5dplomacy/MultiversalDiplomacyTests/TimeTravelTest.cs

using MultiversalDiplomacy.Adjudicate;
using MultiversalDiplomacy.Adjudicate.Decision;
using MultiversalDiplomacy.Model;

using NUnit.Framework;

namespace MultiversalDiplomacyTests;

public class TimeTravelTest
{
    [Test]
    public void MoveIntoOwnPastForksTimeline()
    {
        TestCaseBuilder setup = new(World.WithStandardMap(), MovementPhaseAdjudicator.Instance);

        // Hold to move into the future, then move back into the past.
        setup[(0, 0)]
            .GetReference(out Season s0)
            ["Germany"]
                .Army("Mun").Holds().GetReference(out var mun0)
            .Execute()
        [(1, 0)]
            .GetReference(out Season s1)
            ["Germany"]
                .Army("Mun").MovesTo("Tyr", season: s0).GetReference(out var mun1);

        setup.ValidateOrders();
        Assert.That(mun1, Is.Valid);
        setup.AdjudicateOrders();
        Assert.That(mun1, Is.Victorious);

        World world = setup.UpdateWorld();

        // Confirm that there are now three seasons: the root, a future off the root, and a fork.
        Assert.That(world.Seasons.Count, Is.EqualTo(3));
        Assert.That(world.Seasons.Where(s => s.Timeline != s0.Timeline).Count(), Is.EqualTo(1));
        Season fork = world.Seasons.Where(s => s.Timeline != s0.Timeline).Single();
        Assert.That(s0.Futures, Contains.Item(s1));
        Assert.That(s0.Futures, Contains.Item(fork));
        Assert.That(fork.Past, Is.EqualTo(s0));

        // Confirm that there is a unit in Tyr 1:1 originating from Mun 1:0
        Unit originalUnit = world.GetUnitAt("Mun", s0.Coord);
        Unit aMun0 = world.GetUnitAt("Mun", s1.Coord);
        Unit aTyr = world.GetUnitAt("Tyr", fork.Coord);
        Assert.That(aTyr.Past, Is.EqualTo(mun1.Order.Unit));
        Assert.That(aTyr.Past?.Past, Is.EqualTo(mun0.Order.Unit));

        // Confirm that there is a unit in Mun 1:1 originating from Mun 0:0
        Unit aMun1 = world.GetUnitAt("Mun", fork.Coord);
        Assert.That(aMun1.Past, Is.EqualTo(originalUnit));
    }
}
Save previous orders so time travel can re-adjudicate them 2022-03-30 03:40:19 +00:00			`using MultiversalDiplomacy.Adjudicate;`
			`using MultiversalDiplomacy.Adjudicate.Decision;`
			`using MultiversalDiplomacy.Model;`

			`using NUnit.Framework;`

			`namespace MultiversalDiplomacyTests;`

			`public class TimeTravelTest`
			`{`
			`[Test]`
Make adjudicator reusable to decrease verbosity 2022-03-30 15:04:44 +00:00			`public void MoveIntoOwnPastForksTimeline()`
Save previous orders so time travel can re-adjudicate them 2022-03-30 03:40:19 +00:00			`{`
Make adjudicator reusable to decrease verbosity 2022-03-30 15:04:44 +00:00			`TestCaseBuilder setup = new(World.WithStandardMap(), MovementPhaseAdjudicator.Instance);`
Save previous orders so time travel can re-adjudicate them 2022-03-30 03:40:19 +00:00
Enable fluent definitions of multiple turns 2022-03-30 04:01:15 +00:00			`// Hold to move into the future, then move back into the past.`
Save previous orders so time travel can re-adjudicate them 2022-03-30 03:40:19 +00:00			`setup[(0, 0)]`
			`.GetReference(out Season s0)`
			`["Germany"]`
Enable fluent definitions of multiple turns 2022-03-30 04:01:15 +00:00			`.Army("Mun").Holds().GetReference(out var mun0)`
Make adjudicator reusable to decrease verbosity 2022-03-30 15:04:44 +00:00			`.Execute()`
Enable fluent definitions of multiple turns 2022-03-30 04:01:15 +00:00			`[(1, 0)]`
Save previous orders so time travel can re-adjudicate them 2022-03-30 03:40:19 +00:00			`.GetReference(out Season s1)`
			`["Germany"]`
			`.Army("Mun").MovesTo("Tyr", season: s0).GetReference(out var mun1);`

Make adjudicator reusable to decrease verbosity 2022-03-30 15:04:44 +00:00			`setup.ValidateOrders();`
Save previous orders so time travel can re-adjudicate them 2022-03-30 03:40:19 +00:00			`Assert.That(mun1, Is.Valid);`
Make adjudicator reusable to decrease verbosity 2022-03-30 15:04:44 +00:00			`setup.AdjudicateOrders();`
Save previous orders so time travel can re-adjudicate them 2022-03-30 03:40:19 +00:00			`Assert.That(mun1, Is.Victorious);`

Make adjudicator reusable to decrease verbosity 2022-03-30 15:04:44 +00:00			`World world = setup.UpdateWorld();`
Save previous orders so time travel can re-adjudicate them 2022-03-30 03:40:19 +00:00
			`// Confirm that there are now three seasons: the root, a future off the root, and a fork.`
			`Assert.That(world.Seasons.Count, Is.EqualTo(3));`
			`Assert.That(world.Seasons.Where(s => s.Timeline != s0.Timeline).Count(), Is.EqualTo(1));`
			`Season fork = world.Seasons.Where(s => s.Timeline != s0.Timeline).Single();`
			`Assert.That(s0.Futures, Contains.Item(s1));`
			`Assert.That(s0.Futures, Contains.Item(fork));`
			`Assert.That(fork.Past, Is.EqualTo(s0));`

			`// Confirm that there is a unit in Tyr 1:1 originating from Mun 1:0`
			`Unit originalUnit = world.GetUnitAt("Mun", s0.Coord);`
			`Unit aMun0 = world.GetUnitAt("Mun", s1.Coord);`
			`Unit aTyr = world.GetUnitAt("Tyr", fork.Coord);`
			`Assert.That(aTyr.Past, Is.EqualTo(mun1.Order.Unit));`
			`Assert.That(aTyr.Past?.Past, Is.EqualTo(mun0.Order.Unit));`

			`// Confirm that there is a unit in Mun 1:1 originating from Mun 0:0`
			`Unit aMun1 = world.GetUnitAt("Mun", fork.Coord);`
			`Assert.That(aMun1.Past, Is.EqualTo(originalUnit));`
			`}`
			`}`