Update adjudication logging

Reduce MoveOrder.Location to string
Eliminate MoveOrder.Province
2024-08-15 22:20:03 -07:00 · 2024-08-15 22:01:38 -07:00 · 2024-08-15 21:48:41 -07:00 · 2024-08-15 16:40:23 -07:00 · 2024-08-15 16:37:35 -07:00 · 2024-08-15 16:36:50 -07:00
14 changed files with 124 additions and 89 deletions
--- a/MultiversalDiplomacy/Adjudicate/Decision/MovementDecisions.cs
+++ b/MultiversalDiplomacy/Adjudicate/Decision/MovementDecisions.cs
@ -1,6 +1,8 @@
 using MultiversalDiplomacy.Model;
 using MultiversalDiplomacy.Orders;
 using static MultiversalDiplomacy.Model.Location;
 namespace MultiversalDiplomacy.Adjudicate.Decision;
 public class MovementDecisions
@ -8,7 +10,7 @@ public class MovementDecisions
    public Dictionary<Unit, IsDislodged> IsDislodged { get; }
    public Dictionary<MoveOrder, HasPath> HasPath { get; }
    public Dictionary<SupportOrder, GivesSupport> GivesSupport { get; }
-    public Dictionary<(Province, string), HoldStrength> HoldStrength { get; }
+    public Dictionary<(string, string), HoldStrength> HoldStrength { get; }
    public Dictionary<MoveOrder, AttackStrength> AttackStrength { get; }
    public Dictionary<MoveOrder, DefendStrength> DefendStrength { get; }
    public Dictionary<MoveOrder, PreventStrength> PreventStrength { get; }
@ -91,10 +93,10 @@ public class MovementDecisions
            .Distinct()
            .ToList();
-        (Province province, string season) UnitPoint(Unit unit)
+        (string province, string season) UnitPoint(Unit unit)
-            => (world.Map.GetLocation(unit.Location).Province, unit.Season.Key);
+            => (world.Map.GetLocation(unit.Location).Province.Name, unit.Season.Key);
-        (Province province, string season) MovePoint(MoveOrder move)
+        (string province, string season) MovePoint(MoveOrder move)
-            => (move.Province, move.Season.Key);
+            => (SplitKey(move.Location).province, move.Season.Key);
        // Create a hold strength decision with an associated order for every province with a unit.
        foreach (UnitOrder order in relevantOrders)
@ -108,13 +110,23 @@ public class MovementDecisions
        bool IsIncoming(UnitOrder me, MoveOrder other)
            => me != other
            && other.Season == me.Unit.Season
-            && other.Province == world.Map.GetLocation(me.Unit).Province;
+            && SplitKey(other.Location).province == world.Map.GetLocation(me.Unit).Province.Name;
        bool IsSupportFor(SupportMoveOrder me, MoveOrder move)
            => me.Target == move.Unit
            && me.Season == move.Season
            && me.Location.Key == move.Location;
        bool AreOpposing(MoveOrder one, MoveOrder two)
            => one.Season == two.Unit.Season
            && two.Season == one.Unit.Season
-            && one.Province == world.Map.GetLocation(two.Unit).Province
+            && SplitKey(one.Location).province == world.Map.GetLocation(two.Unit).Province.Name
-            && two.Province == world.Map.GetLocation(one.Unit).Province;
+            && SplitKey(two.Location).province == world.Map.GetLocation(one.Unit).Province.Name;
        bool AreCompeting(MoveOrder one, MoveOrder two)
            => one != two
            && one.Season == two.Season
            && SplitKey(one.Location).province == SplitKey(two.Location).province;
        // Create all other relevant decisions for each order in the affected timelines.
        foreach (UnitOrder order in relevantOrders)
@ -131,7 +143,7 @@ public class MovementDecisions
                // Find supports corresponding to this move.
                List<SupportMoveOrder> supports = relevantOrders
                    .OfType<SupportMoveOrder>()
-                    .Where(support => support.IsSupportFor(move))
+                    .Where(support => IsSupportFor(support, move))
                    .ToList();
                // Determine if this move is a head-to-head battle.
@ -142,7 +154,7 @@ public class MovementDecisions
                // Find competing moves.
                List<MoveOrder> competing = relevantOrders
                    .OfType<MoveOrder>()
-                    .Where(move.IsCompeting)
+                    .Where(other => AreCompeting(move, other))
                    .ToList();
                // Create the move-related decisions.
@ -153,7 +165,7 @@ public class MovementDecisions
                DoesMove[move] = new(move, opposingMove, competing);
                // Ensure a hold strength decision exists for the destination.
-                HoldStrength.Ensure(MovePoint(move), () => new(move.Province, move.Season));
+                HoldStrength.Ensure(MovePoint(move), () => new(world.Map.GetLocation(move.Location).Province, move.Season));
            }
            else if (order is SupportOrder support)
            {
@ -173,7 +185,7 @@ public class MovementDecisions
                {
                    // Ensure a hold strength decision exists for the target's destination.
                    HoldStrength.Ensure(
-                        (supportMove.Province, supportMove.Season.Key),
+                        (supportMove.Province.Name, supportMove.Season.Key),
                        () => new(supportMove.Province, supportMove.Season));
                }
            }
--- a/MultiversalDiplomacy/Adjudicate/MovementPhaseAdjudicator.cs
+++ b/MultiversalDiplomacy/Adjudicate/MovementPhaseAdjudicator.cs
@ -3,6 +3,8 @@ using MultiversalDiplomacy.Adjudicate.Logging;
 using MultiversalDiplomacy.Model;
 using MultiversalDiplomacy.Orders;
 using static MultiversalDiplomacy.Model.Location;
 namespace MultiversalDiplomacy.Adjudicate;
 /// <summary>
@ -69,15 +71,15 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
        // Trivial check: armies cannot move to water and fleets cannot move to land.
        AdjudicatorHelpers.InvalidateIfNotMatching(
-            order => (order.Unit.Type == UnitType.Army && order.Location.Type == LocationType.Land)
+            order => (order.Unit.Type == UnitType.Army && world.Map.GetLocation(order.Location).Type == LocationType.Land)
-                || (order.Unit.Type == UnitType.Fleet && order.Location.Type == LocationType.Water),
+                || (order.Unit.Type == UnitType.Fleet && world.Map.GetLocation(order.Location).Type == LocationType.Water),
            ValidationReason.IllegalDestinationType,
            ref moveOrders,
            ref validationResults);
        // Trivial check: a unit cannot move to where it already is.
        AdjudicatorHelpers.InvalidateIfNotMatching(
-            order => !(order.Location.Key == order.Unit.Location && order.Season == order.Unit.Season),
+            order => !(order.Location == order.Unit.Location && order.Season == order.Unit.Season),
            ValidationReason.DestinationMatchesOrigin,
            ref moveOrders,
            ref validationResults);
@ -90,7 +92,7 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
        ILookup<bool, MoveOrder> moveOrdersByAdjacency = moveOrders
            .ToLookup(order =>
                // Map adjacency
-                world.Map.GetLocation(order.Unit).Adjacents.Contains(order.Location)
+                world.Map.GetLocation(order.Unit).Adjacents.Select(loc => loc.Key).Contains(order.Location)
                // Turn adjacency
                && Math.Abs(order.Unit.Season.Turn - order.Season.Turn) <= 1
                // Timeline adjacency
@ -339,7 +341,7 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
            Season moveSeason = doesMove.Order.Season;
            if (doesMove.Outcome == true && createdFutures.TryGetValue(moveSeason, out Season future))
            {
-                Unit next = doesMove.Order.Unit.Next(doesMove.Order.Location.Key, future);
+                Unit next = doesMove.Order.Unit.Next(doesMove.Order.Location, future);
                logger.Log(3, "Advancing unit to {0}", next);
                createdUnits.Add(next);
            }
@ -618,7 +620,10 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
        if (!potentialDislodger)
        {
-            progress |= LoggedUpdate(decision, false, depth, "No invader can move");
+            string reason = decision.Incoming.Count == 0
                ? "No unit is attacking"
                : "All attacks failed";
            progress |= LoggedUpdate(decision, false, depth, reason);
        }
        return progress;
@ -635,7 +640,7 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
        // If the origin and destination are adjacent, then there is a path.
        if (// Map adjacency
-            world.Map.GetLocation(decision.Order.Unit).Adjacents.Contains(decision.Order.Location)
+            world.Map.GetLocation(decision.Order.Unit).Adjacents.Select(loc => loc.Key).Contains(decision.Order.Location)
            // Turn adjacency
            && Math.Abs(decision.Order.Unit.Season.Turn - decision.Order.Season.Turn) <= 1
            // Timeline adjacency
@ -750,7 +755,7 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
                if (givesSupport.Outcome == true) min += 1;
                if (givesSupport.Outcome != false) max += 1;
            }
-            progress |= LoggedUpdate(decision, min, max, depth, "Updated based on unit's supports");
+            progress |= LoggedUpdate(decision, min, max, depth, $"Updated based on {decision.Supports.Count} hold supports");
            return progress;
        }
    }
@ -776,7 +781,7 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
        // If there is a head to head battle, a unit at the destination that isn't moving away, or
        // a unit at the destination that will fail to move away, then the attacking unit will have
        // to dislodge it.
-        UnitOrder? destOrder = decisions.HoldStrength[(decision.Order.Province, decision.Order.Season.Key)].Order;
+        UnitOrder? destOrder = decisions.HoldStrength[(SplitKey(decision.Order.Location).province, decision.Order.Season.Key)].Order;
        DoesMove? destMoveAway = destOrder is MoveOrder moveAway
            ? decisions.DoesMove[moveAway]
            : null;
@ -786,7 +791,7 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
        }
        if (// In any case here, there will have to be a unit at the destination with an order,
            // which means that destOrder will have to be populated. Including this in the if
-            //condition lets the compiler know it won't be null in the if block.
+            // condition lets the compiler know it won't be null in the if block.
            destOrder != null
            && (// Is head to head
                decision.OpposingMove != null
@ -815,7 +820,7 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
                    if (givesSupport.Outcome == true) min += 1;
                    if (givesSupport.Outcome != false) max += 1;
                }
-                progress |= LoggedUpdate(decision, min, max, depth, "Updated with supports from other powers");
+                progress |= LoggedUpdate(decision, min, max, depth, $"Updated with {decision.Supports.Count} (?) move supports from third parties");
                return progress;
            }
        }
@ -837,7 +842,7 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
            }
            // Force min to zero in case of an attempt to disloge a unit of the same power.
            if (decision.Order.Unit.Power == destPower) min = 0;
-            progress |= LoggedUpdate(decision, min, max, depth, "Updated with supports");
+            progress |= LoggedUpdate(decision, min, max, depth, $"Updated with {decision.Supports.Count} (?) move supports");
            return progress;
        }
        else
@ -853,7 +858,7 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
                if (givesSupport.Outcome == true) min += 1;
                if (givesSupport.Outcome != false) max += 1;
            }
-            progress |= LoggedUpdate(decision, min, max, depth, "Updated with supports from all powers");
+            progress |= LoggedUpdate(decision, min, max, depth, $"Updated with {decision.Supports.Count} move supports from all powers");
            return progress;
        }
    }
@ -878,7 +883,7 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
            if (givesSupport.Outcome == true) min += 1;
            if (givesSupport.Outcome != false) max += 1;
        }
-        progress |= LoggedUpdate(decision, min, max, depth, "Updated based on unit's supports");
+        progress |= LoggedUpdate(decision, min, max, depth, $"Updated based on {decision.Supports.Count} supports");
        return progress;
    }
@ -932,7 +937,7 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
            min = 0;
        }
-        progress |= LoggedUpdate(decision, min, max, depth, "Updated based on unit's supports");
+        progress |= LoggedUpdate(decision, min, max, depth, $"Updated based on {decision.Supports.Count} supports");
        return progress;
    }
@ -955,7 +960,7 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
        // strength.
        NumericAdjudicationDecision defense = decision.OpposingMove != null
            ? decisions.DefendStrength[decision.OpposingMove]
-            : decisions.HoldStrength[(decision.Order.Province, decision.Order.Season.Key)];
+            : decisions.HoldStrength[(SplitKey(decision.Order.Location).province, decision.Order.Season.Key)];
        progress |= ResolveDecision(defense, world, decisions, depth + 1);
        // If the attack doesn't beat the defense, resolve the move to false.
@ -990,7 +995,7 @@ public class MovementPhaseAdjudicator : IPhaseAdjudicator
            decision,
            attack.MinValue > defense.MaxValue && beatsAllCompetingMoves,
            depth,
-            "Updated based on competing moves");
+            $"Updated based on {decision.Competing.Count} competing moves");
        return progress;
    }
 }
--- a/MultiversalDiplomacy/Adjudicate/PathFinder.cs
+++ b/MultiversalDiplomacy/Adjudicate/PathFinder.cs
@ -18,7 +18,7 @@ public static class PathFinder
    /// Determines if a convoy path exists for a move order.
    /// </summary>
    public static bool ConvoyPathExists(World world, MoveOrder order)
-        => ConvoyPathExists(world, order.Unit, order.Location, order.Season);
+        => ConvoyPathExists(world, order.Unit, world.Map.GetLocation(order.Location), order.Season);
    private static bool ConvoyPathExists(
        World world,
--- a/MultiversalDiplomacy/Model/Location.cs
+++ b/MultiversalDiplomacy/Model/Location.cs
@ -53,6 +53,12 @@ public class Location
        this.AdjacentList = new List<Location>();
    }
    public static (string province, string location) SplitKey(string locationKey)
    {
        var split = locationKey.Split(['/'], 2);
        return (split[0], split[1]);
    }
    public override string ToString()
    {
        return this.Name == "land" || this.Name == "water"
--- a/MultiversalDiplomacy/Model/Season.cs
+++ b/MultiversalDiplomacy/Model/Season.cs
@ -10,9 +10,10 @@ namespace MultiversalDiplomacy.Model;
 public struct Season(string timeline, int turn)
 {
    /// <summary>
-    /// The first turn number. This is defined to reduce confusion about whether the first turn is 0 or 1.
+    /// The root season of every game. This is defined to avoid any confusion about what the first turn or timeline
    /// should be or what season to use to key into a fresh <see cref="Timelines"/>.
    /// </summary>
-    public const int FIRST_TURN = 0;
+    public static readonly Season First = new(Timelines.IntToString(0), 0);
    /// <summary>
    /// The timeline to which this season belongs.
--- a/MultiversalDiplomacy/Model/Timelines.cs
+++ b/MultiversalDiplomacy/Model/Timelines.cs
@ -75,10 +75,7 @@ public class Timelines(int next, Dictionary<string, Season?> pasts)
    /// Create a new multiverse with an initial season.
    /// </summary>
    public static Timelines Create()
-    {
+        => new(StringToInt(Season.First.Timeline) + 1, new() { {Season.First.Key, null} });
        Season first = new(IntToString(0), Season.FIRST_TURN);
        return new Timelines(1, new() { {first.Key, null} });
    }
    /// <summary>
    /// Create a continuation of a season if it has no futures, otherwise create a fork.
@ -119,7 +116,6 @@ public class Timelines(int next, Dictionary<string, Season?> pasts)
    /// </summary>
    public Season GetTimelineRoot(Season season)
    {
        Console.WriteLine($"GetTimelineRoot({season.Key})");
        return Pasts[season.Key] is Season past && season.Timeline == past.Timeline
        ? GetTimelineRoot(past)
        : season;
--- a/MultiversalDiplomacy/Model/World.cs
+++ b/MultiversalDiplomacy/Model/World.cs
@ -181,7 +181,7 @@ public class World
                : splits.Length == 3
                    ? Map.GetWater(splits[2])
                    : Map.GetWater(splits[2], splits[3]);
-            Unit unit = Unit.Build(location.Key, new("a0"), power, type);
+            Unit unit = Unit.Build(location.Key, Season.First, power, type);
            return unit;
        });
        return this.Update(units: units);
@ -229,7 +229,7 @@ public class World
    public Unit GetUnitAt(string provinceName, Season? season = null)
    {
        Province province = Map.GetProvince(provinceName);
-        season ??= new("a0");
+        season ??= Season.First;
        Unit? foundUnit = this.Units.SingleOrDefault(
            u => Map.GetLocation(u!).Province == province && u!.Season == season,
            null)
--- a/MultiversalDiplomacy/Orders/MoveOrder.cs
+++ b/MultiversalDiplomacy/Orders/MoveOrder.cs
@ -1,5 +1,7 @@
 using MultiversalDiplomacy.Model;
 using static MultiversalDiplomacy.Model.Location;
 namespace MultiversalDiplomacy.Orders;
 /// <summary>
@ -15,14 +17,9 @@ public class MoveOrder : UnitOrder
    /// <summary>
    /// The destination location to which the unit should move.
    /// </summary>
-    public Location Location { get; }
+    public string Location { get; }
-    /// <summary>
+    public MoveOrder(string power, Unit unit, Season season, string location)
    /// The destination province to which the unit should move.
    /// </summary>
    public Province Province => this.Location.Province;
    public MoveOrder(string power, Unit unit, Season season, Location location)
        : base (power, unit)
    {
        this.Season = season;
@ -31,14 +28,6 @@ public class MoveOrder : UnitOrder
    public override string ToString()
    {
-        return $"{this.Unit} -> {Season.Timeline}-{Province}@{Season.Turn}";
+        return $"{this.Unit} -> {Season.Timeline}-{SplitKey(Location).province}@{Season.Turn}";
    }
    /// <summary>
    /// Returns whether another move order has the same destination as this order.
    /// </summary>
    public bool IsCompeting(MoveOrder other)
        => this != other
        && this.Season == other.Season
        && this.Province == other.Province;
 }
--- a/MultiversalDiplomacy/Orders/SupportMoveOrder.cs
+++ b/MultiversalDiplomacy/Orders/SupportMoveOrder.cs
@ -38,9 +38,4 @@ public class SupportMoveOrder : SupportOrder
    {
        return $"{this.Unit} S {this.Target} -> {(this.Province, this.Season).ToShort()}";
    }
    public bool IsSupportFor(MoveOrder move)
        => this.Target == move.Unit
        && this.Season == move.Season
        && this.Location == move.Location;
 }
--- a/MultiversalDiplomacyTests/SerializationTest.cs
+++ b/MultiversalDiplomacyTests/SerializationTest.cs
@ -14,6 +14,31 @@ public class SerializationTest
        WriteIndented = true,
    };
    [Test]
    public void SerializeRoundTrip_Timelines()
    {
        Timelines one = Timelines.Create();
        string serial1 = JsonSerializer.Serialize(one, Options);
        Timelines two = JsonSerializer.Deserialize<Timelines>(serial1, Options)
            ?? throw new AssertionException("Failed to deserialize");
        Assert.That(two.Next, Is.EqualTo(one.Next), "Failed to reserialize next timeline");
        Assert.That(two.Pasts, Is.EquivalentTo(one.Pasts), "Failed to reserialize pasts");
        Timelines three = two
            .WithNewSeason(Season.First, out var a1)
            .WithNewSeason(a1, out var a2)
            .WithNewSeason(a1, out var b2);
        string serial2 = JsonSerializer.Serialize(three, Options);
        Timelines four = JsonSerializer.Deserialize<Timelines>(serial2, Options)
            ?? throw new AssertionException("Failed to deserialize");
        Assert.That(four.Next, Is.EqualTo(three.Next), "Failed to reserialize next timeline");
        Assert.That(four.Pasts, Is.EquivalentTo(three.Pasts), "Failed to reserialize pasts");
    }
    [Test]
    public void SerializeRoundTrip_NewGame()
    {
@ -65,36 +90,42 @@ public class SerializationTest
        Assert.That(tyr0, Is.NotDislodged);
        setup.UpdateWorld();
-        Assert.That(setup.World.OrderHistory["a0"].Orders.Count, Is.GreaterThan(0), "Missing orders");
+        Assert.That(setup.World.OrderHistory[s0.Key].Orders.Count, Is.GreaterThan(0), "Missing orders");
-        Assert.That(setup.World.OrderHistory["a0"].DoesMoveOutcomes.Count, Is.GreaterThan(0), "Missing moves");
+        Assert.That(setup.World.OrderHistory[s0.Key].DoesMoveOutcomes.Count, Is.GreaterThan(0), "Missing moves");
-        Assert.That(setup.World.OrderHistory["a0"].IsDislodgedOutcomes.Count, Is.GreaterThan(0), "Missing dislodges");
+        Assert.That(setup.World.OrderHistory[s0.Key].IsDislodgedOutcomes.Count, Is.GreaterThan(0), "Missing dislodges");
        // Assert.Ignore("Serialization doesn't fully work yet");
        // Serialize and deserialize the world
        string serialized = JsonSerializer.Serialize(setup.World, Options);
        Console.WriteLine(serialized);
        World reserialized = JsonSerializer.Deserialize<World>(serialized, Options)
            ?? throw new AssertionException("Failed to reserialize world");
        Assert.Multiple(() => {
-            Assert.That(reserialized.OrderHistory["a0"].Orders.Count, Is.GreaterThan(0), "Missing orders");
+            Assert.That(reserialized.OrderHistory[s0.Key].Orders.Count, Is.GreaterThan(0), "Missing orders");
-            Assert.That(reserialized.OrderHistory["a0"].DoesMoveOutcomes.Count, Is.GreaterThan(0), "Missing moves");
+            Assert.That(reserialized.OrderHistory[s0.Key].DoesMoveOutcomes.Count, Is.GreaterThan(0), "Missing moves");
-            Assert.That(reserialized.OrderHistory["a0"].IsDislodgedOutcomes.Count, Is.GreaterThan(0), "Missing dislodges");
+            Assert.That(reserialized.OrderHistory[s0.Key].IsDislodgedOutcomes.Count, Is.GreaterThan(0), "Missing dislodges");
            Assert.That(reserialized.Timelines.Pasts, Is.Not.Empty, "Missing timeline history");
        });
        Assert.Ignore("Serialization doesn't fully work yet");
        // Resume the test case
        setup = new(reserialized, MovementPhaseAdjudicator.Instance);
        setup[("a", 1)]
            ["Germany"]
-                .Army("Mun").Supports.Army("Mun", season: new("a0")).MoveTo("Tyr").GetReference(out var mun1)
+                .Army("Mun").Supports.Army("Mun", season: s0).MoveTo("Tyr").GetReference(out var mun1)
            ["Austria"]
                .Army("Tyr").Holds();
        setup.ValidateOrders();
        Assert.That(mun1, Is.Valid);
        var adjudications = setup.AdjudicateOrders();
        foreach (var adj in adjudications)
        {
            Console.WriteLine($"{adj}");
        }
        Assert.That(mun1, Is.NotCut);
        Console.WriteLine(string.Join(", ", adjudications.Select(a => a.ToString())));
        DoesMove mun0move = adjudications.OfType<DoesMove>().Single(move => move.Order.Unit.Key == mun0.Order.Unit.Key);
        Assert.That(mun0move.Outcome, Is.True);
        IsDislodged tyr0dislodge = adjudications.OfType<IsDislodged>().Single(dis => dis.Order.Unit.Key == tyr0.Order.Unit.Key);
--- a/MultiversalDiplomacyTests/TestCaseBuilder.cs
+++ b/MultiversalDiplomacyTests/TestCaseBuilder.cs
@ -423,7 +423,7 @@ public class TestCaseBuilder
                this.PowerContext.Power,
                this.Unit,
                destSeason,
-                destination);
+                destination.Key);
            this.Builder.OrderList.Add(moveOrder);
            return new OrderDefinedContext<MoveOrder>(this, moveOrder);
        }
--- a/MultiversalDiplomacyTests/TestCaseBuilderTest.cs
+++ b/MultiversalDiplomacyTests/TestCaseBuilderTest.cs
@ -74,7 +74,7 @@ class TestCaseBuilderTest
        Assert.That(orderBer, Is.InstanceOf<MoveOrder>(), "Unexpected order type");
        Assert.That(
            (orderBer as MoveOrder)?.Location,
-            Is.EqualTo(setup.World.Map.GetLand("Kiel")),
+            Is.EqualTo(setup.World.Map.GetLand("Kiel").Key),
            "Unexpected move order destination");
        UnitOrder orderPru = orders.Single(OrderForProvince("Prussia"));
--- a/MultiversalDiplomacyTests/Model/TimelineFactoryTest.cs
+++ b/MultiversalDiplomacyTests/Model/TimelineFactoryTest.cs
@ -2,9 +2,9 @@ using MultiversalDiplomacy.Model;
 using NUnit.Framework;
-namespace MultiversalDiplomacyTests.Model;
+namespace MultiversalDiplomacyTests;
-public class TimelineFactoryTest
+public class TimelinesTest
 {
    [TestCase(0, "a")]
    [TestCase(1, "b")]
@ -36,12 +36,12 @@ public class TimelineFactoryTest
    public void NoSharedFactoryState()
    {
        Timelines one = Timelines.Create()
-            .WithNewSeason(new Season("a0"), out var s1)
+            .WithNewSeason(Season.First, out var s1)
-            .WithNewSeason(new Season("a0"), out var s2)
+            .WithNewSeason(Season.First, out var s2)
-            .WithNewSeason(new Season("a0"), out var s3);
+            .WithNewSeason(Season.First, out var s3);
        Timelines two = Timelines.Create()
-            .WithNewSeason(new Season("a0"), out var s4)
+            .WithNewSeason(Season.First, out var s4)
-            .WithNewSeason(new Season("a0"), out var s5);
+            .WithNewSeason(Season.First, out var s5);
        Assert.That(s1.Timeline, Is.EqualTo("a"));
        Assert.That(s2.Timeline, Is.EqualTo("b"));
@ -54,14 +54,14 @@ public class TimelineFactoryTest
    public void TimelineForking()
    {
        Timelines timelines = Timelines.Create()
-            .WithNewSeason("a0", out var a1)
+            .WithNewSeason(Season.First, out var a1)
            .WithNewSeason(a1, out var a2)
            .WithNewSeason(a2, out var a3)
            .WithNewSeason(a1, out var b2)
            .WithNewSeason(b2, out var b3)
            .WithNewSeason(a1, out var c2)
            .WithNewSeason(a2, out var d3);
-        Season a0 = new("a0");
+        Season a0 = Season.First;
        Assert.That(
            timelines.Pasts.Keys,
@ -76,13 +76,13 @@ public class TimelineFactoryTest
        Assert.That(c2.Timeline, Is.EqualTo("c"), "Unexpected second alt");
        Assert.That(d3.Timeline, Is.EqualTo("d"), "Unexpected third alt");
-        Assert.That(a1.Turn, Is.EqualTo(Season.FIRST_TURN + 1), "Unexpected a1 turn number");
+        Assert.That(a1.Turn, Is.EqualTo(Season.First.Turn + 1), "Unexpected a1 turn number");
-        Assert.That(a2.Turn, Is.EqualTo(Season.FIRST_TURN + 2), "Unexpected a2 turn number");
+        Assert.That(a2.Turn, Is.EqualTo(Season.First.Turn + 2), "Unexpected a2 turn number");
-        Assert.That(a3.Turn, Is.EqualTo(Season.FIRST_TURN + 3), "Unexpected a3 turn number");
+        Assert.That(a3.Turn, Is.EqualTo(Season.First.Turn + 3), "Unexpected a3 turn number");
-        Assert.That(b2.Turn, Is.EqualTo(Season.FIRST_TURN + 2), "Unexpected b2 turn number");
+        Assert.That(b2.Turn, Is.EqualTo(Season.First.Turn + 2), "Unexpected b2 turn number");
-        Assert.That(b3.Turn, Is.EqualTo(Season.FIRST_TURN + 3), "Unexpected b3 turn number");
+        Assert.That(b3.Turn, Is.EqualTo(Season.First.Turn + 3), "Unexpected b3 turn number");
-        Assert.That(c2.Turn, Is.EqualTo(Season.FIRST_TURN + 2), "Unexpected c2 turn number");
+        Assert.That(c2.Turn, Is.EqualTo(Season.First.Turn + 2), "Unexpected c2 turn number");
-        Assert.That(d3.Turn, Is.EqualTo(Season.FIRST_TURN + 3), "Unexpected d3 turn number");
+        Assert.That(d3.Turn, Is.EqualTo(Season.First.Turn + 3), "Unexpected d3 turn number");
        Assert.That(timelines.GetTimelineRoot(a0), Is.EqualTo(a0), "Expected timeline root to be reflexive");
        Assert.That(timelines.GetTimelineRoot(a3), Is.EqualTo(a0), "Expected trunk timeline to have root");
--- a/MultiversalDiplomacyTests/UnitTests.cs
+++ b/MultiversalDiplomacyTests/UnitTests.cs
@ -13,7 +13,7 @@ public class UnitTests
        Location Mun = world.Map.GetLand("Mun"),
            Boh = world.Map.GetLand("Boh"),
            Tyr = world.Map.GetLand("Tyr");
-        Season a0 = new("a0");
+        Season a0 = Season.First;
        Unit u1 = Unit.Build(Mun.Key, a0, "Austria", UnitType.Army);
        world = world.WithNewSeason(a0, out Season a1);
Author	SHA1	Message	Date
Tim Van Baak	9a64609605	Update adjudication logging	2024-08-15 22:20:03 -07:00
Tim Van Baak	889e9d173b	Reduce MoveOrder.Location to string	2024-08-15 22:01:38 -07:00
Tim Van Baak	f21b1e500c	Eliminate MoveOrder.Province	2024-08-15 21:48:41 -07:00
Tim Van Baak	ff9e6196ad	Add Timelines serialization test	2024-08-15 16:40:23 -07:00
Tim Van Baak	a02e8121eb	Rename test	2024-08-15 16:37:35 -07:00
Tim Van Baak	3d664208b5	Add Season.First, replacing FIRST_TURN	2024-08-15 16:36:50 -07:00