using Microsoft.EntityFrameworkCore;
using Microsoft.Extensions.DependencyInjection;
using SVSim.Database;
using SVSim.Database.Enums;
using SVSim.Database.Models;
using SVSim.Database.Repositories.Card;
using SVSim.UnitTests.Infrastructure;
namespace SVSim.UnitTests.Repositories;
///
/// Coverage for CardInventoryRepository.DestructCards. Exercises the validate→mutate
/// loop directly so tests don't need to round-trip through HTTP; the controller-level wire
/// behavior is covered separately in CardControllerTests.
///
public class CardInventoryRepositoryTests
{
[Test]
public async Task Destruct_single_card_decrements_count_and_awards_vials()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 5, dustReward: 50);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.DestructCards(viewerId, new Dictionary { { 10001001L, 1 } });
Assert.That(outcome.IsSuccess, Is.True, outcome.Error?.ToString());
Assert.That(outcome.Result!.NewRedEtherTotal, Is.EqualTo(50UL));
Assert.That(outcome.Result!.NewOwnedCounts[10001001L], Is.EqualTo(4));
// Verify persisted state matches what was returned
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.Include(v => v.Cards).ThenInclude(c => c.Card).FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Currency.RedEther, Is.EqualTo(50UL));
Assert.That(viewer.Cards.First(c => c.Card.Id == 10001001L).Count, Is.EqualTo(4));
}
[Test]
public async Task Destruct_batch_decrements_each_card_and_sums_vials()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 3, dustReward: 50);
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001002L, count: 2, dustReward: 200);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.DestructCards(viewerId, new Dictionary
{
{ 10001001L, 2 },
{ 10001002L, 1 },
});
Assert.That(outcome.IsSuccess, Is.True);
// 2 * 50 + 1 * 200 = 300
Assert.That(outcome.Result!.NewRedEtherTotal, Is.EqualTo(300UL));
Assert.That(outcome.Result!.NewOwnedCounts[10001001L], Is.EqualTo(1));
Assert.That(outcome.Result!.NewOwnedCounts[10001002L], Is.EqualTo(1));
}
[Test]
public async Task Destruct_leaves_zero_count_row_after_destructing_last_copy()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
// We just verify the OwnedCardEntry row survives a destruct-to-zero, so future operations (re-protect, re-craft) can attach to it.
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 1, dustReward: 50);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.DestructCards(viewerId, new Dictionary { { 10001001L, 1 } });
Assert.That(outcome.IsSuccess, Is.True);
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.Include(v => v.Cards).ThenInclude(c => c.Card).FirstAsync(v => v.Id == viewerId);
var owned = viewer.Cards.FirstOrDefault(c => c.Card.Id == 10001001L);
Assert.That(owned, Is.Not.Null, "OwnedCardEntry row should remain after destruct-to-zero");
Assert.That(owned!.Count, Is.EqualTo(0));
}
[Test]
public async Task Destruct_rejects_unknown_card_without_mutation()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 5, dustReward: 50);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.DestructCards(viewerId, new Dictionary { { 99_999_999L, 1 } });
Assert.That(outcome.IsSuccess, Is.False);
Assert.That(outcome.Error, Is.EqualTo(DestructError.UnknownCard));
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.Include(v => v.Cards).ThenInclude(c => c.Card).FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Currency.RedEther, Is.EqualTo(0UL));
Assert.That(viewer.Cards.First(c => c.Card.Id == 10001001L).Count, Is.EqualTo(5));
}
[Test]
public async Task Destruct_rejects_insufficient_count_without_mutation()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 2, dustReward: 50);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.DestructCards(viewerId, new Dictionary { { 10001001L, 3 } });
Assert.That(outcome.IsSuccess, Is.False);
Assert.That(outcome.Error, Is.EqualTo(DestructError.InsufficientCards));
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.Include(v => v.Cards).ThenInclude(c => c.Card).FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Currency.RedEther, Is.EqualTo(0UL));
Assert.That(viewer.Cards.First(c => c.Card.Id == 10001001L).Count, Is.EqualTo(2));
}
[Test]
public async Task Destruct_rejects_protected_card_without_mutation()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 3, dustReward: 50, isProtected: true);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.DestructCards(viewerId, new Dictionary { { 10001001L, 1 } });
Assert.That(outcome.IsSuccess, Is.False);
Assert.That(outcome.Error, Is.EqualTo(DestructError.CardProtected));
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.Include(v => v.Cards).ThenInclude(c => c.Card).FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Currency.RedEther, Is.EqualTo(0UL));
Assert.That(viewer.Cards.First(c => c.Card.Id == 10001001L).Count, Is.EqualTo(3));
}
[Test]
public async Task Destruct_rejects_non_destructible_card_without_mutation()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
// dustReward=0 marks a card as IsNotCraftDestruct (e.g. tokens, basics)
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 3, dustReward: 0, craftCost: 0);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.DestructCards(viewerId, new Dictionary { { 10001001L, 1 } });
Assert.That(outcome.IsSuccess, Is.False);
Assert.That(outcome.Error, Is.EqualTo(DestructError.NotDestructible));
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.Include(v => v.Cards).ThenInclude(c => c.Card).FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Cards.First(c => c.Card.Id == 10001001L).Count, Is.EqualTo(3));
}
[Test]
public async Task Destruct_validates_full_batch_before_mutating()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 5, dustReward: 50);
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001002L, count: 3, dustReward: 200, isProtected: true);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.DestructCards(viewerId, new Dictionary
{
{ 10001001L, 2 }, // would-be valid
{ 10001002L, 1 }, // protected — fails validation
});
Assert.That(outcome.IsSuccess, Is.False);
Assert.That(outcome.Error, Is.EqualTo(DestructError.CardProtected));
// Critical: the valid card must be untouched. Proves validation runs against the full
// batch before any inventory write.
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.Include(v => v.Cards).ThenInclude(c => c.Card).FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Currency.RedEther, Is.EqualTo(0UL), "no vials awarded when batch fails");
Assert.That(viewer.Cards.First(c => c.Card.Id == 10001001L).Count, Is.EqualTo(5));
Assert.That(viewer.Cards.First(c => c.Card.Id == 10001002L).Count, Is.EqualTo(3));
}
[Test]
public async Task Destruct_strips_excess_copies_from_a_deck()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 3, dustReward: 50);
await factory.SeedDeckAsync(viewerId, Format.Rotation, number: 1);
await factory.AddCardToDeckAsync(viewerId, Format.Rotation, deckNumber: 1, cardId: 10001001L, count: 3);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
// Destruct 2 — owned drops from 3 to 1 — deck must lose 2 of the 3 copies it had.
var outcome = await repo.DestructCards(viewerId, new Dictionary { { 10001001L, 2 } });
Assert.That(outcome.IsSuccess, Is.True);
var db = scope.ServiceProvider.GetRequiredService();
var deck = await db.Viewers
.Where(v => v.Id == viewerId)
.SelectMany(v => v.Decks)
.Include(d => d.Cards).ThenInclude(c => c.Card)
.FirstAsync(d => d.Format == Format.Rotation && d.Number == 1);
var deckCard = deck.Cards.First(c => c.Card.Id == 10001001L);
Assert.That(deckCard.Count, Is.EqualTo(1), "deck should now hold only 1 copy of the card");
}
[Test]
public async Task Destruct_strips_excess_across_multiple_decks()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 3, dustReward: 50);
await factory.SeedDeckAsync(viewerId, Format.Rotation, number: 1);
await factory.SeedDeckAsync(viewerId, Format.Rotation, number: 2);
await factory.AddCardToDeckAsync(viewerId, Format.Rotation, 1, cardId: 10001001L, count: 3);
await factory.AddCardToDeckAsync(viewerId, Format.Rotation, 2, cardId: 10001001L, count: 3);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
// Destruct 1 — owned drops from 3 to 2 — each deck must lose 1 copy.
var outcome = await repo.DestructCards(viewerId, new Dictionary { { 10001001L, 1 } });
Assert.That(outcome.IsSuccess, Is.True);
var db = scope.ServiceProvider.GetRequiredService();
var decks = await db.Viewers
.Where(v => v.Id == viewerId)
.SelectMany(v => v.Decks)
.Include(d => d.Cards).ThenInclude(c => c.Card)
.Where(d => d.Format == Format.Rotation)
.ToListAsync();
foreach (var deck in decks)
{
Assert.That(deck.Cards.First(c => c.Card.Id == 10001001L).Count, Is.EqualTo(2),
$"deck {deck.Number} should now hold 2 copies");
}
}
[Test]
public async Task Destruct_leaves_deck_untouched_when_owned_still_covers()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 5, dustReward: 50);
await factory.SeedDeckAsync(viewerId, Format.Rotation, number: 1);
await factory.AddCardToDeckAsync(viewerId, Format.Rotation, 1, cardId: 10001001L, count: 2);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
// Destruct 2 — owned drops from 5 to 3 — deck still uses only 2, no strip needed.
var outcome = await repo.DestructCards(viewerId, new Dictionary { { 10001001L, 2 } });
Assert.That(outcome.IsSuccess, Is.True);
var db = scope.ServiceProvider.GetRequiredService();
var deck = await db.Viewers
.Where(v => v.Id == viewerId)
.SelectMany(v => v.Decks)
.Include(d => d.Cards).ThenInclude(c => c.Card)
.FirstAsync(d => d.Format == Format.Rotation && d.Number == 1);
Assert.That(deck.Cards.First(c => c.Card.Id == 10001001L).Count, Is.EqualTo(2),
"deck untouched because owned (3) still covers usage (2)");
}
[Test]
public async Task Create_single_card_debits_vials_and_grants_copy()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 0, craftCost: 200);
await factory.SetRedEtherAsync(viewerId, 1_000UL);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.CreateCards(viewerId, new Dictionary { { 10001001L, 1 } });
Assert.That(outcome.IsSuccess, Is.True, outcome.Error?.ToString());
Assert.That(outcome.Result!.NewRedEtherTotal, Is.EqualTo(800UL), "1000 - 200 = 800");
var grants = outcome.Result!.Grants;
Assert.That(grants.Any(g => g.RewardType == (int)UserGoodsType.Card
&& g.RewardId == 10001001L
&& g.RewardNum == 1), Is.True);
// Verify persisted state
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers
.Include(v => v.Cards).ThenInclude(c => c.Card)
.FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Currency.RedEther, Is.EqualTo(800UL));
Assert.That(viewer.Cards.First(c => c.Card.Id == 10001001L).Count, Is.EqualTo(1));
}
[Test]
public async Task Create_batch_charges_sum_and_grants_each_card()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 0, craftCost: 200);
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001002L, count: 0, craftCost: 800);
await factory.SetRedEtherAsync(viewerId, 5_000UL);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.CreateCards(viewerId, new Dictionary
{
{ 10001001L, 2 },
{ 10001002L, 1 },
});
Assert.That(outcome.IsSuccess, Is.True);
// 2 * 200 + 1 * 800 = 1200 → 5000 - 1200 = 3800
Assert.That(outcome.Result!.NewRedEtherTotal, Is.EqualTo(3_800UL));
var grants = outcome.Result!.Grants;
Assert.That(grants.Any(g => g.RewardId == 10001001L && g.RewardNum == 2), Is.True);
Assert.That(grants.Any(g => g.RewardId == 10001002L && g.RewardNum == 1), Is.True);
}
[Test]
public async Task Create_rejects_unknown_card_without_mutation()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SetRedEtherAsync(viewerId, 1_000UL);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.CreateCards(viewerId, new Dictionary { { 99_999_999L, 1 } });
Assert.That(outcome.IsSuccess, Is.False);
Assert.That(outcome.Error, Is.EqualTo(CreateError.UnknownCard));
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Currency.RedEther, Is.EqualTo(1_000UL), "no debit on rejection");
}
[Test]
public async Task Create_rejects_not_craftable_card_without_mutation()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
// craftCost=0 mirrors IsNotCraftDestruct on basic/token cards
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 0, craftCost: 0, dustReward: 0);
await factory.SetRedEtherAsync(viewerId, 1_000UL);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.CreateCards(viewerId, new Dictionary { { 10001001L, 1 } });
Assert.That(outcome.IsSuccess, Is.False);
Assert.That(outcome.Error, Is.EqualTo(CreateError.NotCraftable));
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Currency.RedEther, Is.EqualTo(1_000UL));
}
[Test]
public async Task Create_rejects_when_would_exceed_max_copies()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
// Viewer already owns 2 copies — crafting 2 more would push to 4, exceeding MaxCopies=3.
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 2, craftCost: 200);
await factory.SetRedEtherAsync(viewerId, 1_000UL);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.CreateCards(viewerId, new Dictionary { { 10001001L, 2 } });
Assert.That(outcome.IsSuccess, Is.False);
Assert.That(outcome.Error, Is.EqualTo(CreateError.WouldExceedMaxCopies));
}
[Test]
public async Task Create_at_boundary_2_to_3_succeeds()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 2, craftCost: 200);
await factory.SetRedEtherAsync(viewerId, 1_000UL);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
// 2 + 1 = 3 = MaxCopies — must succeed
var outcome = await repo.CreateCards(viewerId, new Dictionary { { 10001001L, 1 } });
Assert.That(outcome.IsSuccess, Is.True);
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.Include(v => v.Cards).ThenInclude(c => c.Card).FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Cards.First(c => c.Card.Id == 10001001L).Count, Is.EqualTo(3));
}
[Test]
public async Task Create_rejects_insufficient_vials_without_mutation()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 0, craftCost: 200);
await factory.SetRedEtherAsync(viewerId, 199UL); // one less than needed
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.CreateCards(viewerId, new Dictionary { { 10001001L, 1 } });
Assert.That(outcome.IsSuccess, Is.False);
Assert.That(outcome.Error, Is.EqualTo(CreateError.InsufficientVials));
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.Include(v => v.Cards).ThenInclude(c => c.Card).FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Currency.RedEther, Is.EqualTo(199UL), "no debit on rejection");
Assert.That(viewer.Cards.First(c => c.Card.Id == 10001001L).Count, Is.EqualTo(0), "no grant on rejection");
}
[Test]
public async Task Create_validates_full_batch_before_mutating()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 0, craftCost: 200);
// Second card has count=3 already — adding any would exceed MaxCopies
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001002L, count: 3, craftCost: 200);
await factory.SetRedEtherAsync(viewerId, 1_000UL);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.CreateCards(viewerId, new Dictionary
{
{ 10001001L, 1 }, // would-be valid
{ 10001002L, 1 }, // would push to 4 — fails validation
});
Assert.That(outcome.IsSuccess, Is.False);
Assert.That(outcome.Error, Is.EqualTo(CreateError.WouldExceedMaxCopies));
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.Include(v => v.Cards).ThenInclude(c => c.Card).FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Currency.RedEther, Is.EqualTo(1_000UL), "no debit when batch fails");
Assert.That(viewer.Cards.First(c => c.Card.Id == 10001001L).Count, Is.EqualTo(0), "valid card untouched");
}
[Test]
public async Task Create_first_time_owner_triggers_cosmetic_cascade()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
using var scope = factory.Services.CreateScope();
var ctx = scope.ServiceProvider.GetRequiredService();
// Set up a card with a cosmetic-cascade row pointing at a Skin the viewer doesn't own.
// Use ids outside the seeded 10001001–10001003 range so the cascade can't accidentally
// pick up unrelated rows.
const long cardId = 999_003_010L;
const long skinId = 999_003_011L;
ctx.Cards.Add(new ShadowverseCardEntry
{
Id = cardId, Name = "CreateCascadeCard", Rarity = Rarity.Gold,
CollectionInfo = new CardCollectionInfo { CraftCost = 800, DustReward = 200 },
});
ctx.LeaderSkins.Add(new LeaderSkinEntry { Id = (int)skinId, Name = "CreateCascadeSkin" });
ctx.CardCosmeticRewards.Add(new CardCosmeticReward
{
CardId = cardId, Type = CosmeticType.Skin, CosmeticId = skinId, Quantity = 1,
});
await ctx.SaveChangesAsync();
// Give the viewer enough RedEther in a separate scope so the helper's reset doesn't fire.
await factory.SetRedEtherAsync(viewerId, 1_000UL);
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.CreateCards(viewerId, new Dictionary { { cardId, 1 } });
Assert.That(outcome.IsSuccess, Is.True);
var grants = outcome.Result!.Grants;
// One Card grant + one Skin cascade grant
Assert.That(grants.Any(g => g.RewardType == (int)UserGoodsType.Card && g.RewardId == cardId), Is.True);
Assert.That(grants.Any(g => g.RewardType == (int)UserGoodsType.Skin && g.RewardId == skinId), Is.True);
var viewer = await ctx.Viewers
.Include(v => v.LeaderSkins)
.FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.LeaderSkins.Any(s => s.Id == (int)skinId), Is.True, "cascade actually granted the skin");
}
[Test]
public async Task SetProtected_flips_flag_on_owned_card()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 2, isProtected: false);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.SetProtected(viewerId, 10001001L, isProtected: true);
Assert.That(outcome.IsSuccess, Is.True);
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.Include(v => v.Cards).ThenInclude(c => c.Card).FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Cards.First(c => c.Card.Id == 10001001L).IsProtected, Is.True);
}
[Test]
public async Task SetProtected_unsets_flag_when_isProtected_false()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 2, isProtected: true);
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.SetProtected(viewerId, 10001001L, isProtected: false);
Assert.That(outcome.IsSuccess, Is.True);
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.Include(v => v.Cards).ThenInclude(c => c.Card).FirstAsync(v => v.Id == viewerId);
Assert.That(viewer.Cards.First(c => c.Card.Id == 10001001L).IsProtected, Is.False);
}
[Test]
public async Task SetProtected_allows_zero_count_row()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
// Round-trip: own 1 → destruct 1 → Count=0 row remains → protect succeeds
await factory.SeedOwnedCardAsync(viewerId, cardId: 10001001L, count: 1, dustReward: 50);
using var setup = factory.Services.CreateScope();
var setupRepo = setup.ServiceProvider.GetRequiredService();
var destruct = await setupRepo.DestructCards(viewerId, new Dictionary { { 10001001L, 1 } });
Assert.That(destruct.IsSuccess, Is.True, "setup precondition: destruct-to-zero");
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.SetProtected(viewerId, 10001001L, isProtected: true);
Assert.That(outcome.IsSuccess, Is.True);
var db = scope.ServiceProvider.GetRequiredService();
var viewer = await db.Viewers.Include(v => v.Cards).ThenInclude(c => c.Card).FirstAsync(v => v.Id == viewerId);
var owned = viewer.Cards.First(c => c.Card.Id == 10001001L);
Assert.That(owned.Count, Is.EqualTo(0));
Assert.That(owned.IsProtected, Is.True, "protect on zero-count row must persist");
}
[Test]
public async Task SetProtected_unknown_card_returns_error()
{
using var factory = new SVSimTestFactory();
long viewerId = await factory.SeedViewerAsync();
// No OwnedCardEntry row at all
using var scope = factory.Services.CreateScope();
var repo = scope.ServiceProvider.GetRequiredService();
var outcome = await repo.SetProtected(viewerId, 99_999_999L, isProtected: true);
Assert.That(outcome.IsSuccess, Is.False);
Assert.That(outcome.Error, Is.EqualTo(ProtectError.UnknownCard));
}
}