Overall Statistics
Total Trades
98
Average Win
4.04%
Average Loss
-5.30%
Compounding Annual Return
28.695%
Drawdown
24.000%
Expectancy
0.421
Net Profit
308.165%
Sharpe Ratio
1.053
Probabilistic Sharpe Ratio
38.757%
Loss Rate
19%
Win Rate
81%
Profit-Loss Ratio
0.76
Alpha
0.407
Beta
-0.266
Annual Standard Deviation
0.339
Annual Variance
0.115
Information Ratio
0.411
Tracking Error
0.408
Treynor Ratio
-1.341
Total Fees
$173.00
Estimated Strategy Capacity
$17000000.00
Lowest Capacity Asset
SPY 31UH85N1UNLUU|SPY R735QTJ8XC9X
class FocusedSkyBlueGalago(QCAlgorithm):

    def Initialize(self):
        self.SetStartDate(2016, 1, 2)
        #self.SetEndDate(2009,5,1)

        self.InitCash = 10000
        self.SetCash(self.InitCash)
        self.AddEquity("SPY", Resolution.Minute)
        self.SetWarmUp(5)

        
        # Options Parameters ===================================
        spy = self.AddEquity("SPY", Resolution.Minute)
        qqq = self.AddEquity("QQQ", Resolution.Minute)
        tqqq = self.AddEquity("TQQQ", Resolution.Minute)
        spy.SetDataNormalizationMode(DataNormalizationMode.Raw)
        qqq.SetDataNormalizationMode(DataNormalizationMode.Raw)
        tqqq.SetDataNormalizationMode(DataNormalizationMode.Raw)
        self.spy = spy.Symbol
        self.qqq = qqq.Symbol
        self.tqqq = tqqq.Symbol
        self.spycontract = None
        self.tqqqcontract = None
        
        # Rebalance beginning of every month =======================
        self.Schedule.On(self.DateRules.MonthStart("SPY"), self.TimeRules.AfterMarketOpen("SPY", 1), self.monthlyRebalance)
        self.Schedule.On(self.DateRules.EveryDay("SPY"), self.TimeRules.AfterMarketOpen("SPY", 1), self.captureSpy)
        
        #Variables used in stoploss=================================
        self.stoplosshold = 0
        self.dailythresh = 0
        
        # Setting Brokerage Model to allow for live deployment
        self.SetBrokerageModel(BrokerageName.AlphaStreams)

        
    def OnData(self, data):
        ''' OnData event is the primary entry point for your algorithm. Each new data point will be pumped in here.
            Arguments:
                data: Slice object keyed by symbol containing the stock data
        '''
        
        if self.IsWarmingUp:
            return
        
        # Begin Stoploss Logic
        self.stoploss(data)
        
        if self.stoplosshold == 1:
            self.SetHoldings(self.spy, 0)
            self.SetHoldings(self.qqq, 0)
        else:
            if not self.Portfolio.Invested:
                self.SetHoldings(self.spy, .60)
                self.SetHoldings(self.qqq, .30)
        # End Stoploss Logic
        
        '''
        Begin Hedging On Data
        1. Purchase Hedges
        2. Liquidate and Purchase New Hedges for Time value
        3. Invest 
        '''
        # 1. Purchase Hedges 
        if self.spycontract is None:
            self.spycontract = self.GetSpy()
            return
        if self.tqqqcontract is None:
            self.tqqqcontract = self.GetTqqq()
            return
        
        #Liquidate and Purchase New Hedges for Time value
        if (self.spycontract.ID.Date - self.Time).days < 180:
            self.Liquidate(self.spycontract)
            self.RemoveSecurity(self.spycontract)
            self.spycontract = None
            return
        
        if (self.tqqqcontract.ID.Date - self.Time).days < 180:
            self.Liquidate(self.tqqqcontract)
            self.RemoveSecurity(self.tqqqcontract)
            self.tqqqcontract = None
            return
        
        
        #Purchase LongPut Contracts
        if not self.Portfolio[self.spycontract].Invested:
            self.SetHoldings(self.spycontract, 0.06)
            
        if not self.Portfolio[self.tqqqcontract].Invested:    
                self.SetHoldings(self.tqqqcontract,  0.04)
        

        #Exercise Contracts when they increase a certain % in intrinsic value
        if  self.Securities[self.spy].Price < self.spycontract.ID.StrikePrice * 1.2:
            self.Liquidate(self.spycontract)
            self.RemoveSecurity(self.spycontract)
        
        if  self.Securities[self.tqqq].Price < self.tqqqcontract.ID.StrikePrice * 1.2:    
            self.Liquidate(self.tqqqcontract)
            self.RemoveSecurity(self.tqqqcontract)
        #End hedging Logic




    def GetSpy(self):
        # Target strike as 40% OTM long put 
        targetStrike = (self.Securities[self.spy].Price * 0.60) - (self.Securities[self.spy].Price * 0.60)%5
        contracts = self.OptionChainProvider.GetOptionContractList(self.spy, self.Time)
        puts = [x for x in contracts if x.ID.OptionRight == OptionRight.Put]
        puts = sorted( sorted(puts, key = lambda x: x.ID.Date, reverse = True),
                       key = lambda x: x.ID.StrikePrice)
        puts = [x for x in puts if x.ID.StrikePrice == targetStrike]
        puts = [x for x in puts if 270 < (x.ID.Date - self.Time).days <= 420]
        if len(puts) == 0:
            self.Log("No SPY Puts")
            return None
        self.AddOptionContract(puts[0], Resolution.Minute)
        return puts[0]


    def GetTqqq(self):
        # Target strike as 40% OTM long put 
        targetStrike = (self.Securities[self.tqqq].Price * 0.60) - (self.Securities[self.tqqq].Price * 0.60)%5
        contracts = self.OptionChainProvider.GetOptionContractList(self.tqqq, self.Time)
        puts = [x for x in contracts if x.ID.OptionRight == OptionRight.Put]
        puts = sorted( sorted(puts, key = lambda x: x.ID.Date, reverse = True),
                       key = lambda x: x.ID.StrikePrice)
        # SHILE ADDITION
        # below will get exact strike price if possible, else get closest
        puts = sorted(puts, key=lambda x: abs(x.ID.StrikePrice - targetStrike))
        puts = [x for x in puts if 270 < (x.ID.Date - self.Time).days <= 420]
        if len(puts) == 0:
            puts = sorted(puts, key = lambda x: x.ID.Date, reverse=True)
        if len(puts) == 0:
            return None
        self.AddOptionContract(puts[0], Resolution.Minute)
        return puts[0]





    def captureSpy(self):
        #Grabs the daily opening price of spy for our stoploss method
        if self.CurrentSlice.Bars.ContainsKey(self.spy):
            self.dailythresh = self.CurrentSlice[self.spy].Open
            self.stoplosshold = 0
            return
          
            
    def monthlyRebalance(self):
        # Rebalance portfolio monthly basis
        if self.IsWarmingUp:
            return
        
        self.SetHoldings(self.spy, 0.60)
        self.SetHoldings(self.qqq, 0.30)
        return   
    
    
    def stoploss(self, data):
        '''
        Stoploss logic:
            1. If spy drops more than 5% liquidate entire equity portfolio
            2. Change stoplosshold value to 1, this indicates that the portfolios SL has been hit 
            and were going to hold until the next trading day
        '''
        if self.IsWarmingUp:
            return
        if self.CurrentSlice.Bars.ContainsKey(self.spy):
            #self.Debug((self.dailythresh - self.CurrentSlice[self.spy].Close)/self.CurrentSlice[self.spy].Close)
            if ((self.dailythresh - self.CurrentSlice[self.spy].Open)/self.dailythresh) < -.05:
                self.SetHoldings(self.spy, 0)
                self.SetHoldings(self.qqq, 0)
                self.stoplosshold = 1
                self.Log('HIT')