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dual_moving_average.py
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dual_moving_average.py
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#!/usr/bin/env python
#
# Copyright 2014 Quantopian, Inc.
#
# 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.
"""Dual Moving Average Crossover algorithm.
This algorithm buys apple once its short moving average crosses
its long moving average (indicating upwards momentum) and sells
its shares once the averages cross again (indicating downwards
momentum).
"""
from zipline.api import order_target, record, symbol
from zipline.finance import commission
def initialize(context):
context.sym = symbol('AAPL')
context.i = 0
# Explicitly set the commission to the "old" value until we can
# rebuild example data.
# github.com/quantopian/zipline/blob/master/tests/resources/
# rebuild_example_data#L105
context.set_commission(commission.PerShare(cost=.0075, min_trade_cost=1.0))
def handle_data(context, data):
# Skip first 300 days to get full windows
context.i += 1
if context.i < 300:
return
# Compute averages
# history() has to be called with the same params
# from above and returns a pandas dataframe.
short_mavg = data.history(context.sym, 'price', 100, '1d').mean()
long_mavg = data.history(context.sym, 'price', 300, '1d').mean()
# Trading logic
if short_mavg > long_mavg:
# order_target orders as many shares as needed to
# achieve the desired number of shares.
order_target(context.sym, 100)
elif short_mavg < long_mavg:
order_target(context.sym, 0)
# Save values for later inspection
record(AAPL=data.current(context.sym, "price"),
short_mavg=short_mavg,
long_mavg=long_mavg)
# Note: this function can be removed if running
# this algorithm on quantopian.com
def analyze(context=None, results=None):
import matplotlib.pyplot as plt
import logbook
logbook.StderrHandler().push_application()
log = logbook.Logger('Algorithm')
fig = plt.figure()
ax1 = fig.add_subplot(211)
results.portfolio_value.plot(ax=ax1)
ax1.set_ylabel('Portfolio value (USD)')
ax2 = fig.add_subplot(212)
ax2.set_ylabel('Price (USD)')
# If data has been record()ed, then plot it.
# Otherwise, log the fact that no data has been recorded.
if ('AAPL' in results and 'short_mavg' in results and
'long_mavg' in results):
results['AAPL'].plot(ax=ax2)
results[['short_mavg', 'long_mavg']].plot(ax=ax2)
trans = results.ix[[t != [] for t in results.transactions]]
buys = trans.ix[[t[0]['amount'] > 0 for t in
trans.transactions]]
sells = trans.ix[
[t[0]['amount'] < 0 for t in trans.transactions]]
ax2.plot(buys.index, results.short_mavg.ix[buys.index],
'^', markersize=10, color='m')
ax2.plot(sells.index, results.short_mavg.ix[sells.index],
'v', markersize=10, color='k')
plt.legend(loc=0)
else:
msg = 'AAPL, short_mavg & long_mavg data not captured using record().'
ax2.annotate(msg, xy=(0.1, 0.5))
log.info(msg)
plt.show()
def _test_args():
"""Extra arguments to use when zipline's automated tests run this example.
"""
import pandas as pd
return {
'start': pd.Timestamp('2011', tz='utc'),
'end': pd.Timestamp('2013', tz='utc'),
}