251 lines
9.4 KiB
C#
251 lines
9.4 KiB
C#
/*
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* QUANTCONNECT.COM - Democratizing Finance, Empowering Individuals.
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* Lean Algorithmic Trading Engine v2.0. Copyright 2014 QuantConnect Corporation.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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*/
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using System;
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using System.Collections.Generic;
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using NodaTime;
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using NUnit.Framework;
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using QuantConnect.Algorithm;
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using QuantConnect.Configuration;
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using QuantConnect.Interfaces;
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using QuantConnect.Packets;
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using QuantConnect.Benchmarks;
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using QuantConnect.Lean.Engine.DataFeeds;
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using QuantConnect.Tests.Engine.DataFeeds;
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using QuantConnect.Statistics;
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using QuantConnect.Securities;
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using System.Linq;
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namespace QuantConnect.Tests.Algorithm
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{
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[TestFixture]
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public class AlgorithmBenchmarkTests
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{
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private TestBenchmarkAlgorithm _algorithm;
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[TearDown]
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public void TearDown()
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{
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Config.Reset();
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}
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[TestCase(SecurityType.Forex)]
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[TestCase(SecurityType.Equity)]
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[TestCase(SecurityType.Crypto)]
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[TestCase(SecurityType.Index)]
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[TestCase(SecurityType.Option)]
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[TestCase(SecurityType.Future)]
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[TestCase(SecurityType.Cfd)]
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public void SetBenchmarksSecurityTypes(SecurityType securityType)
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{
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_algorithm = BenchmarkTestSetupHandler.TestAlgorithm = new TestBenchmarkAlgorithm(securityType);
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_algorithm.StartDateToUse = new DateTime(2014, 05, 03);
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_algorithm.EndDateToUse = new DateTime(2014, 05, 04);
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var results = AlgorithmRunner.RunLocalBacktest(nameof(TestBenchmarkAlgorithm),
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new Dictionary<string, string> { { PerformanceMetrics.TotalOrders, "0" } },
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Language.CSharp,
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AlgorithmStatus.Completed,
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setupHandler: "BenchmarkTestSetupHandler");
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var benchmark = _algorithm.Benchmark as SecurityBenchmark;
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Assert.IsNotNull(benchmark);
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Assert.AreEqual(securityType, benchmark.Security.Type);
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Assert.IsNull(_algorithm.RunTimeError);
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}
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[TestCase(Resolution.Daily)]
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[TestCase(Resolution.Hour)]
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[TestCase(Resolution.Minute)]
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[TestCase(Resolution.Second)]
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[TestCase(Resolution.Daily, true)]
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[TestCase(Resolution.Hour, true)]
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[TestCase(Resolution.Minute, true)]
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[TestCase(Resolution.Second, true)]
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public void MisalignedBenchmarkAndAlgorithmTimeZones(Resolution resolution, bool useUniverseSubscription = false)
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{
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// Verify that if we have algorithm:
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// - subscribed to a daily resolution via universe or directly
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// - a benchmark with timezone that is not algorithm time zone
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// that we post an warning via log that statistics will be affected
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// Setup a empty algorithm for the test
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var algorithm = new QCAlgorithm();
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var dataManager = new DataManagerStub(algorithm, new MockDataFeed(), liveMode: true);
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algorithm.SubscriptionManager.SetDataManager(dataManager);
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if (useUniverseSubscription)
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{
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// Change our universe resolution
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algorithm.UniverseSettings.Resolution = resolution;
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}
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else
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{
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// subscribe to an equity in our provided resolution
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algorithm.AddEquity("AAPL", resolution);
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}
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// Default benchmark is SPY which is NY TimeZone,
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// Set timezone to UTC.
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algorithm.SetTimeZone(DateTimeZone.Utc);
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algorithm.PostInitialize();
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// Verify if our log is there (Should only be there in Daily case)
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switch (resolution)
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{
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case Resolution.Daily:
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if (algorithm.LogMessages.TryPeek(out string result))
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{
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Assert.IsTrue(result.Contains("Using a security benchmark of a different timezone", StringComparison.InvariantCulture));
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}
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else
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{
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Assert.Fail("Warning was not posted");
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}
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break;
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default:
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Assert.AreEqual(0, algorithm.LogMessages.Count);
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break;
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}
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}
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[Test]
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public void BenchmarkIsNotInitializeWithCustomSecurityInitializer()
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{
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var algorithm = new QCAlgorithm();
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var dataManager = new DataManagerStub(algorithm, new MockDataFeed());
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algorithm.SubscriptionManager.SetDataManager(dataManager);
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var securityInitializer = new CustomSecurityInitializer();
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algorithm.SetSecurityInitializer(securityInitializer);
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var spy = algorithm.AddEquity("SPY");
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algorithm.SetBenchmark("AAPL");
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var aapl = (algorithm.Benchmark as SecurityBenchmark).Security;
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algorithm.PostInitialize();
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Assert.IsTrue(securityInitializer.InitializedSecurities.Contains(spy));
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Assert.IsFalse(securityInitializer.InitializedSecurities.Contains(aapl));
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}
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[Test]
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public void BenchmarkIsNotAffectedBySecuritySeederDataNormalizationMode()
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{
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var algorithm = new TestBenchmarkDataNormalizationModeAlgorithm();
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BenchmarkTestSetupHandler.TestAlgorithm = algorithm;
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algorithm.StartDateToUse = new DateTime(2013, 10, 07);
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algorithm.EndDateToUse = new DateTime(2013, 10, 11);
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var results = AlgorithmRunner.RunLocalBacktest(nameof(TestBenchmarkAlgorithm),
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new Dictionary<string, string> { { PerformanceMetrics.TotalOrders, "0" } },
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Language.CSharp,
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AlgorithmStatus.Completed,
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setupHandler: nameof(BenchmarkTestSetupHandler));
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var benchmark = algorithm.Benchmark as SecurityBenchmark;
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Assert.IsNotNull(benchmark);
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Assert.AreEqual(Symbols.SPY, benchmark.Security.Symbol);
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// All values must be between 142 and 148 (expected adjusted data for the time range) for the benchmark
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Assert.IsTrue(algorithm.BenchmarkValues.All(x => x >= 142m && x <= 148m),
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$"Benchmark values are:\n{string.Join('\n', algorithm.BenchmarkValues)}");
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}
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public class BenchmarkTestSetupHandler : AlgorithmRunner.RegressionSetupHandlerWrapper
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{
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public static TestBenchmarkAlgorithm TestAlgorithm { get; set; }
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public override IAlgorithm CreateAlgorithmInstance(AlgorithmNodePacket algorithmNodePacket, string assemblyPath)
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{
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Algorithm = TestAlgorithm;
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return Algorithm;
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}
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}
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public class TestBenchmarkAlgorithm : QCAlgorithm
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{
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private Symbol _symbol;
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public SecurityType SecurityType { get; set; }
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public DateTime StartDateToUse { get; set; }
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public DateTime EndDateToUse { get; set; }
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public int WarmUpDataCount { get; set; }
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public TestBenchmarkAlgorithm(SecurityType securityType)
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{
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SecurityType = securityType;
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}
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public override void Initialize()
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{
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SetStartDate(StartDateToUse);
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SetEndDate(EndDateToUse);
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_symbol = Symbols.GetBySecurityType(SecurityType);
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AddSecurity(_symbol);
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SetBenchmark(_symbol);
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}
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}
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public class TestBenchmarkDataNormalizationModeAlgorithm : TestBenchmarkAlgorithm
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{
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public List<decimal> BenchmarkValues { get; } = new();
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public TestBenchmarkDataNormalizationModeAlgorithm()
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: base(SecurityType.Equity)
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{
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}
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public override void Initialize()
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{
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SetStartDate(StartDateToUse);
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SetEndDate(EndDateToUse);
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UniverseSettings.DataNormalizationMode = DataNormalizationMode.Raw;
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// If the benchmark is initialized using this security initializer, the security seeder would source data
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// for using the data normalization mode from the UniverseSettings, which is set to Raw
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SetSecurityInitializer(new BrokerageModelSecurityInitializer(BrokerageModel, new FuncSecuritySeeder(GetLastKnownPrices)));
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SetBenchmark("SPY");
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Schedule.On(DateRules.EveryDay(), TimeRules.Every(TimeSpan.FromHours(1)), () =>
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{
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var value = (Benchmark as SecurityBenchmark).Evaluate(UtcTime);
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BenchmarkValues.Add(value);
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Log($"Benchmark: {value}");
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});
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}
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}
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public class CustomSecurityInitializer : ISecurityInitializer
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{
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public HashSet<Security> InitializedSecurities { get; } = new();
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public void Initialize(Security security)
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{
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InitializedSecurities.Add(security);
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}
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}
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}
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}
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