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QuantEngineByItz/src/dotnet/QuantEngine.Core.Tests/ExitDecisionsTests.cs
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test(dotnet): add 32 xUnit tests for domain calculators (WBS-10.2)
2026-06-29 09:59:56 +09:00

102 lines
4.0 KiB
C#

using System;
using System.Collections.Generic;
using Xunit;
using QuantEngine.Core.Domain;
namespace QuantEngine.Core.Tests
{
public class ExitDecisionsTests
{
[Fact]
public void ComputeStopPriceCore_AtrBased_ReturnsCorrectPrice()
{
// ATR 2.0배 기반 계산 검증
var res = ExitDecisions.ComputeStopPriceCore(
entryPrice: 100000,
atr20: 3000,
currentPrice: 100000,
atrMultiplier: 2.0
);
Assert.Equal("PASS", res.StopPriceStatus);
Assert.Equal(94000, res.StopPrice); // 100000 - 3000 * 2.0 = 94000
}
[Fact]
public void ComputeStopPriceCore_FallbackPrice_Returns8PercentDown()
{
// 결측인 경우 8% 하락 폴백 가격으로 설정 검증
var res = ExitDecisions.ComputeStopPriceCore(
entryPrice: 100000,
atr20: null,
currentPrice: null,
atrMultiplier: null
);
Assert.Contains("DATA_MISSING", res.StopPriceStatus);
Assert.Equal(92000, res.StopPrice); // 100000 * 0.92 = 92000
}
[Fact]
public void ComputeStopPriceCore_AtrPercentBased_SetsCorrectMultiplier()
{
// ATR 비율에 따른 동적 승수 선택 검증 (atr20=10000, current=100000 -> atr20Pct = 10% >= 8% -> multiplier = 2.0)
var res = ExitDecisions.ComputeStopPriceCore(
entryPrice: 100000,
atr20: 10000,
currentPrice: 100000,
atrMultiplier: null
);
Assert.Equal("PASS", res.StopPriceStatus);
Assert.Equal(2.0, res.AtrMultiplier);
Assert.Equal(92000, res.StopPrice); // Max(92000, 100000 - 10000 * 2.0) = Max(92000, 80000) = 92000
}
[Theory]
[InlineData("STOP_OR_TIME_EXIT_READY", 4, "EXIT_100", "STOP_OR_TIME_EXIT_READY")]
[InlineData("NORMAL_TRADING", 4, "EXIT_100", "RW_EXIT_STRONG")]
[InlineData("NORMAL_TRADING", 1, "REGIME_TRIM_50", "REGIME_RISK_OFF")] // REGIME_PRELIM="RISK_OFF"
[InlineData("NORMAL_TRADING", 1, "TRIM_70", "TIMING_EXIT_SCORE")] // timingExitScore = 75
[InlineData("NORMAL_TRADING", 1, "TRIM_50", "TRAILING_STOP_BREACH")] // trailingStopBreach = true
[InlineData("NORMAL_TRADING", 0, "TIME_EXIT_100", "TIME_STOP_EXPIRED")] // daysToTimeStop = 0
public void ComputeStopActionLadder_Scenarios_ReturnExpectedAction(
string timingAction,
int rwPartial,
string expectedAction,
string expectedReason)
{
var ctx = new Dictionary<string, object>
{
{ "timingAction", timingAction },
{ "rw_partial", rwPartial },
{ "REGIME_PRELIM", expectedReason == "REGIME_RISK_OFF" ? "RISK_OFF" : "RISK_ON" },
{ "timingExitScore", expectedReason == "TIMING_EXIT_SCORE" ? 75.0 : 0.0 },
{ "trailingStopBreach", expectedReason == "TRAILING_STOP_BREACH" },
{ "daysToTimeStop", expectedReason == "TIME_STOP_EXPIRED" ? 0 : 9999 }
};
var res = ExitDecisions.ComputeStopActionLadder(ctx);
Assert.Equal(expectedAction, res.Action);
Assert.Equal(expectedReason, res.Reason);
}
[Theory]
[InlineData("EVENT_SHOCK", 5.0, 3.5)]
[InlineData("RISK_OFF", 7.0, 5.0)]
[InlineData("SECULAR_LEADER_RISK_ON", 13.0, 9.0)]
[InlineData("RISK_ON", 12.0, 8.5)]
[InlineData("NEUTRAL", 10.0, 7.0)]
public void ComputeDynamicHeatThresholds_Regimes_ReturnCorrectThresholds(
string regime,
double expectedHard,
double expectedHalve)
{
var res = ExitDecisions.ComputeDynamicHeatThresholds(regime);
Assert.Equal(expectedHard, res.HardBlock);
Assert.Equal(expectedHalve, res.Halve);
}
}
}