using Big.Application; using Big.Domain; namespace Big.Tests; public class WithdrawRegistrationTests { [Fact] public async Task Withdrawing_marks_the_registration_ingetrokken_and_persists_it() { var store = new FakeRegistrationStore(); var registration = Registration.Submit("123456782"); store.Seed(registration); var handler = new WithdrawRegistration(store); await handler.HandleAsync(new WithdrawRegistrationCommand(registration.Id)); var saved = await store.GetAsync(registration.Id); Assert.Equal(RegistrationStatus.Ingetrokken, saved!.Status); Assert.Equal(1, store.SaveCount); } [Fact] public async Task Rejects_a_null_command_without_touching_the_store() { var store = new FakeRegistrationStore(); var handler = new WithdrawRegistration(store); await Assert.ThrowsAsync(() => handler.HandleAsync(null!)); Assert.Equal(0, store.SaveCount); } [Fact] public async Task Withdrawing_an_unknown_registration_throws() { var store = new FakeRegistrationStore(); var handler = new WithdrawRegistration(store); var ex = await Assert.ThrowsAsync( () => handler.HandleAsync(new WithdrawRegistrationCommand(RegistrationId.New()))); Assert.Contains("No registration", ex.Message); Assert.Equal(0, store.SaveCount); } [Fact] public async Task Re_withdrawing_an_already_ingetrokken_registration_is_idempotent() { var store = new FakeRegistrationStore(); var registration = Registration.Submit("123456782"); store.Seed(registration); var handler = new WithdrawRegistration(store); await handler.HandleAsync(new WithdrawRegistrationCommand(registration.Id)); await handler.HandleAsync(new WithdrawRegistrationCommand(registration.Id)); // The second withdrawal is a no-op: the aggregate is not persisted again. Assert.Equal(1, store.SaveCount); Assert.Equal(RegistrationStatus.Ingetrokken, (await store.GetAsync(registration.Id))!.Status); } }