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accrual-anomaly.py
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accrual-anomaly.py
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# https://quantpedia.com/strategies/accrual-anomaly/
#
# The investment universe consists of all stocks on NYSE, AMEX, and NASDAQ. Balance sheet based accruals (the non-cash component of
# earnings) are calculated as: BS_ACC = ( ∆CA – ∆Cash) – ( ∆CL – ∆STD – ∆ITP) – Dep
# Where:
# ∆CA = annual change in current assets
# ∆Cash = change in cash and cash equivalents
# ∆CL = change in current liabilities
# ∆STD = change in debt included in current liabilities
# ∆ITP = change in income taxes payable
# Dep = annual depreciation and amortization expense
# Stocks are then sorted into deciles and investor goes long stocks with the lowest accruals and short stocks with the highest accruals.
# The portfolio is rebalanced yearly during May (after all companies publish their earnings).
from AlgorithmImports import *
class AccrualAnomaly(QCAlgorithm):
def Initialize(self):
self.SetStartDate(2006, 1, 1)
self.SetCash(100000)
self.symbol = self.AddEquity("SPY", Resolution.Daily).Symbol
self.coarse_count = 1000
self.long = []
self.short = []
# Latest accruals data.
self.accrual_data = {}
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)
for security in changes.RemovedSecurities:
symbol = security.Symbol
if symbol in self.accrual_data:
del self.accrual_data[symbol]
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']
selected = [x.Symbol
for x in sorted([x for x in coarse if x.HasFundamentalData and x.Market == 'usa'],
key = lambda x: x.DollarVolume, reverse = True)[:self.coarse_count]]
return selected
def FineSelectionFunction(self, fine):
fine = [x for x in fine if (float(x.FinancialStatements.BalanceSheet.CurrentAssets.TwelveMonths) != 0)
and (float(x.FinancialStatements.BalanceSheet.CashAndCashEquivalents.TwelveMonths) != 0)
and (float(x.FinancialStatements.BalanceSheet.CurrentLiabilities.TwelveMonths) != 0)
and (float(x.FinancialStatements.BalanceSheet.CurrentDebt.TwelveMonths) != 0)
and (float(x.FinancialStatements.BalanceSheet.IncomeTaxPayable.TwelveMonths) != 0)
and (float(x.FinancialStatements.IncomeStatement.DepreciationAndAmortization.TwelveMonths) != 0)]
if len(fine) > self.coarse_count:
sorted_by_market_cap = sorted(fine, key = lambda x: x.MarketCap, reverse=True)
top_by_market_cap = sorted_by_market_cap[:self.coarse_count]
else:
top_by_market_cap = fine
accruals = {}
for stock in top_by_market_cap:
symbol = stock.Symbol
if symbol not in self.accrual_data:
self.accrual_data[symbol] = None
# Accrual calc.
current_accruals_data = AccrualsData(stock.FinancialStatements.BalanceSheet.CurrentAssets.TwelveMonths, stock.FinancialStatements.BalanceSheet.CashAndCashEquivalents.TwelveMonths,
stock.FinancialStatements.BalanceSheet.CurrentLiabilities.TwelveMonths, stock.FinancialStatements.BalanceSheet.CurrentDebt.TwelveMonths, stock.FinancialStatements.BalanceSheet.IncomeTaxPayable.TwelveMonths,
stock.FinancialStatements.IncomeStatement.DepreciationAndAmortization.TwelveMonths, stock.FinancialStatements.BalanceSheet.TotalAssets.TwelveMonths)
# There is not previous accrual data.
if not self.accrual_data[symbol]:
self.accrual_data[symbol] = current_accruals_data
continue
# Accruals and market cap calc.
acc = self.CalculateAccruals(current_accruals_data, self.accrual_data[symbol])
accruals[symbol] = acc
# Update accruals data.
self.accrual_data[symbol] = current_accruals_data
# Accruals sorting.
sorted_by_accruals = sorted(accruals.items(), key = lambda x: x[1], reverse = True)
decile = int(len(sorted_by_accruals) / 10)
self.long = [x[0] for x in sorted_by_accruals[-decile:]]
self.short = [x[0] for x in sorted_by_accruals[:decile]]
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.Liquidate(symbol)
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.Time.month == 4:
self.selection_flag = True
def CalculateAccruals(self, current_accrual_data, prev_accrual_data):
delta_assets = current_accrual_data.CurrentAssets - prev_accrual_data.CurrentAssets
delta_cash = current_accrual_data.CashAndCashEquivalents - prev_accrual_data.CashAndCashEquivalents
delta_liabilities = current_accrual_data.CurrentLiabilities - prev_accrual_data.CurrentLiabilities
delta_debt = current_accrual_data.CurrentDebt - prev_accrual_data.CurrentDebt
delta_tax = current_accrual_data.IncomeTaxPayable - prev_accrual_data.IncomeTaxPayable
dep = current_accrual_data.DepreciationAndAmortization
avg_total = (current_accrual_data.TotalAssets + prev_accrual_data.TotalAssets) / 2
bs_acc = ((delta_assets - delta_cash) - (delta_liabilities - delta_debt - delta_tax) - dep) / avg_total
return bs_acc
class AccrualsData():
def __init__(self, current_assets, cash_and_cash_equivalents, current_liabilities, current_debt, income_tax_payable, depreciation_and_amortization, total_assets):
self.CurrentAssets = current_assets
self.CashAndCashEquivalents = cash_and_cash_equivalents
self.CurrentLiabilities = current_liabilities
self.CurrentDebt = current_debt
self.IncomeTaxPayable = income_tax_payable
self.DepreciationAndAmortization = depreciation_and_amortization
self.TotalAssets = total_assets
# Custom fee model.
class CustomFeeModel(FeeModel):
def GetOrderFee(self, parameters):
fee = parameters.Security.Price * parameters.Order.AbsoluteQuantity * 0.00005
return OrderFee(CashAmount(fee, "USD"))