/*
* QUANTCONNECT.COM - Democratizing Finance, Empowering Individuals.
* Lean Algorithmic Trading Engine v2.0. Copyright 2014 QuantConnect Corporation.
*
* 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.
*/
using QuantConnect.Algorithm.Framework.Selection;
using QuantConnect.Algorithm.Selection;
using QuantConnect.Data;
using QuantConnect.Data.Market;
using QuantConnect.Data.UniverseSelection;
using QuantConnect.Interfaces;
using System;
using System.Collections.Generic;
using System.Linq;
namespace QuantConnect.Algorithm.CSharp
{
///
/// Regression algorithm to test the OptionChainedUniverseSelectionModel class
///
public class OptionChainedUniverseSelectionModelRegressionAlgorithm: QCAlgorithm, IRegressionAlgorithmDefinition
{
public override void Initialize()
{
UniverseSettings.Resolution = Resolution.Minute;
SetStartDate(2014, 6, 6);
SetEndDate(2014, 6, 6);
SetCash(100000);
var universe = AddUniverse("my-minute-universe-name", time => new List { "AAPL", "TWX" });
AddUniverseSelection(new OptionChainedUniverseSelectionModel(universe, u => u.Strikes(-2, +2)
// Expiration method accepts TimeSpan objects or integer for days.
// The following statements yield the same filtering criteria
.Expiration(0, 180)));
}
public override void OnData(Slice slice)
{
if (!Portfolio.Invested && IsMarketOpen("AAPL") && IsMarketOpen("TWX"))
{
var values = slice.OptionChains.Where(x => (x.Key == "?AAPL" || x.Key == "?TWX")).Select(x => x.Value);
foreach (var chain in values)
{
// we find at the money (ATM) put contract with farthest expiration
var atmContract = chain
.OrderByDescending(x => x.Expiry)
.ThenBy(x => Math.Abs(chain.Underlying.Price - x.Strike))
.ThenByDescending(x => x.Right)
.FirstOrDefault();
if (atmContract != null)
{
// if found, trade it
MarketOrder(atmContract.Symbol, 1);
MarketOnCloseOrder(atmContract.Symbol, -1);
}
}
}
}
///
/// This is used by the regression test system to indicate if the open source Lean repository has the required data to run this algorithm.
///
public bool CanRunLocally { get; } = true;
///
/// This is used by the regression test system to indicate which languages this algorithm is written in.
///
public List Languages { get; } = new() { Language.CSharp, Language.Python };
///
/// Data Points count of all timeslices of algorithm
///
public long DataPoints => 49264;
///
/// Data Points count of the algorithm history
///
public int AlgorithmHistoryDataPoints => 0;
///
/// Final status of the algorithm
///
public AlgorithmStatus AlgorithmStatus => AlgorithmStatus.Completed;
///
/// This is used by the regression test system to indicate what the expected statistics are from running the algorithm
///
public Dictionary ExpectedStatistics => new Dictionary
{
{"Total Orders", "5"},
{"Average Win", "0%"},
{"Average Loss", "0%"},
{"Compounding Annual Return", "0%"},
{"Drawdown", "0%"},
{"Expectancy", "0"},
{"Start Equity", "100000"},
{"End Equity", "100051"},
{"Net Profit", "0%"},
{"Sharpe Ratio", "0"},
{"Sortino Ratio", "0"},
{"Probabilistic Sharpe Ratio", "0%"},
{"Loss Rate", "0%"},
{"Win Rate", "0%"},
{"Profit-Loss Ratio", "0"},
{"Alpha", "0"},
{"Beta", "0"},
{"Annual Standard Deviation", "0"},
{"Annual Variance", "0"},
{"Information Ratio", "0"},
{"Tracking Error", "0"},
{"Treynor Ratio", "0"},
{"Total Fees", "$4.00"},
{"Estimated Strategy Capacity", "$110000.00"},
{"Lowest Capacity Asset", "AAPL 2ZTXYLO9EQPZA|AAPL R735QTJ8XC9X"},
{"Portfolio Turnover", "8.85%"},
{"Drawdown Recovery", "0"},
{"OrderListHash", "a542a51c6e634f2ddd9a97ce208d5a67"}
};
}
}