package zset import ( "testing" "github.com/nalgeon/redka/internal/redis" "github.com/nalgeon/redka/internal/rzset" "github.com/nalgeon/redka/internal/testx" ) func TestZInterParse(t *testing.T) { tests := []struct { cmd string want ZInter err error }{ { cmd: "zinter", want: ZInter{}, err: redis.ErrInvalidArgNum, }, { cmd: "zinter 1", want: ZInter{}, err: redis.ErrInvalidArgNum, }, { cmd: "zinter 1 key", want: ZInter{keys: []string{"key"}}, err: nil, }, { cmd: "zinter 2 k1 k2", want: ZInter{keys: []string{"k1", "k2"}}, err: nil, }, { cmd: "zinter 1 k1 k2", want: ZInter{}, err: redis.ErrSyntaxError, }, { cmd: "zinter 2 k1 k2 min", want: ZInter{}, err: redis.ErrSyntaxError, }, { cmd: "zinter 2 k1 k2 aggregate min", want: ZInter{keys: []string{"k1", "k2"}, aggregate: "min"}, err: nil, }, { cmd: "zinter 2 k1 k2 aggregate avg", want: ZInter{}, err: redis.ErrSyntaxError, }, { cmd: "zinter 2 k1 k2 withscores", want: ZInter{keys: []string{"k1", "k2"}, withScores: true}, err: nil, }, { cmd: "zinter 3 k1 k2 k3 withscores aggregate sum", want: ZInter{keys: []string{"k1", "k2", "k3"}, aggregate: "sum", withScores: true}, err: nil, }, } for _, test := range tests { t.Run(test.cmd, func(t *testing.T) { cmd, err := redis.Parse(ParseZInter, test.cmd) testx.AssertEqual(t, err, test.err) if err == nil { testx.AssertEqual(t, cmd.keys, test.want.keys) testx.AssertEqual(t, cmd.aggregate, test.want.aggregate) testx.AssertEqual(t, cmd.withScores, test.want.withScores) } }) } } func TestZInterExec(t *testing.T) { t.Run("inter", func(t *testing.T) { db, red := getDB(t) defer db.Close() _, _ = db.ZSet().AddMany("key1", map[any]float64{ "one": 1, "two": 2, "thr": 3, }) _, _ = db.ZSet().AddMany("key2", map[any]float64{ "two": 20, "thr": 3, "fou": 4, }) _, _ = db.ZSet().AddMany("key3", map[any]float64{ "one": 1, "two": 200, "thr": 3, "fou": 400, }) cmd := redis.MustParse(ParseZInter, "zinter 3 key1 key2 key3") conn := redis.NewFakeConn() res, err := cmd.Run(conn, red) testx.AssertNoErr(t, err) testx.AssertEqual(t, len(res.([]rzset.SetItem)), 2) testx.AssertEqual(t, conn.Out(), "2,thr,two") }) t.Run("withscores", func(t *testing.T) { db, red := getDB(t) defer db.Close() _, _ = db.ZSet().AddMany("key1", map[any]float64{ "one": 1, "two": 2, "thr": 3, }) _, _ = db.ZSet().AddMany("key2", map[any]float64{ "two": 20, "thr": 3, "fou": 4, }) _, _ = db.ZSet().AddMany("key3", map[any]float64{ "one": 1, "two": 200, "thr": 3, "fou": 400, }) cmd := redis.MustParse(ParseZInter, "zinter 3 key1 key2 key3 withscores") conn := redis.NewFakeConn() res, err := cmd.Run(conn, red) testx.AssertNoErr(t, err) testx.AssertEqual(t, len(res.([]rzset.SetItem)), 2) testx.AssertEqual(t, conn.Out(), "4,thr,9,two,222") }) t.Run("aggregate", func(t *testing.T) { db, red := getDB(t) defer db.Close() _, _ = db.ZSet().AddMany("key1", map[any]float64{ "one": 1, "two": 2, "thr": 3, }) _, _ = db.ZSet().AddMany("key2", map[any]float64{ "two": 20, "thr": 3, "fou": 4, }) _, _ = db.ZSet().AddMany("key3", map[any]float64{ "one": 1, "two": 200, "thr": 3, "fou": 400, }) cmd := redis.MustParse(ParseZInter, "zinter 3 key1 key2 key3 aggregate min withscores") conn := redis.NewFakeConn() res, err := cmd.Run(conn, red) testx.AssertNoErr(t, err) testx.AssertEqual(t, len(res.([]rzset.SetItem)), 2) testx.AssertEqual(t, conn.Out(), "4,two,2,thr,3") }) t.Run("single key", func(t *testing.T) { db, red := getDB(t) defer db.Close() _, _ = db.ZSet().AddMany("key1", map[any]float64{ "one": 1, "two": 2, "thr": 3, }) cmd := redis.MustParse(ParseZInter, "zinter 1 key1") conn := redis.NewFakeConn() res, err := cmd.Run(conn, red) testx.AssertNoErr(t, err) testx.AssertEqual(t, len(res.([]rzset.SetItem)), 3) testx.AssertEqual(t, conn.Out(), "3,one,two,thr") }) t.Run("empty", func(t *testing.T) { db, red := getDB(t) defer db.Close() _, _ = db.ZSet().Add("key1", "one", 1) _, _ = db.ZSet().Add("key2", "two", 1) _, _ = db.ZSet().Add("key3", "thr", 1) cmd := redis.MustParse(ParseZInter, "zinter 3 key1 key2 key3") conn := redis.NewFakeConn() res, err := cmd.Run(conn, red) testx.AssertNoErr(t, err) testx.AssertEqual(t, len(res.([]rzset.SetItem)), 0) testx.AssertEqual(t, conn.Out(), "0") }) t.Run("key not found", func(t *testing.T) { db, red := getDB(t) defer db.Close() cmd := redis.MustParse(ParseZInter, "zinter 1 key") conn := redis.NewFakeConn() res, err := cmd.Run(conn, red) testx.AssertNoErr(t, err) testx.AssertEqual(t, len(res.([]rzset.SetItem)), 0) testx.AssertEqual(t, conn.Out(), "0") }) t.Run("key type mismatch", func(t *testing.T) { db, red := getDB(t) defer db.Close() _ = db.Str().Set("key", "value") cmd := redis.MustParse(ParseZInter, "zinter 1 key") conn := redis.NewFakeConn() res, err := cmd.Run(conn, red) testx.AssertNoErr(t, err) testx.AssertEqual(t, len(res.([]rzset.SetItem)), 0) testx.AssertEqual(t, conn.Out(), "0") }) }