which is not being transmitted self.orders[order.ref] = order return self.o.order_create(order) # Not transmitting self.opending[pref].append(order) return order def buy(self, owner, data, size, price=None, plimit=None, exectype=None, valid=None, tradeid=0, oco=None, trailamount=None, trailpercent=None, parent=None, transmit=True, **kwargs): order = BuyOrder(owner=owner, data=data, size=size, price=price, pricelimit=plimit, exectype=exectype, valid=valid, tradeid=tradeid, trailamount=trailamount, trailpercent=trailpercent, parent=parent, transmit=transmit) order.addinfo(**kwargs) order.addcomminfo(self.getcommissioninfo(data)) return self._transmit(order) def sell(self, owner, data, size, price=None, plimit=None, exectype=None, valid=None, tradeid=0, oco=None, trailamount=None, trailpercent=None, parent=None, transmit=True, **kwargs): order = SellOrder(owner=owner, data=data, size=size, price=price, pricelimit=plimit, exectype=exectype, valid=valid, tradeid=tradeid, trailamount=trailamount, trailpercent=trailpercent, parent=parent, transmit=transmit) order.addinfo(**kwargs) order.addcomminfo(self.getcommissioninfo(data)) return self._transmit(order) def cancel(self, order): o = self.orders[order.ref] if order.status == Order.Cancelled: # already cancelled return return self.o.order_cancel(order) def notify(self, order): self.notifs.append(order.clone()) def get_notification(self): if not self.notifs: return None return self.notifs.popleft() def next(self): self.notifs.append(None) # mark notification boundary # ## KabuSBroker # In[11]: KabuSBroker = OandaBroker # In[17]: import pprint from backtrader.feed import DataBase class MetaOandaData(DataBase.__class__): def __init__(cls, name, bases, dct): '''Class has already been created ... register''' # Initialize the class super(MetaOandaData, cls).__init__(name, bases, dct) # Register with the store KabuSAPIStore.DataCls = cls class OandaData(with_metaclass(MetaOandaData, DataBase)): # FIXME def __init__(self, *args, **kwargs): pp = pprint.PrettyPrinter() pp.pprint(args) pp.pprint(kwargs) pp.pprint(f'{self} called.') # ## Test # In[13]: # https://community.backtrader.com/topic/1570/oanda-data-feed class TestStrategy(bt.Strategy): def log(self, txt, dt=None): ''' Logging function for this strategy''' dt = dt or self.datas[0].datetime.date(0) print('%s, %s' % (dt.isoformat(), txt)) def __init__(self): # Keep a reference to the "close" line in the data[0] dataseries self.dataclose = self.datas[0].close def next(self): # Simply log the closing price of the series from the reference self.log('Close, %.2f' % self.dataclose[0]) # In[18]: import os from datetime import datetime if __name__ == '__main__': # Create a cerebro entity cerebro = bt.Cerebro() password = os.environ.get('PASSWORD') # Create oandastore kabusapistore = KabuSAPIStore(password = password) kabusapistore.BrokerCls = KabuSBroker() kabusapistore.DataCls = OandaBroker() # instantiate data data = kabusapistore.getdata(dataname='EUR_USD', compression=1, backfill=False, fromdate=datetime(2018, 1, 1), todate=datetime(2019, 1, 1), qcheck=0.5, timeframe=bt.TimeFrame.Minutes, backfill_start=False, historical=False) # Add the Data Feed to Cerebro cerebro.adddata(data) # Set cash of default broker cerebro.broker.setcash(10000.0) # Add a strategy cerebro.addstrategy(TestStrategy) # Print out the starting conditions print('Starting Portfolio Value: %.2f' % cerebro.broker.getvalue()) # Run over everything cerebro.run() # Print out the final result print('Final Portfolio Value: %.2f' % cerebro.broker.getvalue()) # In[ ]: # In[ ]:
