| Overall Statistics |
|
Total Trades 0 Average Win 0% Average Loss 0% Compounding Annual Return 0% Drawdown 0% Expectancy 0 Net Profit 0% Sharpe Ratio 0 Probabilistic Sharpe Ratio 0% Loss Rate 0% Win Rate 0% Profit-Loss Ratio 0 Alpha 0 Beta 0 Annual Standard Deviation 0 Annual Variance 0 Information Ratio -6.246 Tracking Error 0.102 Treynor Ratio 0 Total Fees $0.00 |
# QUANTCONNECT.COM - Democratizing Finance, Empowering Individuals.
# Lean Algorithmic Trading Engine v2.0. Copyright 2014 QuantConnect Corporation.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from clr import AddReference
AddReference("System")
AddReference("QuantConnect.Algorithm")
AddReference("QuantConnect.Algorithm.Framework")
AddReference("QuantConnect.Common")
from System import *
from QuantConnect import *
from QuantConnect.Orders import *
from QuantConnect.Securities import *
from QuantConnect.Algorithm import *
from QuantConnect.Algorithm.Framework import *
from QuantConnect.Algorithm.Framework.Alphas import *
from QuantConnect.Algorithm.Framework.Portfolio import *
from QuantConnect.Algorithm.Framework.Selection import *
from Alphas.ConstantAlphaModel import ConstantAlphaModel
from Selection.FutureUniverseSelectionModel import FutureUniverseSelectionModel
from QuantConnect.Algorithm.Framework.Execution import *
from QuantConnect.Algorithm.Framework.Risk import *
from datetime import date, timedelta
### <summary>
### Basic template futures framework algorithm uses framework components
### to define an algorithm that trades futures.
### </summary>
class BasicTemplateFuturesFrameworkAlgorithm(QCAlgorithm):
def Initialize(self):
self.UniverseSettings.Resolution = Resolution.Minute
self.SetStartDate(2020, 7, 20)
#self.SetEndDate(2020, 7, 21)
self.SetCash(100000)
self.SetTimeZone("America/New_York")
# set framework models
self.SetUniverseSelection(FrontMonthFutureUniverseSelectionModel(self.SelectFutureChainSymbols))
self.SetAlpha(MyAlphaModel(self))
self.SetPortfolioConstruction(SingleSharePortfolioConstructionModel())
self.SetExecution(ImmediateExecutionModel())
self.SetRiskManagement(NullRiskManagementModel())
def SelectFutureChainSymbols(self, utcTime):
return [ Symbol.Create(Futures.Indices.SP500EMini, SecurityType.Future, Market.CME) ]
class FrontMonthFutureUniverseSelectionModel(FutureUniverseSelectionModel):
'''Creates futures chain universes that select the front month contract and runs a user
defined futureChainSymbolSelector every day to enable choosing different futures chains'''
def __init__(self, select_future_chain_symbols):
super().__init__(timedelta(1), select_future_chain_symbols)
def Filter(self, filter):
'''Defines the futures chain universe filter'''
return (filter.FrontMonth()
.OnlyApplyFilterAtMarketOpen())
class MyAlphaModel(AlphaModel):
indicator_value = None
def __init__(self, algorithm):
self.algo = algorithm
def Update(self, algorithm, slice):
return []
if (algorithm.Time.minute == 0 and algorithm.Time.second == 0):
algorithm.Log("indicator: " + str(self.indicator_value))
if not (algorithm.Time.hour == 1 and algorithm.Time.minute == 0 and algorithm.Time.second == 0):
return []
algorithm.Plot("Custom", "Indicator", self.indicator_value)
insights = []
for symbol in slice.Keys:
if symbol.SecurityType != SecurityType.Future:
continue
if self.indicator_value is not None:
if self.indicator_value < 0.2:
insights.append(Insight.Price(symbol, timedelta(minutes=179), InsightDirection.Up))
if self.indicator_value > 0.8:
insights.append(Insight.Price(symbol, timedelta(minutes=179), InsightDirection.Down))
return insights
def OnSecuritiesChanged(self, algorithm, changes):
for security in changes.RemovedSecurities:
algorithm.SubscriptionManager.RemoveConsolidator(self.symbol, self.myConsolidator)
for security in changes.AddedSecurities:
self.symbol = security.Symbol
algorithm.Consolidate(self.symbol, timedelta(1), self.ConsolidationHandler)
def ConsolidationHandler(self, consolidated):
self.UpdateIndicatorValue(consolidated.High, consolidated.Low, consolidated.Close)
def UpdateIndicatorValue(self, high, low, close):
if high != low:
self.indicator_value = (close - low) / (high - low)
else:
self.indicator_value = None
class SingleSharePortfolioConstructionModel(PortfolioConstructionModel):
all_insights = []
def CreateTargets(self, algorithm, insights):
targets = []
active_symbols = []
expired_symbols = []
active_insights = []
while len(self.all_insights) > 0:
insight = self.all_insights.pop()
symbol = insight.Symbol
if insight.IsActive(algorithm.UtcTime):
active_insights.append(insight)
if symbol not in active_symbols:
active_symbols.append(symbol)
else:
if symbol not in expired_symbols:
expired_symbols.append(symbol)
for insight in insights:
active_insights.append(insight)
if insight.Symbol not in active_symbols:
active_symbols.append(insight.Symbol)
self.all_insights = active_insights
liquidate_symbols = [ symbol for symbol in expired_symbols if symbol not in active_symbols ]
for symbol in active_symbols:
targets.append(PortfolioTarget(symbol, 1))
for symbol in liquidate_symbols:
targets.append(PortfolioTarget(symbol, 0))
return targets