SVSimServer/SVSim.BattleNode/Sessions/Dispatch/BattleSessionState.cs

using SVSim.BattleNode.Sessions;

namespace SVSim.BattleNode.Sessions.Dispatch;

/// <summary>Mutable per-session state shared across frame handlers. The mulligan barrier's
/// post-swap hands, plus (PvP-equivalency, vanilla slice) the per-side idx->cardId map used to
/// synthesize the opponent-facing <c>knownList</c>. Generated tokens (cardIds mined from
/// orderList <c>add</c> ops) are recorded into the SAME
/// <see cref="IdxToCardId"/> map via <see cref="RecordToken"/>; a reveal-gate set is still future.</summary>
internal sealed class BattleSessionState
{
    public BattleSessionPhase SessionPhase { get; set; } = BattleSessionPhase.AwaitingInitNetwork;
    public Dictionary<IBattleParticipant, long[]> PostSwapHands { get; } = new();

    /// <summary>Per-side idx->cardId, seeded lazily from <see cref="MatchContext.SelfDeckCardIds"/>.
    /// Holds deck cards (idx 1..deckCount, seeded) and generated tokens (idx>deckCount, recorded
    /// from add ops via <see cref="RecordToken"/>).</summary>
    public Dictionary<IBattleParticipant, Dictionary<int, long>> IdxToCardId { get; } = new();

    /// <summary>The sender's idx->cardId map, seeding it from its <see cref="MatchContext"/> on first
    /// use. <c>BuildPlayerDeck</c> assigns deck idx = position+1, so entry (i+1) -> cardIds[i].</summary>
    public IReadOnlyDictionary<int, long> GetOrSeedDeckMap(IBattleParticipant side)
    {
        if (!IdxToCardId.TryGetValue(side, out var map))
        {
            map = new Dictionary<int, long>();
            var deck = side.Context.SelfDeckCardIds;
            for (var i = 0; i < deck.Count; i++) map[i + 1] = deck[i];
            IdxToCardId[side] = map;
        }
        return map;
    }

    /// <summary>Record a generated token's identity into the side's idx->cardId map (the same map
    /// that holds deck cards). Mined from the sender's <c>orderList</c> <c>add</c> ops by
    /// <see cref="KnownListBuilder.MineAddOps"/>; surfaced later by <c>BuildPlayedCard</c> when the
    /// token is the played card. Deck idxs (1..deckCount) and token idxs (&gt;deckCount) don't
    /// collide — the client allocates token idxs after the deck.</summary>
    public void RecordToken(IBattleParticipant side, int idx, long cardId)
    {
        GetOrSeedDeckMap(side);            // ensure the per-side map exists (deck-seeded)
        IdxToCardId[side][idx] = cardId;   // overwrite-on-conflict: latest identity wins
    }

    /// <summary>Mine generated-token identities from a sender's <c>orderList</c> <c>add</c> ops and
    /// record each into the correct side's map. <c>isSelf:1</c> → the sender's own token (<paramref
    /// name="from"/>); <c>isSelf:0</c> → a cross-side gift living at that idx in the OPPONENT's index
    /// space (<paramref name="other"/>) — <c>isSelf</c> is the sender's perspective tag on
    /// <c>CardObj.IsPlayer</c> (RegisterToken.cs:22), and a card has a single <c>CardObj.Index</c>, so
    /// the gifted idx is the same slot in the recipient's own map (the one consulted when the recipient
    /// later plays it). Shared by <c>PlayActionsHandler</c> and <c>EchoHandler</c> — an Echo's orderList
    /// carries the same add-op shape (<c>SendCardDataMaker.MakeEchoData</c>), so both mine identically;
    /// Echo is mined but never relayed.</summary>
    public void RecordTokensFrom(IBattleParticipant from, IBattleParticipant other, object? orderList)
    {
        foreach (var (idx, cardId, isSelf) in KnownListBuilder.MineAddOps(orderList))
            RecordToken(isSelf == 1 ? from : other, idx, cardId);
    }
}