def setUp(self):
self.t1 = TickerFactory.create(symbol='SPY', unit_price=5)
self.t2 = TickerFactory.create(symbol='VEA', unit_price=5)
self.t3 = TickerFactory.create(symbol='TIP', unit_price=100)
self.t4 = TickerFactory.create(symbol='IEV', unit_price=100)
self.t5 = TickerFactory.create(symbol='IEV2',
unit_price=100,
asset_class=self.t4.asset_class)
self.equity = AssetFeatureValueFactory.create(
name='equity', assets=[self.t1, self.t2])
self.bond = AssetFeatureValueFactory.create(name='bond',
assets=[self.t3, self.t4])
self.goal_settings = GoalSettingFactory.create()
asset_classes = [
self.t1.asset_class, self.t2.asset_class, self.t3.asset_class,
self.t4.asset_class
]
portfolio_set = PortfolioSetFactory.create(name='set',
risk_free_rate=0.01,
asset_classes=asset_classes)
self.goal = GoalFactory.create(approved_settings=self.goal_settings,
active_settings=self.goal_settings,
cash_balance=100,
portfolio_set=portfolio_set)
self.tickers = [self.t1, self.t2, self.t3, self.t4, self.t4]
self.prices = [4, 4, 90, 90, 95]
self.quantities = [5, 5, 5, 5, 5]
self.executed = [
date(2015, 1, 1),
date(2016, 1, 1),
date(2015, 1, 1),
date(2016, 1, 1),
date(2016, 1, 1)
]
self.execution_details = []
for i in range(5):
execution = Fixture1.create_execution_details(
self.goal, self.tickers[i], self.quantities[i], self.prices[i],
self.executed[i])
self.execution_details.append(execution)
self.data_provider = DataProviderDjango(mocked_now.date())
self.execution_provider = ExecutionProviderDjango()
MarkowitzScaleFactory.create()
self.setup_performance_history()
self.idata = get_instruments(self.data_provider)
self.portfolio = PortfolioFactory.create(setting=self.goal_settings)
self.current_weights = get_held_weights(self.goal)
def test_calculate_portfolio_old(self):
fund0 = TickerFactory.create(symbol='IAGG')
fund1 = TickerFactory.create(symbol='ITOT')
fund5 = TickerFactory.create(symbol='GRFXX')
fund2 = TickerFactory.create(symbol='VEA')
fund0 = TickerFactory.create(symbol='IPO')
fund3 = TickerFactory.create(symbol='EEM')
fund4 = TickerFactory.create(symbol='AGG')
AssetFeatureValueFactory.create(
assets=[fund1, fund2, fund3, fund4, fund5])
ps1 = PortfolioSetFactory \
.create(asset_classes=[fund1.asset_class, fund2.asset_class, fund3.asset_class, fund4.asset_class, fund5.asset_class])
# Create a settings object with a metric for a feature with no instruments in the current portfolio set.
feature = AssetFeatureValueFactory.create()
settings = GoalSettingFactory.create()
risk_metric = GoalMetricFactory.create(group=settings.metric_group)
mix_metric = GoalMetricFactory.create(
group=settings.metric_group,
type=GoalMetric.METRIC_TYPE_PORTFOLIO_MIX,
feature=feature,
comparison=GoalMetric.METRIC_COMPARISON_MAXIMUM,
configured_val=.3)
goal = GoalFactory.create(selected_settings=settings,
portfolio_set=ps1)
# The below fund has the desired feature, but is not in the goal's portfolio set.
feature.assets.add(fund1)
# Create some instrument data for the two assets
self.m_scale = MarkowitzScaleFactory.create()
# populate the data needed for the prediction
# We need at least 500 days as the cycles go up to 70 days and we need at least 7 cycles.
populate_prices(500, asof=mocked_now.date())
populate_cycle_obs(500, asof=mocked_now.date())
populate_cycle_prediction(asof=mocked_now.date())
data_provider = DataProviderDjango()
execution_provider = ExecutionProviderDjango()
idata = build_instruments(data_provider)
result = calculate_portfolio_old(settings=settings,
data_provider=data_provider,
execution_provider=execution_provider,
idata=idata)
self.assertTrue(True)
def test_calculate_portfolio(self):
# TODO
# constraints -> limit them -> maximum minimum value of 5%, maximum max value of 95%
asset_class1 = AssetClassFactory.create(name='US_TOTAL_BOND_MARKET')
asset_class2 = AssetClassFactory.create(name='HEDGE_FUNDS')
fund0 = TickerFactory.create(symbol='IAGG', asset_class=asset_class1)
fund0 = TickerFactory.create(symbol='GRFXX', asset_class=asset_class1)
fund1 = TickerFactory.create(symbol='ITOT', asset_class=asset_class2)
fund0 = TickerFactory.create(symbol='IPO')
fund0 = TickerFactory.create(symbol='AGG', asset_class=asset_class1)
fund6 = TickerFactory.create(symbol='rest')
ps1 = PortfolioSetFactory \
.create(asset_classes=[asset_class1, asset_class2, fund6.asset_class])
feature = AssetFeatureValueFactory.create()
feature.assets.add(fund6)
settings = GoalSettingFactory.create()
risk_metric = GoalMetricFactory.create(
group=settings.metric_group,
type=GoalMetric.METRIC_TYPE_RISK_SCORE)
mix_metric = GoalMetricFactory.create(
group=settings.metric_group,
type=GoalMetric.METRIC_TYPE_PORTFOLIO_MIX,
feature=feature,
comparison=GoalMetric.METRIC_COMPARISON_MINIMUM,
configured_val=0.5)
goal = GoalFactory.create(selected_settings=settings,
portfolio_set=ps1)
# Create some instrument data for the two assets
self.m_scale = MarkowitzScaleFactory.create()
populate_prices(500, asof=mocked_now.date())
populate_cycle_obs(500, asof=mocked_now.date())
populate_cycle_prediction(asof=mocked_now.date())
data_provider = DataProviderDjango()
execution_provider = ExecutionProviderDjango()
idata = build_instruments(data_provider)
result = calculate_portfolio(settings=settings,
data_provider=data_provider,
execution_provider=execution_provider,
idata=idata)
self.assertTrue(True)
def setUp(self):
self.t1 = TickerFactory.create(symbol='SPY', unit_price=5)
self.t2 = TickerFactory.create(symbol='VEA', unit_price=5)
self.t3 = TickerFactory.create(symbol='TIP', unit_price=100)
self.t4 = TickerFactory.create(symbol='IEV', unit_price=100)
self.equity = AssetFeatureValueFactory.create(
name='equity', assets=[self.t1, self.t2])
self.bond = AssetFeatureValueFactory.create(name='bond',
assets=[self.t3, self.t4])
self.goal_settings = GoalSettingFactory.create()
asset_classes = [
self.t1.asset_class, self.t2.asset_class, self.t3.asset_class,
self.t4.asset_class
]
portfolio_set = PortfolioSetFactory.create(name='set',
risk_free_rate=0.01,
asset_classes=asset_classes)
self.goal = GoalFactory.create(approved_settings=self.goal_settings,
cash_balance=100,
portfolio_set=portfolio_set)
Fixture1.create_execution_details(self.goal, self.t1, 5, 4,
date(2016, 1, 1))
Fixture1.create_execution_details(self.goal, self.t2, 5, 4,
date(2016, 1, 1))
Fixture1.create_execution_details(self.goal, self.t3, 5, 90,
date(2016, 1, 1))
Fixture1.create_execution_details(self.goal, self.t4, 5, 90,
date(2016, 1, 1))
Fixture1.create_execution_details(self.goal, self.t4, 5, 90,
date(2016, 1, 1))
self.data_provider = DataProviderDjango()
self.execution_provider = ExecutionProviderDjango()
MarkowitzScaleFactory.create()
self.setup_performance_history()
self.idata = get_instruments(self.data_provider)
def initialize_backtest(cls, tickers):
ticker_list = list()
equity_asset_class = AssetClassFactory\
.create(name='US_MUNICIPAL_BONDS', investment_type=InvestmentTypeFactory.create(name='US_MUNICIPAL_BONDS'))
for t in tickers:
market_index = MarketIndexFactory.create()
ticker = TickerFactory.create(symbol=t,
asset_class=equity_asset_class,
benchmark=market_index)
ticker_list.append(ticker)
portfolio_set = PortfolioSetFactory.create(
name='portfolio_set1',
risk_free_rate=0.02,
asset_classes=[equity_asset_class],
portfolio_provider=get_default_provider())
goal_settings = GoalSettingFactory.create(
target=100000,
completion=datetime.date(2000, 1, 1),
hedge_fx=False,
rebalance=True,
)
goal_metric = GoalMetricFactory.create(
group=goal_settings.metric_group,
type=GoalMetric.METRIC_TYPE_RISK_SCORE)
PortfolioFactory.create(setting=goal_settings)
#GoalMetricGroupFactory.create()
return GoalFactory.create(account=Fixture1.personal_account1(),
name='goal1',
type=Fixture1.goal_type1(),
cash_balance=10000,
approved_settings=goal_settings,
selected_settings=goal_settings,
active_settings=goal_settings,
portfolio_set=portfolio_set)
def test_calc_opt_inputs_no_assets_for_constraint(self):
"""
Makes sure when we have no assets filling a constraint, we behave appropriately.
"""
# This fund has a different feature to the one in the mix metric, but it is in the correct portfolio set.
fund1 = TickerFactory.create()
AssetFeatureValueFactory.create(assets=[fund1])
ps1 = PortfolioSetFactory.create(asset_classes=[fund1.asset_class])
# Create a settings object with a metric for a feature with no instruments in the current portfolio set.
feature = AssetFeatureValueFactory.create()
settings = GoalSettingFactory.create()
risk_metric = GoalMetricFactory.create(group=settings.metric_group)
mix_metric = GoalMetricFactory.create(
group=settings.metric_group,
type=GoalMetric.METRIC_TYPE_PORTFOLIO_MIX,
feature=feature,
comparison=GoalMetric.METRIC_COMPARISON_MAXIMUM,
configured_val=.3)
goal = GoalFactory.create(selected_settings=settings,
portfolio_set=ps1)
# The below fund has the desired feature, but is not in the goal's portfolio set.
fund2 = TickerFactory.create()
feature.assets.add(fund2)
# Create some instrument data for the two assets
self.m_scale = MarkowitzScaleFactory.create()
# populate the data needed for the prediction
# We need at least 500 days as the cycles go up to 70 days and we need at least 7 cycles.
populate_prices(500, asof=mocked_now.date())
populate_cycle_obs(500, asof=mocked_now.date())
populate_cycle_prediction(asof=mocked_now.date())
data_provider = DataProviderDjango()
idata = build_instruments(data_provider)
execution_provider = ExecutionProviderDjango()
# Get the opt inputs, there should be no constraint for the max for the feature with no funds.
result = calc_opt_inputs(settings=settings,
idata=idata,
data_provider=data_provider,
execution_provider=execution_provider)
xs, lam, constraints, settings_instruments, settings_symbol_ixs, lcovars = result
self.assertEqual(len(constraints), 3) # All positive, and sum to 1
# Then create a fund in the portfolio I want. We should get a constraint for the maximum for the feature.
fund3 = TickerFactory.create(asset_class=fund1.asset_class)
feature.assets.add(fund3)
delete_data()
populate_prices(500, asof=mocked_now.date())
populate_cycle_obs(500, asof=mocked_now.date())
populate_cycle_prediction(asof=mocked_now.date())
idata = build_instruments(data_provider)
result = calc_opt_inputs(settings=settings,
idata=idata,
data_provider=data_provider,
execution_provider=execution_provider)
xs, lam, constraints, settings_instruments, settings_symbol_ixs, lcovars = result
self.assertEqual(len(constraints),
4) # All positive, sum to 1, and the max constraint