5dplomacy/MultiversalDiplomacy/Adjudicate/Decision/MovementDecisions.cs

using MultiversalDiplomacy.Model;
using MultiversalDiplomacy.Orders;

namespace MultiversalDiplomacy.Adjudicate.Decision;

public class MovementDecisions
{
    public Dictionary<Unit, IsDislodged> IsDislodged { get; }
    public Dictionary<MoveOrder, HasPath> HasPath { get; }
    public Dictionary<SupportOrder, GivesSupport> GivesSupport { get; }
    public Dictionary<(Province, Season), HoldStrength> HoldStrength { get; }
    public Dictionary<MoveOrder, AttackStrength> AttackStrength { get; }
    public Dictionary<MoveOrder, DefendStrength> DefendStrength { get; }
    public Dictionary<MoveOrder, PreventStrength> PreventStrength { get; }
    public Dictionary<MoveOrder, DoesMove> DoesMove { get; }

    public IEnumerable<AdjudicationDecision> Values =>
        this.IsDislodged.Values.Cast<AdjudicationDecision>()
        .Concat(this.HasPath.Values)
        .Concat(this.GivesSupport.Values)
        .Concat(this.HoldStrength.Values)
        .Concat(this.AttackStrength.Values)
        .Concat(this.DefendStrength.Values)
        .Concat(this.PreventStrength.Values)
        .Concat(this.DoesMove.Values);

    public MovementDecisions(World world, List<Order> orders)
    {
        this.IsDislodged = new();
        this.HasPath = new();
        this.GivesSupport = new();
        this.HoldStrength = new();
        this.AttackStrength = new();
        this.DefendStrength = new();
        this.PreventStrength = new();
        this.DoesMove = new();

        // Record which seasons are referenced by the order set.
        HashSet<Season> orderedSeasons = new();
        foreach (UnitOrder order in orders.Cast<UnitOrder>())
        {
            _ = orderedSeasons.Add(order.Unit.Season);
        }

        // Expand the order list to include any other seasons that are potentially affected.
        // In the event that those seasons don't end up affected (all moves to it fail, all
        // supports to it are cut), it is still safe to re-adjudicate everything because
        // adjudication is deterministic and doesn't produce side effects.
        HashSet<Season> affectedSeasons = new();
        foreach (Order order in orders)
        {
            switch (order)
            {
                case MoveOrder move:
                    if (!orderedSeasons.Contains(move.Season))
                    {
                        affectedSeasons.Add(move.Season);
                    }
                    break;

                case SupportHoldOrder supportHold:
                    if (!orderedSeasons.Contains(supportHold.Target.Season))
                    {
                        affectedSeasons.Add(supportHold.Target.Season);
                    }
                    break;

                case SupportMoveOrder supportMove:
                    if (!orderedSeasons.Contains(supportMove.Target.Season))
                    {
                        affectedSeasons.Add(supportMove.Target.Season);
                    }
                    break;
            }
        }
        foreach (Season season in affectedSeasons)
        {
            orders.AddRange(world.GivenOrders[season]);
        }

        // Create the relevant decisions for each order.
        foreach (UnitOrder order in orders.Cast<UnitOrder>())
        {
            // Create a dislodge decision for this unit.
            List<MoveOrder> incoming = orders
                .OfType<MoveOrder>()
                .Where(move => move.Location.Province == order.Unit.Location.Province)
                .ToList();
            this.IsDislodged[order.Unit] = new(order, incoming);

            // Ensure a hold strength decision exists. Overwrite any previous once, since it may
            // have been created without an order by a previous move or support.
            this.HoldStrength[order.Unit.Point] = new(order.Unit.Point, order);

            if (order is MoveOrder move)
            {
                // Find supports corresponding to this move.
                List<SupportMoveOrder> supports = orders
                    .OfType<SupportMoveOrder>()
                    .Where(support => support.IsSupportFor(move))
                    .ToList();

                // Determine if this move is a head-to-head battle.
                MoveOrder? opposingMove = orders
                    .OfType<MoveOrder>()
                    .FirstOrDefault(other => other != null && other.IsOpposing(move), null);

                // Find competing moves.
                List<MoveOrder> competing = orders
                    .OfType<MoveOrder>()
                    .Where(other
                        => other != move
                        && other.Location.Province == move.Location.Province)
                    .ToList();

                // Create the move-related decisions.
                this.HasPath[move] = new(move);
                this.AttackStrength[move] = new(move, supports, opposingMove);
                this.DefendStrength[move] = new(move, supports);
                this.PreventStrength[move] = new(move, supports, opposingMove);
                this.DoesMove[move] = new(move, opposingMove, competing);

                // Ensure a hold strength decision exists for the destination.
                if (!this.HoldStrength.ContainsKey(move.Point))
                {
                    this.HoldStrength[move.Point] = new(move.Point);
                }
            }
            else if (order is SupportOrder support)
            {
                // Create the support decision.
                this.GivesSupport[support] = new(support, incoming);

                // Ensure a hold strength decision exists for the target's province.
                if (!this.HoldStrength.ContainsKey(support.Target.Point))
                {
                    this.HoldStrength[support.Target.Point] = new(support.Target.Point);
                }

                if (support is SupportHoldOrder supportHold)
                {
                    this.HoldStrength[support.Target.Point].Supports.Add(supportHold);
                }
                else if (support is SupportMoveOrder supportMove)
                {
                    // Ensure a hold strength decision exists for the target's destination.
                    if (!this.HoldStrength.ContainsKey(supportMove.Point))
                    {
                        this.HoldStrength[supportMove.Point] = new(supportMove.Point);
                    }
                }
            }
        }
    }
}
Refactor adjudication into separate adjudication and update steps This makes it easier to unit test adjudication decisions directly. 2022-03-27 21:36:49 +00:00			`using MultiversalDiplomacy.Model;`
			`using MultiversalDiplomacy.Orders;`

			`namespace MultiversalDiplomacy.Adjudicate.Decision;`

			`public class MovementDecisions`
			`{`
			`public Dictionary<Unit, IsDislodged> IsDislodged { get; }`
			`public Dictionary<MoveOrder, HasPath> HasPath { get; }`
			`public Dictionary<SupportOrder, GivesSupport> GivesSupport { get; }`
Enable hold strength across parallel worlds 2022-03-29 00:41:38 +00:00			`public Dictionary<(Province, Season), HoldStrength> HoldStrength { get; }`
Refactor adjudication into separate adjudication and update steps This makes it easier to unit test adjudication decisions directly. 2022-03-27 21:36:49 +00:00			`public Dictionary<MoveOrder, AttackStrength> AttackStrength { get; }`
			`public Dictionary<MoveOrder, DefendStrength> DefendStrength { get; }`
			`public Dictionary<MoveOrder, PreventStrength> PreventStrength { get; }`
			`public Dictionary<MoveOrder, DoesMove> DoesMove { get; }`

			`public IEnumerable<AdjudicationDecision> Values =>`
			`this.IsDislodged.Values.Cast<AdjudicationDecision>()`
			`.Concat(this.HasPath.Values)`
			`.Concat(this.GivesSupport.Values)`
			`.Concat(this.HoldStrength.Values)`
			`.Concat(this.AttackStrength.Values)`
			`.Concat(this.DefendStrength.Values)`
			`.Concat(this.PreventStrength.Values)`
			`.Concat(this.DoesMove.Values);`

Save previous orders so time travel can re-adjudicate them 2022-03-30 03:40:19 +00:00			`public MovementDecisions(World world, List<Order> orders)`
Refactor adjudication into separate adjudication and update steps This makes it easier to unit test adjudication decisions directly. 2022-03-27 21:36:49 +00:00			`{`
			`this.IsDislodged = new();`
			`this.HasPath = new();`
			`this.GivesSupport = new();`
			`this.HoldStrength = new();`
			`this.AttackStrength = new();`
			`this.DefendStrength = new();`
			`this.PreventStrength = new();`
			`this.DoesMove = new();`

Save previous orders so time travel can re-adjudicate them 2022-03-30 03:40:19 +00:00			`// Record which seasons are referenced by the order set.`
			`HashSet<Season> orderedSeasons = new();`
			`foreach (UnitOrder order in orders.Cast<UnitOrder>())`
			`{`
			`_ = orderedSeasons.Add(order.Unit.Season);`
			`}`

			`// Expand the order list to include any other seasons that are potentially affected.`
			`// In the event that those seasons don't end up affected (all moves to it fail, all`
			`// supports to it are cut), it is still safe to re-adjudicate everything because`
			`// adjudication is deterministic and doesn't produce side effects.`
			`HashSet<Season> affectedSeasons = new();`
			`foreach (Order order in orders)`
			`{`
			`switch (order)`
			`{`
			`case MoveOrder move:`
			`if (!orderedSeasons.Contains(move.Season))`
			`{`
			`affectedSeasons.Add(move.Season);`
			`}`
			`break;`

			`case SupportHoldOrder supportHold:`
			`if (!orderedSeasons.Contains(supportHold.Target.Season))`
			`{`
			`affectedSeasons.Add(supportHold.Target.Season);`
			`}`
			`break;`

			`case SupportMoveOrder supportMove:`
			`if (!orderedSeasons.Contains(supportMove.Target.Season))`
			`{`
			`affectedSeasons.Add(supportMove.Target.Season);`
			`}`
			`break;`
			`}`
			`}`
			`foreach (Season season in affectedSeasons)`
			`{`
			`orders.AddRange(world.GivenOrders[season]);`
			`}`

			`// Create the relevant decisions for each order.`
Refactor adjudication into separate adjudication and update steps This makes it easier to unit test adjudication decisions directly. 2022-03-27 21:36:49 +00:00			`foreach (UnitOrder order in orders.Cast<UnitOrder>())`
			`{`
			`// Create a dislodge decision for this unit.`
			`List<MoveOrder> incoming = orders`
			`.OfType<MoveOrder>()`
			`.Where(move => move.Location.Province == order.Unit.Location.Province)`
			`.ToList();`
			`this.IsDislodged[order.Unit] = new(order, incoming);`

			`// Ensure a hold strength decision exists. Overwrite any previous once, since it may`
			`// have been created without an order by a previous move or support.`
Enable hold strength across parallel worlds 2022-03-29 00:41:38 +00:00			`this.HoldStrength[order.Unit.Point] = new(order.Unit.Point, order);`
Refactor adjudication into separate adjudication and update steps This makes it easier to unit test adjudication decisions directly. 2022-03-27 21:36:49 +00:00
			`if (order is MoveOrder move)`
			`{`
			`// Find supports corresponding to this move.`
			`List<SupportMoveOrder> supports = orders`
			`.OfType<SupportMoveOrder>()`
			`.Where(support => support.IsSupportFor(move))`
			`.ToList();`

			`// Determine if this move is a head-to-head battle.`
			`MoveOrder? opposingMove = orders`
			`.OfType<MoveOrder>()`
			`.FirstOrDefault(other => other != null && other.IsOpposing(move), null);`

			`// Find competing moves.`
			`List<MoveOrder> competing = orders`
			`.OfType<MoveOrder>()`
Add some basic unit tests for the movement adjudicator 2022-03-27 22:10:34 +00:00			`.Where(other`
			`=> other != move`
			`&& other.Location.Province == move.Location.Province)`
Refactor adjudication into separate adjudication and update steps This makes it easier to unit test adjudication decisions directly. 2022-03-27 21:36:49 +00:00			`.ToList();`

			`// Create the move-related decisions.`
			`this.HasPath[move] = new(move);`
			`this.AttackStrength[move] = new(move, supports, opposingMove);`
			`this.DefendStrength[move] = new(move, supports);`
			`this.PreventStrength[move] = new(move, supports, opposingMove);`
			`this.DoesMove[move] = new(move, opposingMove, competing);`

			`// Ensure a hold strength decision exists for the destination.`
Enable hold strength across parallel worlds 2022-03-29 00:41:38 +00:00			`if (!this.HoldStrength.ContainsKey(move.Point))`
Refactor adjudication into separate adjudication and update steps This makes it easier to unit test adjudication decisions directly. 2022-03-27 21:36:49 +00:00			`{`
Enable hold strength across parallel worlds 2022-03-29 00:41:38 +00:00			`this.HoldStrength[move.Point] = new(move.Point);`
Refactor adjudication into separate adjudication and update steps This makes it easier to unit test adjudication decisions directly. 2022-03-27 21:36:49 +00:00			`}`
			`}`
			`else if (order is SupportOrder support)`
			`{`
			`// Create the support decision.`
			`this.GivesSupport[support] = new(support, incoming);`

			`// Ensure a hold strength decision exists for the target's province.`
Enable hold strength across parallel worlds 2022-03-29 00:41:38 +00:00			`if (!this.HoldStrength.ContainsKey(support.Target.Point))`
Refactor adjudication into separate adjudication and update steps This makes it easier to unit test adjudication decisions directly. 2022-03-27 21:36:49 +00:00			`{`
Enable hold strength across parallel worlds 2022-03-29 00:41:38 +00:00			`this.HoldStrength[support.Target.Point] = new(support.Target.Point);`
Refactor adjudication into separate adjudication and update steps This makes it easier to unit test adjudication decisions directly. 2022-03-27 21:36:49 +00:00			`}`

			`if (support is SupportHoldOrder supportHold)`
			`{`
Enable hold strength across parallel worlds 2022-03-29 00:41:38 +00:00			`this.HoldStrength[support.Target.Point].Supports.Add(supportHold);`
Refactor adjudication into separate adjudication and update steps This makes it easier to unit test adjudication decisions directly. 2022-03-27 21:36:49 +00:00			`}`
			`else if (support is SupportMoveOrder supportMove)`
			`{`
			`// Ensure a hold strength decision exists for the target's destination.`
Enable hold strength across parallel worlds 2022-03-29 00:41:38 +00:00			`if (!this.HoldStrength.ContainsKey(supportMove.Point))`
Refactor adjudication into separate adjudication and update steps This makes it easier to unit test adjudication decisions directly. 2022-03-27 21:36:49 +00:00			`{`
Enable hold strength across parallel worlds 2022-03-29 00:41:38 +00:00			`this.HoldStrength[supportMove.Point] = new(supportMove.Point);`
Refactor adjudication into separate adjudication and update steps This makes it easier to unit test adjudication decisions directly. 2022-03-27 21:36:49 +00:00			`}`
			`}`
			`}`
			`}`
			`}`
			`}`