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value-book-to-market-factor.py
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value-book-to-market-factor.py
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# https://quantpedia.com/strategies/value-book-to-market-factor/
#
# The investment universe contains all NYSE, AMEX, and NASDAQ stocks. To represent “value” investing, HML portfolio goes long high book-to-price stocks and short,
# low book-to-price stocks. In this strategy, we show the results for regular HML which is simply the average of the portfolio returns of HML small (which goes long
# cheap and short expensive only among small stocks) and HML large (which goes long cheap and short expensive only among large caps). The portfolio is equal-weighted
# and rebalanced monthly.
#
# QC implementation changes:
# - Instead of all listed stock, we select top 3000 stocks by market cap from QC stock universe.
from AlgorithmImports import *
class Value(QCAlgorithm):
def Initialize(self):
self.SetStartDate(2000, 1, 1)
self.SetCash(100000)
self.symbol = self.AddEquity('SPY', Resolution.Daily).Symbol
self.coarse_count = 3000
self.long = []
self.short = []
self.month = 12
self.selection_flag = False
self.UniverseSettings.Resolution = Resolution.Daily
self.AddUniverse(self.CoarseSelectionFunction, self.FineSelectionFunction)
self.Schedule.On(self.DateRules.MonthEnd(self.symbol), self.TimeRules.AfterMarketOpen(self.symbol), self.Selection)
def OnSecuritiesChanged(self, changes):
for security in changes.AddedSecurities:
security.SetFeeModel(CustomFeeModel())
security.SetLeverage(5)
def CoarseSelectionFunction(self, coarse):
if not self.selection_flag:
return Universe.Unchanged
selected = [x.Symbol for x in coarse if x.HasFundamentalData and x.Market == 'usa']
return selected
def FineSelectionFunction(self, fine):
sorted_by_market_cap = sorted([x for x in fine if x.ValuationRatios.PBRatio != 0 and \
((x.SecurityReference.ExchangeId == "NYS") or (x.SecurityReference.ExchangeId == "NAS") or (x.SecurityReference.ExchangeId == "ASE"))],
key = lambda x:x.MarketCap, reverse=True)
top_by_market_cap = [x for x in sorted_by_market_cap[:self.coarse_count]]
sorted_by_pb = sorted(top_by_market_cap, key = lambda x:(x.ValuationRatios.PBRatio), reverse=False)
quintile = int(len(sorted_by_pb) / 5)
self.long = [i.Symbol for i in sorted_by_pb[:quintile]]
self.short = [i.Symbol for i in sorted_by_pb[-quintile:]]
return self.long + self.short
def OnData(self, data):
if not self.selection_flag:
return
self.selection_flag = False
# Trade execution.
stocks_invested = [x.Key for x in self.Portfolio if x.Value.Invested]
for symbol in stocks_invested:
if symbol not in self.long + self.short:
self.Liquidate(symbol)
# Leveraged portfolio - 100% long, 100% short.
for symbol in self.long:
self.SetHoldings(symbol, 1 / len(self.long))
for symbol in self.short:
self.SetHoldings(symbol, -1 / len(self.short))
self.long.clear()
self.short.clear()
def Selection(self):
if self.month == 12:
self.selection_flag = True
self.month += 1
if self.month > 12:
self.month = 1
# Custom fee model.
class CustomFeeModel(FeeModel):
def GetOrderFee(self, parameters):
fee = parameters.Security.Price * parameters.Order.AbsoluteQuantity * 0.00005
return OrderFee(CashAmount(fee, "USD"))