package domain_test import ( "cmp" "fmt" "slices" "testing" "time" "gitea.dwysokinski.me/twhelp/corev3/internal/domain" "gitea.dwysokinski.me/twhelp/corev3/internal/domain/domaintest" "github.com/brianvoe/gofakeit/v6" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) func TestPlayers_Delete(t *testing.T) { t.Parallel() server := domaintest.NewServer(t) active := domain.BasePlayers{ domaintest.NewBasePlayer(t), domaintest.NewBasePlayer(t), domaintest.NewBasePlayer(t), } players := domain.Players{ domaintest.NewPlayer(t, func(cfg *domaintest.PlayerConfig) { cfg.ID = active[0].ID() cfg.ServerKey = server.Key() }), domaintest.NewPlayer(t, func(cfg *domaintest.PlayerConfig) { // should be deleted cfg.ServerKey = server.Key() cfg.TribeID = 0 }), domaintest.NewPlayer(t, func(cfg *domaintest.PlayerConfig) { // should be deleted + tribe change cfg.ServerKey = server.Key() }), domaintest.NewPlayer(t, func(cfg *domaintest.PlayerConfig) { cfg.ServerKey = server.Key() cfg.DeletedAt = time.Now() }), domaintest.NewPlayer(t, func(cfg *domaintest.PlayerConfig) { cfg.ID = active[1].ID() cfg.ServerKey = server.Key() }), domaintest.NewPlayer(t, func(cfg *domaintest.PlayerConfig) { cfg.ID = active[2].ID() cfg.ServerKey = domaintest.RandServerKey() }), } expectedIDs := []int{players[1].ID(), players[2].ID()} expectedCreateTribeChangeParams := []struct { serverKey string playerID int oldTribeID int newTribeID int }{ { serverKey: server.Key(), playerID: players[2].ID(), oldTribeID: players[2].TribeID(), newTribeID: 0, }, } slices.Sort(expectedIDs) slices.SortFunc(active, func(a, b domain.BasePlayer) int { return cmp.Compare(a.ID(), b.ID()) }) slices.SortFunc(players, func(a, b domain.Player) int { return cmp.Or( cmp.Compare(a.ServerKey(), b.ServerKey()), cmp.Compare(a.ID(), b.ID()), ) }) ids, tribeChangesParams, err := players.Delete(server.Key(), active) require.NoError(t, err) assert.Equal(t, expectedIDs, ids) assert.Len(t, tribeChangesParams, len(expectedCreateTribeChangeParams)) for i, expected := range expectedCreateTribeChangeParams { idx := slices.IndexFunc(tribeChangesParams, func(params domain.CreateTribeChangeParams) bool { return params.PlayerID() == expected.playerID && params.ServerKey() == expected.serverKey }) require.GreaterOrEqualf(t, idx, 0, "expectedCreateTribeChangeParams[%d] not found", i) params := tribeChangesParams[idx] assert.Equalf(t, expected.serverKey, params.ServerKey(), "expectedCreateTribeChangeParams[%d]", i) assert.Equalf(t, expected.playerID, params.PlayerID(), "expectedCreateTribeChangeParams[%d]", i) assert.Equalf(t, expected.newTribeID, params.NewTribeID(), "expectedCreateTribeChangeParams[%d]", i) assert.Equalf(t, expected.oldTribeID, params.OldTribeID(), "expectedCreateTribeChangeParams[%d]", i) } } func TestNewCreatePlayerParams(t *testing.T) { t.Parallel() now := time.Now() server := domaintest.NewServer(t) players := domain.BasePlayers{ domaintest.NewBasePlayer(t), domaintest.NewBasePlayer(t), domaintest.NewBasePlayer(t), } slices.SortFunc(players, func(a, b domain.BasePlayer) int { return cmp.Compare(a.ID(), b.ID()) }) storedPlayers := domain.Players{ // server with random server key to verify that slice order matters domaintest.NewPlayer(t, func(cfg *domaintest.PlayerConfig) { cfg.ID = players[0].ID() cfg.ServerKey = domaintest.RandServerKey() }), // should update BestRank/MostPoints/MostVillages/LastActivityAt domaintest.NewPlayer(t, func(cfg *domaintest.PlayerConfig) { cfg.ID = players[0].ID() cfg.Points = players[0].Points() - 1 cfg.NumVillages = players[0].NumVillages() - 1 cfg.OD = players[0].OD() cfg.ServerKey = server.Key() cfg.BestRank = players[0].Rank() + 1 cfg.BestRankAt = now.Add(-time.Hour) cfg.MostPoints = players[0].Points() - 1 cfg.MostPointsAt = now.Add(-time.Hour) cfg.MostVillages = players[0].NumVillages() - 1 cfg.MostVillagesAt = now.Add(-time.Hour) cfg.LastActivityAt = now.Add(-time.Hour) }), // shouldn't update BestRank/MostPoints/MostVillages/LastActivityAt domaintest.NewPlayer(t, func(cfg *domaintest.PlayerConfig) { cfg.ID = players[1].ID() cfg.Points = players[1].Points() + 1 cfg.NumVillages = players[1].NumVillages() + 1 cfg.OD = players[1].OD() cfg.ServerKey = server.Key() cfg.BestRank = players[1].Rank() - 1 cfg.BestRankAt = now.Add(-time.Hour) cfg.MostPoints = players[1].Points() + 1 cfg.MostPointsAt = now.Add(-time.Hour) cfg.MostVillages = players[1].NumVillages() + 1 cfg.MostVillagesAt = now.Add(-time.Hour) cfg.LastActivityAt = now.Add(-time.Hour) }), } storedPlayersSorted := slices.Clone(storedPlayers) slices.SortFunc(storedPlayersSorted, func(a, b domain.Player) int { return cmp.Or( cmp.Compare(a.ServerKey(), b.ServerKey()), cmp.Compare(a.ID(), b.ID()), ) }) expectedParams := []struct { base domain.BasePlayer serverKey string bestRank int bestRankAt time.Time mostPoints int mostPointsAt time.Time mostVillages int mostVillagesAt time.Time lastActivityAt time.Time }{ { base: players[0], serverKey: server.Key(), bestRank: players[0].Rank(), bestRankAt: now, mostPoints: players[0].Points(), mostPointsAt: now, mostVillages: players[0].NumVillages(), mostVillagesAt: now, lastActivityAt: now, }, { base: players[1], serverKey: server.Key(), bestRank: storedPlayers[2].BestRank(), bestRankAt: storedPlayers[2].BestRankAt(), mostPoints: storedPlayers[2].MostPoints(), mostPointsAt: storedPlayers[2].MostPointsAt(), mostVillages: storedPlayers[2].MostVillages(), mostVillagesAt: storedPlayers[2].MostVillagesAt(), lastActivityAt: storedPlayers[2].LastActivityAt(), }, { base: players[2], serverKey: server.Key(), bestRank: players[2].Rank(), bestRankAt: now, mostPoints: players[2].Points(), mostPointsAt: now, mostVillages: players[2].NumVillages(), mostVillagesAt: now, lastActivityAt: now, }, } res, err := domain.NewCreatePlayerParams(server.Key(), players, storedPlayersSorted) require.NoError(t, err) assert.Len(t, res, len(expectedParams)) for i, expected := range expectedParams { idx := slices.IndexFunc(res, func(params domain.CreatePlayerParams) bool { return params.Base().ID() == expected.base.ID() && params.ServerKey() == expected.serverKey }) require.GreaterOrEqualf(t, idx, 0, "expectedParams[%d] not found", i) params := res[idx] assert.Equalf(t, expected.base, params.Base(), "expectedParams[%d]", i) assert.Equalf(t, expected.serverKey, params.ServerKey(), "expectedParams[%d]", i) assert.Equalf(t, expected.bestRank, params.BestRank(), "expectedParams[%d]", i) assert.WithinDurationf(t, expected.bestRankAt, params.BestRankAt(), time.Minute, "expectedParams[%d]", i) assert.Equalf(t, expected.mostPoints, params.MostPoints(), "expectedParams[%d]", i) assert.WithinDurationf(t, expected.mostPointsAt, params.MostPointsAt(), time.Minute, "expectedParams[%d]", i) assert.Equalf(t, expected.mostVillages, params.MostVillages(), "expectedParams[%d]", i) assert.WithinDurationf(t, expected.mostVillagesAt, params.MostVillagesAt(), time.Minute, "expectedParams[%d]", i) assert.WithinDurationf(t, expected.lastActivityAt, params.LastActivityAt(), time.Minute, "expectedParams[%d]", i) } } func TestNewPlayerCursor(t *testing.T) { t.Parallel() validPlayerCursor := domaintest.NewPlayerCursor(t) type args struct { id int serverKey string odScoreAtt int odScoreDef int odScoreTotal int points int deletedAt time.Time } type test struct { name string args args expectedErr error } tests := []test{ { name: "OK", args: args{ id: validPlayerCursor.ID(), serverKey: validPlayerCursor.ServerKey(), odScoreAtt: validPlayerCursor.ODScoreAtt(), odScoreDef: validPlayerCursor.ODScoreDef(), odScoreTotal: validPlayerCursor.ODScoreTotal(), points: validPlayerCursor.Points(), deletedAt: validPlayerCursor.DeletedAt(), }, expectedErr: nil, }, { name: "ERR: id < 1", args: args{ id: 0, serverKey: validPlayerCursor.ServerKey(), odScoreAtt: validPlayerCursor.ODScoreAtt(), odScoreDef: validPlayerCursor.ODScoreDef(), odScoreTotal: validPlayerCursor.ODScoreTotal(), points: validPlayerCursor.Points(), deletedAt: validPlayerCursor.DeletedAt(), }, expectedErr: domain.ValidationError{ Model: "PlayerCursor", Field: "id", Err: domain.MinGreaterEqualError{ Min: 1, Current: 0, }, }, }, { name: "ERR: odScoreAtt < 0", args: args{ id: validPlayerCursor.ID(), serverKey: validPlayerCursor.ServerKey(), odScoreAtt: -1, odScoreDef: validPlayerCursor.ODScoreDef(), odScoreTotal: validPlayerCursor.ODScoreTotal(), points: validPlayerCursor.Points(), deletedAt: validPlayerCursor.DeletedAt(), }, expectedErr: domain.ValidationError{ Model: "PlayerCursor", Field: "odScoreAtt", Err: domain.MinGreaterEqualError{ Min: 0, Current: -1, }, }, }, { name: "ERR: odScoreDef < 0", args: args{ id: validPlayerCursor.ID(), serverKey: validPlayerCursor.ServerKey(), odScoreAtt: validPlayerCursor.ODScoreAtt(), odScoreDef: -1, odScoreTotal: validPlayerCursor.ODScoreTotal(), points: validPlayerCursor.Points(), deletedAt: validPlayerCursor.DeletedAt(), }, expectedErr: domain.ValidationError{ Model: "PlayerCursor", Field: "odScoreDef", Err: domain.MinGreaterEqualError{ Min: 0, Current: -1, }, }, }, { name: "ERR: odScoreTotal < 0", args: args{ id: validPlayerCursor.ID(), serverKey: validPlayerCursor.ServerKey(), odScoreAtt: validPlayerCursor.ODScoreAtt(), odScoreDef: validPlayerCursor.ODScoreDef(), odScoreTotal: -1, points: validPlayerCursor.Points(), deletedAt: validPlayerCursor.DeletedAt(), }, expectedErr: domain.ValidationError{ Model: "PlayerCursor", Field: "odScoreTotal", Err: domain.MinGreaterEqualError{ Min: 0, Current: -1, }, }, }, { name: "ERR: points < 0", args: args{ id: validPlayerCursor.ID(), serverKey: validPlayerCursor.ServerKey(), odScoreAtt: validPlayerCursor.ODScoreAtt(), odScoreDef: validPlayerCursor.ODScoreDef(), odScoreTotal: validPlayerCursor.ODScoreTotal(), points: -1, deletedAt: validPlayerCursor.DeletedAt(), }, expectedErr: domain.ValidationError{ Model: "PlayerCursor", Field: "points", Err: domain.MinGreaterEqualError{ Min: 0, Current: -1, }, }, }, } for _, serverKeyTest := range newServerKeyValidationTests() { tests = append(tests, test{ name: serverKeyTest.name, args: args{ id: validPlayerCursor.ID(), serverKey: serverKeyTest.key, odScoreAtt: validPlayerCursor.ODScoreAtt(), odScoreDef: validPlayerCursor.ODScoreDef(), odScoreTotal: validPlayerCursor.ODScoreTotal(), points: validPlayerCursor.Points(), deletedAt: validPlayerCursor.DeletedAt(), }, expectedErr: domain.ValidationError{ Model: "PlayerCursor", Field: "serverKey", Err: serverKeyTest.expectedErr, }, }) } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { t.Parallel() tc, err := domain.NewPlayerCursor( tt.args.id, tt.args.serverKey, tt.args.odScoreAtt, tt.args.odScoreDef, tt.args.odScoreTotal, tt.args.points, tt.args.deletedAt, ) require.ErrorIs(t, err, tt.expectedErr) if tt.expectedErr != nil { return } assert.Equal(t, tt.args.id, tc.ID()) assert.Equal(t, tt.args.serverKey, tc.ServerKey()) assert.Equal(t, tt.args.odScoreAtt, tc.ODScoreAtt()) assert.Equal(t, tt.args.odScoreDef, tc.ODScoreDef()) assert.Equal(t, tt.args.odScoreTotal, tc.ODScoreTotal()) assert.Equal(t, tt.args.points, tc.Points()) assert.Equal(t, tt.args.deletedAt, tc.DeletedAt()) assert.NotEmpty(t, tc.Encode()) }) } } func TestListPlayersParams_SetIDs(t *testing.T) { t.Parallel() type args struct { ids []int } tests := []struct { name string args args expectedErr error }{ { name: "OK", args: args{ ids: []int{ domaintest.RandID(), domaintest.RandID(), domaintest.RandID(), }, }, }, { name: "ERR: value < 1", args: args{ ids: []int{ domaintest.RandID(), domaintest.RandID(), domaintest.RandID(), 0, domaintest.RandID(), }, }, expectedErr: domain.SliceElementValidationError{ Model: "ListPlayersParams", Field: "ids", Index: 3, Err: domain.MinGreaterEqualError{ Min: 1, Current: 0, }, }, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { t.Parallel() params := domain.NewListPlayersParams() require.ErrorIs(t, params.SetIDs(tt.args.ids), tt.expectedErr) if tt.expectedErr != nil { return } assert.Equal(t, tt.args.ids, params.IDs()) }) } } func TestListPlayersParams_SetSort(t *testing.T) { t.Parallel() type args struct { sort []domain.PlayerSort } tests := []struct { name string args args expectedErr error }{ { name: "OK", args: args{ sort: []domain.PlayerSort{ domain.PlayerSortPointsASC, domain.PlayerSortIDASC, domain.PlayerSortServerKeyASC, }, }, }, { name: "ERR: len(sort) < 1", args: args{ sort: nil, }, expectedErr: domain.ValidationError{ Model: "ListPlayersParams", Field: "sort", Err: domain.LenOutOfRangeError{ Min: 1, Max: 3, Current: 0, }, }, }, { name: "ERR: len(sort) > 3", args: args{ sort: []domain.PlayerSort{ domain.PlayerSortDeletedAtDESC, domain.PlayerSortPointsASC, domain.PlayerSortIDASC, domain.PlayerSortServerKeyASC, }, }, expectedErr: domain.ValidationError{ Model: "ListPlayersParams", Field: "sort", Err: domain.LenOutOfRangeError{ Min: 1, Max: 3, Current: 4, }, }, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { t.Parallel() params := domain.NewListPlayersParams() require.ErrorIs(t, params.SetSort(tt.args.sort), tt.expectedErr) if tt.expectedErr != nil { return } assert.Equal(t, tt.args.sort, params.Sort()) }) } } func TestListPlayersParams_PrependSortString(t *testing.T) { t.Parallel() defaultNewParams := func(t *testing.T) domain.ListPlayersParams { t.Helper() return domain.ListPlayersParams{} } type args struct { sort []string } tests := []struct { name string newParams func(t *testing.T) domain.ListPlayersParams args args expectedSort []domain.PlayerSort expectedErr error }{ { name: "OK: [odScoreAtt:ASC, odScoreDef:ASC, odScoreTotal:ASC]", args: args{ sort: []string{ "odScoreAtt:ASC", "odScoreDef:ASC", "odScoreTotal:ASC", }, }, expectedSort: []domain.PlayerSort{ domain.PlayerSortODScoreAttASC, domain.PlayerSortODScoreDefASC, domain.PlayerSortODScoreTotalASC, }, }, { name: "OK: [odScoreAtt:DESC, odScoreDef:DESC, odScoreTotal:DESC]", args: args{ sort: []string{ "odScoreAtt:DESC", "odScoreDef:DESC", "odScoreTotal:DESC", }, }, expectedSort: []domain.PlayerSort{ domain.PlayerSortODScoreAttDESC, domain.PlayerSortODScoreDefDESC, domain.PlayerSortODScoreTotalDESC, }, }, { name: "OK: [points:ASC, deletedAt:ASC]", args: args{ sort: []string{ "points:ASC", "deletedAt:ASC", }, }, expectedSort: []domain.PlayerSort{ domain.PlayerSortPointsASC, domain.PlayerSortDeletedAtASC, }, }, { name: "OK: [points:DESC, deletedAt:DESC]", args: args{ sort: []string{ "points:DESC", "deletedAt:DESC", }, }, expectedSort: []domain.PlayerSort{ domain.PlayerSortPointsDESC, domain.PlayerSortDeletedAtDESC, }, }, { name: "ERR: len(sort) < 1", args: args{ sort: nil, }, expectedErr: domain.ValidationError{ Model: "ListPlayersParams", Field: "sort", Err: domain.LenOutOfRangeError{ Min: 1, Max: 3, Current: 0, }, }, }, { name: "ERR: len(sort) > 3", args: args{ sort: []string{ "odScoreAtt:ASC", "odScoreDef:ASC", "odScoreTotal:ASC", "points:ASC", }, }, expectedErr: domain.ValidationError{ Model: "ListPlayersParams", Field: "sort", Err: domain.LenOutOfRangeError{ Min: 1, Max: 3, Current: 4, }, }, }, { name: "ERR: custom params + len(sort) > 2", newParams: func(t *testing.T) domain.ListPlayersParams { t.Helper() params := domain.NewListPlayersParams() require.NoError(t, params.SetSort([]domain.PlayerSort{domain.PlayerSortIDASC})) return params }, args: args{ sort: []string{ "odScoreAtt:ASC", "odScoreDef:ASC", "odScoreTotal:ASC", }, }, expectedErr: domain.ValidationError{ Model: "ListPlayersParams", Field: "sort", Err: domain.LenOutOfRangeError{ Min: 1, Max: 2, Current: 3, }, }, }, { name: "ERR: unsupported sort string", newParams: defaultNewParams, args: args{ sort: []string{ "odScoreAtt:ASC", "odScoreDef:ASC", "odScoreTotal:", }, }, expectedErr: domain.SliceElementValidationError{ Model: "ListPlayersParams", Field: "sort", Index: 2, Err: domain.UnsupportedSortStringError{ Sort: "odScoreTotal:", }, }, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { t.Parallel() newParams := defaultNewParams if tt.newParams != nil { newParams = tt.newParams } params := newParams(t) require.ErrorIs(t, params.PrependSortString(tt.args.sort), tt.expectedErr) if tt.expectedErr != nil { return } assert.Equal(t, tt.expectedSort, params.Sort()) }) } } func TestListPlayersParams_SetEncodedCursor(t *testing.T) { t.Parallel() validCursor := domaintest.NewPlayerCursor(t) type args struct { cursor string } tests := []struct { name string args args expectedCursor domain.PlayerCursor expectedErr error }{ { name: "OK", args: args{ cursor: validCursor.Encode(), }, expectedCursor: validCursor, }, { name: "ERR: len(cursor) < 1", args: args{ cursor: "", }, expectedErr: domain.ValidationError{ Model: "ListPlayersParams", Field: "cursor", Err: domain.LenOutOfRangeError{ Min: 1, Max: 1000, Current: 0, }, }, }, { name: "ERR: len(cursor) > 1000", args: args{ cursor: gofakeit.LetterN(1001), }, expectedErr: domain.ValidationError{ Model: "ListPlayersParams", Field: "cursor", Err: domain.LenOutOfRangeError{ Min: 1, Max: 1000, Current: 1001, }, }, }, { name: "ERR: malformed base64", args: args{ cursor: "112345", }, expectedErr: domain.ValidationError{ Model: "ListPlayersParams", Field: "cursor", Err: domain.ErrInvalidCursor, }, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { t.Parallel() params := domain.NewListPlayersParams() require.ErrorIs(t, params.SetEncodedCursor(tt.args.cursor), tt.expectedErr) if tt.expectedErr != nil { return } assert.Equal(t, tt.expectedCursor, params.Cursor()) assert.Equal(t, tt.args.cursor, params.Cursor().Encode()) }) } } func TestListPlayersParams_SetLimit(t *testing.T) { t.Parallel() type args struct { limit int } tests := []struct { name string args args expectedErr error }{ { name: "OK", args: args{ limit: domain.PlayerListMaxLimit, }, }, { name: "ERR: limit < 1", args: args{ limit: 0, }, expectedErr: domain.ValidationError{ Model: "ListPlayersParams", Field: "limit", Err: domain.MinGreaterEqualError{ Min: 1, Current: 0, }, }, }, { name: fmt.Sprintf("ERR: limit > %d", domain.PlayerListMaxLimit), args: args{ limit: domain.PlayerListMaxLimit + 1, }, expectedErr: domain.ValidationError{ Model: "ListPlayersParams", Field: "limit", Err: domain.MaxLessEqualError{ Max: domain.PlayerListMaxLimit, Current: domain.PlayerListMaxLimit + 1, }, }, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { t.Parallel() params := domain.NewListPlayersParams() require.ErrorIs(t, params.SetLimit(tt.args.limit), tt.expectedErr) if tt.expectedErr != nil { return } assert.Equal(t, tt.args.limit, params.Limit()) }) } } func TestNewListPlayersResult(t *testing.T) { t.Parallel() players := domain.Players{ domaintest.NewPlayer(t), domaintest.NewPlayer(t), domaintest.NewPlayer(t), } next := domaintest.NewPlayer(t) t.Run("OK: with next", func(t *testing.T) { t.Parallel() res, err := domain.NewListPlayersResult(players, next) require.NoError(t, err) assert.Equal(t, players, res.Players()) assert.Equal(t, players[0].ID(), res.Self().ID()) assert.Equal(t, players[0].ServerKey(), res.Self().ServerKey()) assert.Equal(t, next.ID(), res.Next().ID()) assert.Equal(t, next.ServerKey(), res.Next().ServerKey()) }) t.Run("OK: without next", func(t *testing.T) { t.Parallel() res, err := domain.NewListPlayersResult(players, domain.Player{}) require.NoError(t, err) assert.Equal(t, players, res.Players()) assert.Equal(t, players[0].ID(), res.Self().ID()) assert.Equal(t, players[0].ServerKey(), res.Self().ServerKey()) assert.True(t, res.Next().IsZero()) }) t.Run("OK: 0 players", func(t *testing.T) { t.Parallel() res, err := domain.NewListPlayersResult(nil, domain.Player{}) require.NoError(t, err) assert.Zero(t, res.Players()) assert.True(t, res.Self().IsZero()) assert.True(t, res.Next().IsZero()) }) } func TestNewListPlayersWithRelationsResult(t *testing.T) { t.Parallel() players := domain.PlayersWithRelations{ domaintest.NewPlayerWithRelations(t), domaintest.NewPlayerWithRelations(t), domaintest.NewPlayerWithRelations(t), } next := domaintest.NewPlayerWithRelations(t) t.Run("OK: with next", func(t *testing.T) { t.Parallel() res, err := domain.NewListPlayersWithRelationsResult(players, next) require.NoError(t, err) assert.Equal(t, players, res.Players()) assert.Equal(t, players[0].Player().ID(), res.Self().ID()) assert.Equal(t, players[0].Player().ServerKey(), res.Self().ServerKey()) assert.Equal(t, next.Player().ID(), res.Next().ID()) assert.Equal(t, next.Player().ServerKey(), res.Next().ServerKey()) }) t.Run("OK: without next", func(t *testing.T) { t.Parallel() res, err := domain.NewListPlayersWithRelationsResult(players, domain.PlayerWithRelations{}) require.NoError(t, err) assert.Equal(t, players, res.Players()) assert.Equal(t, players[0].Player().ID(), res.Self().ID()) assert.Equal(t, players[0].Player().ServerKey(), res.Self().ServerKey()) assert.True(t, res.Next().IsZero()) }) t.Run("OK: 0 players", func(t *testing.T) { t.Parallel() res, err := domain.NewListPlayersWithRelationsResult(nil, domain.PlayerWithRelations{}) require.NoError(t, err) assert.Zero(t, res.Players()) assert.True(t, res.Self().IsZero()) assert.True(t, res.Next().IsZero()) }) }