package redis import ( "io" "log" "strconv" "time" ) func formatFloat(f float64) string { return strconv.FormatFloat(f, 'f', -1, 64) } func formatInt(i int64) string { return strconv.FormatInt(i, 10) } func readTimeout(timeout time.Duration) time.Duration { if timeout == 0 { return 0 } return timeout + time.Second } type commandable struct { process func(cmd Cmder) } func (c *commandable) Process(cmd Cmder) { c.process(cmd) } func usePrecise(dur time.Duration) bool { return dur < time.Second || dur%time.Second != 0 } func formatMs(dur time.Duration) string { if dur > 0 && dur < time.Millisecond { log.Printf( "redis: specified duration is %s, but minimal supported value is %s", dur, time.Millisecond, ) } return strconv.FormatInt(int64(dur/time.Millisecond), 10) } func formatSec(dur time.Duration) string { if dur > 0 && dur < time.Second { log.Printf( "redis: specified duration is %s, but minimal supported value is %s", dur, time.Second, ) } return strconv.FormatInt(int64(dur/time.Second), 10) } //------------------------------------------------------------------------------ func (c *commandable) Auth(password string) *StatusCmd { cmd := newKeylessStatusCmd("AUTH", password) c.Process(cmd) return cmd } func (c *commandable) Echo(message string) *StringCmd { cmd := NewStringCmd("ECHO", message) cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) Ping() *StatusCmd { cmd := newKeylessStatusCmd("PING") c.Process(cmd) return cmd } func (c *commandable) Quit() *StatusCmd { panic("not implemented") } func (c *commandable) Select(index int64) *StatusCmd { cmd := newKeylessStatusCmd("SELECT", strconv.FormatInt(index, 10)) c.Process(cmd) return cmd } //------------------------------------------------------------------------------ func (c *commandable) Del(keys ...string) *IntCmd { args := append([]string{"DEL"}, keys...) cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) Dump(key string) *StringCmd { cmd := NewStringCmd("DUMP", key) c.Process(cmd) return cmd } func (c *commandable) Exists(key string) *BoolCmd { cmd := NewBoolCmd("EXISTS", key) c.Process(cmd) return cmd } func (c *commandable) Expire(key string, expiration time.Duration) *BoolCmd { cmd := NewBoolCmd("EXPIRE", key, formatSec(expiration)) c.Process(cmd) return cmd } func (c *commandable) ExpireAt(key string, tm time.Time) *BoolCmd { cmd := NewBoolCmd("EXPIREAT", key, strconv.FormatInt(tm.Unix(), 10)) c.Process(cmd) return cmd } func (c *commandable) Keys(pattern string) *StringSliceCmd { cmd := NewStringSliceCmd("KEYS", pattern) c.Process(cmd) return cmd } func (c *commandable) Migrate(host, port, key string, db int64, timeout time.Duration) *StatusCmd { cmd := NewStatusCmd( "MIGRATE", host, port, key, strconv.FormatInt(db, 10), formatMs(timeout), ) cmd._clusterKeyPos = 3 cmd.setReadTimeout(readTimeout(timeout)) c.Process(cmd) return cmd } func (c *commandable) Move(key string, db int64) *BoolCmd { cmd := NewBoolCmd("MOVE", key, strconv.FormatInt(db, 10)) c.Process(cmd) return cmd } func (c *commandable) ObjectRefCount(keys ...string) *IntCmd { args := append([]string{"OBJECT", "REFCOUNT"}, keys...) cmd := NewIntCmd(args...) cmd._clusterKeyPos = 2 c.Process(cmd) return cmd } func (c *commandable) ObjectEncoding(keys ...string) *StringCmd { args := append([]string{"OBJECT", "ENCODING"}, keys...) cmd := NewStringCmd(args...) cmd._clusterKeyPos = 2 c.Process(cmd) return cmd } func (c *commandable) ObjectIdleTime(keys ...string) *DurationCmd { args := append([]string{"OBJECT", "IDLETIME"}, keys...) cmd := NewDurationCmd(time.Second, args...) cmd._clusterKeyPos = 2 c.Process(cmd) return cmd } func (c *commandable) Persist(key string) *BoolCmd { cmd := NewBoolCmd("PERSIST", key) c.Process(cmd) return cmd } func (c *commandable) PExpire(key string, expiration time.Duration) *BoolCmd { cmd := NewBoolCmd("PEXPIRE", key, formatMs(expiration)) c.Process(cmd) return cmd } func (c *commandable) PExpireAt(key string, tm time.Time) *BoolCmd { cmd := NewBoolCmd( "PEXPIREAT", key, strconv.FormatInt(tm.UnixNano()/int64(time.Millisecond), 10), ) c.Process(cmd) return cmd } func (c *commandable) PTTL(key string) *DurationCmd { cmd := NewDurationCmd(time.Millisecond, "PTTL", key) c.Process(cmd) return cmd } func (c *commandable) RandomKey() *StringCmd { cmd := NewStringCmd("RANDOMKEY") c.Process(cmd) return cmd } func (c *commandable) Rename(key, newkey string) *StatusCmd { cmd := NewStatusCmd("RENAME", key, newkey) c.Process(cmd) return cmd } func (c *commandable) RenameNX(key, newkey string) *BoolCmd { cmd := NewBoolCmd("RENAMENX", key, newkey) c.Process(cmd) return cmd } func (c *commandable) Restore(key string, ttl int64, value string) *StatusCmd { cmd := NewStatusCmd( "RESTORE", key, strconv.FormatInt(ttl, 10), value, ) c.Process(cmd) return cmd } type Sort struct { By string Offset, Count float64 Get []string Order string IsAlpha bool Store string } func (c *commandable) Sort(key string, sort Sort) *StringSliceCmd { args := []string{"SORT", key} if sort.By != "" { args = append(args, "BY", sort.By) } if sort.Offset != 0 || sort.Count != 0 { args = append(args, "LIMIT", formatFloat(sort.Offset), formatFloat(sort.Count)) } for _, get := range sort.Get { args = append(args, "GET", get) } if sort.Order != "" { args = append(args, sort.Order) } if sort.IsAlpha { args = append(args, "ALPHA") } if sort.Store != "" { args = append(args, "STORE", sort.Store) } cmd := NewStringSliceCmd(args...) c.Process(cmd) return cmd } func (c *commandable) TTL(key string) *DurationCmd { cmd := NewDurationCmd(time.Second, "TTL", key) c.Process(cmd) return cmd } func (c *commandable) Type(key string) *StatusCmd { cmd := NewStatusCmd("TYPE", key) c.Process(cmd) return cmd } func (c *commandable) Scan(cursor int64, match string, count int64) *ScanCmd { args := []string{"SCAN", strconv.FormatInt(cursor, 10)} if match != "" { args = append(args, "MATCH", match) } if count > 0 { args = append(args, "COUNT", strconv.FormatInt(count, 10)) } cmd := NewScanCmd(args...) c.Process(cmd) return cmd } func (c *commandable) SScan(key string, cursor int64, match string, count int64) *ScanCmd { args := []string{"SSCAN", key, strconv.FormatInt(cursor, 10)} if match != "" { args = append(args, "MATCH", match) } if count > 0 { args = append(args, "COUNT", strconv.FormatInt(count, 10)) } cmd := NewScanCmd(args...) c.Process(cmd) return cmd } func (c *commandable) HScan(key string, cursor int64, match string, count int64) *ScanCmd { args := []string{"HSCAN", key, strconv.FormatInt(cursor, 10)} if match != "" { args = append(args, "MATCH", match) } if count > 0 { args = append(args, "COUNT", strconv.FormatInt(count, 10)) } cmd := NewScanCmd(args...) c.Process(cmd) return cmd } func (c *commandable) ZScan(key string, cursor int64, match string, count int64) *ScanCmd { args := []string{"ZSCAN", key, strconv.FormatInt(cursor, 10)} if match != "" { args = append(args, "MATCH", match) } if count > 0 { args = append(args, "COUNT", strconv.FormatInt(count, 10)) } cmd := NewScanCmd(args...) c.Process(cmd) return cmd } //------------------------------------------------------------------------------ func (c *commandable) Append(key, value string) *IntCmd { cmd := NewIntCmd("APPEND", key, value) c.Process(cmd) return cmd } type BitCount struct { Start, End int64 } func (c *commandable) BitCount(key string, bitCount *BitCount) *IntCmd { args := []string{"BITCOUNT", key} if bitCount != nil { args = append( args, strconv.FormatInt(bitCount.Start, 10), strconv.FormatInt(bitCount.End, 10), ) } cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) bitOp(op, destKey string, keys ...string) *IntCmd { args := []string{"BITOP", op, destKey} args = append(args, keys...) cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) BitOpAnd(destKey string, keys ...string) *IntCmd { return c.bitOp("AND", destKey, keys...) } func (c *commandable) BitOpOr(destKey string, keys ...string) *IntCmd { return c.bitOp("OR", destKey, keys...) } func (c *commandable) BitOpXor(destKey string, keys ...string) *IntCmd { return c.bitOp("XOR", destKey, keys...) } func (c *commandable) BitOpNot(destKey string, key string) *IntCmd { return c.bitOp("NOT", destKey, key) } func (c *commandable) BitPos(key string, bit int64, pos ...int64) *IntCmd { args := []string{"BITPOS", key, formatInt(bit)} switch len(pos) { case 0: case 1: args = append(args, formatInt(pos[0])) case 2: args = append(args, formatInt(pos[0]), formatInt(pos[1])) default: panic("too many arguments") } cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) Decr(key string) *IntCmd { cmd := NewIntCmd("DECR", key) c.Process(cmd) return cmd } func (c *commandable) DecrBy(key string, decrement int64) *IntCmd { cmd := NewIntCmd("DECRBY", key, strconv.FormatInt(decrement, 10)) c.Process(cmd) return cmd } func (c *commandable) Get(key string) *StringCmd { cmd := NewStringCmd("GET", key) c.Process(cmd) return cmd } func (c *commandable) GetBit(key string, offset int64) *IntCmd { cmd := NewIntCmd("GETBIT", key, strconv.FormatInt(offset, 10)) c.Process(cmd) return cmd } func (c *commandable) GetRange(key string, start, end int64) *StringCmd { cmd := NewStringCmd( "GETRANGE", key, strconv.FormatInt(start, 10), strconv.FormatInt(end, 10), ) c.Process(cmd) return cmd } func (c *commandable) GetSet(key, value string) *StringCmd { cmd := NewStringCmd("GETSET", key, value) c.Process(cmd) return cmd } func (c *commandable) Incr(key string) *IntCmd { cmd := NewIntCmd("INCR", key) c.Process(cmd) return cmd } func (c *commandable) IncrBy(key string, value int64) *IntCmd { cmd := NewIntCmd("INCRBY", key, strconv.FormatInt(value, 10)) c.Process(cmd) return cmd } func (c *commandable) IncrByFloat(key string, value float64) *FloatCmd { cmd := NewFloatCmd("INCRBYFLOAT", key, formatFloat(value)) c.Process(cmd) return cmd } func (c *commandable) MGet(keys ...string) *SliceCmd { args := append([]string{"MGET"}, keys...) cmd := NewSliceCmd(args...) c.Process(cmd) return cmd } func (c *commandable) MSet(pairs ...string) *StatusCmd { args := append([]string{"MSET"}, pairs...) cmd := NewStatusCmd(args...) c.Process(cmd) return cmd } func (c *commandable) MSetNX(pairs ...string) *BoolCmd { args := append([]string{"MSETNX"}, pairs...) cmd := NewBoolCmd(args...) c.Process(cmd) return cmd } func (c *commandable) Set(key, value string, expiration time.Duration) *StatusCmd { args := []string{"SET", key, value} if expiration > 0 { if usePrecise(expiration) { args = append(args, "PX", formatMs(expiration)) } else { args = append(args, "EX", formatSec(expiration)) } } cmd := NewStatusCmd(args...) c.Process(cmd) return cmd } func (c *commandable) SetBit(key string, offset int64, value int) *IntCmd { cmd := NewIntCmd( "SETBIT", key, strconv.FormatInt(offset, 10), strconv.FormatInt(int64(value), 10), ) c.Process(cmd) return cmd } func (c *commandable) SetNX(key, value string, expiration time.Duration) *BoolCmd { var cmd *BoolCmd if expiration == 0 { // Use old `SETNX` to support old Redis versions. cmd = NewBoolCmd("SETNX", key, value) } else { if usePrecise(expiration) { cmd = NewBoolCmd("SET", key, value, "PX", formatMs(expiration), "NX") } else { cmd = NewBoolCmd("SET", key, value, "EX", formatSec(expiration), "NX") } } c.Process(cmd) return cmd } func (c *Client) SetXX(key, value string, expiration time.Duration) *BoolCmd { var cmd *BoolCmd if usePrecise(expiration) { cmd = NewBoolCmd("SET", key, value, "PX", formatMs(expiration), "XX") } else { cmd = NewBoolCmd("SET", key, value, "EX", formatSec(expiration), "XX") } c.Process(cmd) return cmd } func (c *commandable) SetRange(key string, offset int64, value string) *IntCmd { cmd := NewIntCmd("SETRANGE", key, strconv.FormatInt(offset, 10), value) c.Process(cmd) return cmd } func (c *commandable) StrLen(key string) *IntCmd { cmd := NewIntCmd("STRLEN", key) c.Process(cmd) return cmd } //------------------------------------------------------------------------------ func (c *commandable) HDel(key string, fields ...string) *IntCmd { args := append([]string{"HDEL", key}, fields...) cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) HExists(key, field string) *BoolCmd { cmd := NewBoolCmd("HEXISTS", key, field) c.Process(cmd) return cmd } func (c *commandable) HGet(key, field string) *StringCmd { cmd := NewStringCmd("HGET", key, field) c.Process(cmd) return cmd } func (c *commandable) HGetAll(key string) *StringSliceCmd { cmd := NewStringSliceCmd("HGETALL", key) c.Process(cmd) return cmd } func (c *commandable) HGetAllMap(key string) *StringStringMapCmd { cmd := NewStringStringMapCmd("HGETALL", key) c.Process(cmd) return cmd } func (c *commandable) HIncrBy(key, field string, incr int64) *IntCmd { cmd := NewIntCmd("HINCRBY", key, field, strconv.FormatInt(incr, 10)) c.Process(cmd) return cmd } func (c *commandable) HIncrByFloat(key, field string, incr float64) *FloatCmd { cmd := NewFloatCmd("HINCRBYFLOAT", key, field, formatFloat(incr)) c.Process(cmd) return cmd } func (c *commandable) HKeys(key string) *StringSliceCmd { cmd := NewStringSliceCmd("HKEYS", key) c.Process(cmd) return cmd } func (c *commandable) HLen(key string) *IntCmd { cmd := NewIntCmd("HLEN", key) c.Process(cmd) return cmd } func (c *commandable) HMGet(key string, fields ...string) *SliceCmd { args := append([]string{"HMGET", key}, fields...) cmd := NewSliceCmd(args...) c.Process(cmd) return cmd } func (c *commandable) HMSet(key, field, value string, pairs ...string) *StatusCmd { args := append([]string{"HMSET", key, field, value}, pairs...) cmd := NewStatusCmd(args...) c.Process(cmd) return cmd } func (c *commandable) HSet(key, field, value string) *BoolCmd { cmd := NewBoolCmd("HSET", key, field, value) c.Process(cmd) return cmd } func (c *commandable) HSetNX(key, field, value string) *BoolCmd { cmd := NewBoolCmd("HSETNX", key, field, value) c.Process(cmd) return cmd } func (c *commandable) HVals(key string) *StringSliceCmd { cmd := NewStringSliceCmd("HVALS", key) c.Process(cmd) return cmd } //------------------------------------------------------------------------------ func (c *commandable) BLPop(timeout time.Duration, keys ...string) *StringSliceCmd { args := append([]string{"BLPOP"}, keys...) args = append(args, formatSec(timeout)) cmd := NewStringSliceCmd(args...) cmd.setReadTimeout(readTimeout(timeout)) c.Process(cmd) return cmd } func (c *commandable) BRPop(timeout time.Duration, keys ...string) *StringSliceCmd { args := append([]string{"BRPOP"}, keys...) args = append(args, formatSec(timeout)) cmd := NewStringSliceCmd(args...) cmd.setReadTimeout(readTimeout(timeout)) c.Process(cmd) return cmd } func (c *commandable) BRPopLPush(source, destination string, timeout time.Duration) *StringCmd { cmd := NewStringCmd( "BRPOPLPUSH", source, destination, formatSec(timeout), ) cmd.setReadTimeout(readTimeout(timeout)) c.Process(cmd) return cmd } func (c *commandable) LIndex(key string, index int64) *StringCmd { cmd := NewStringCmd("LINDEX", key, strconv.FormatInt(index, 10)) c.Process(cmd) return cmd } func (c *commandable) LInsert(key, op, pivot, value string) *IntCmd { cmd := NewIntCmd("LINSERT", key, op, pivot, value) c.Process(cmd) return cmd } func (c *commandable) LLen(key string) *IntCmd { cmd := NewIntCmd("LLEN", key) c.Process(cmd) return cmd } func (c *commandable) LPop(key string) *StringCmd { cmd := NewStringCmd("LPOP", key) c.Process(cmd) return cmd } func (c *commandable) LPush(key string, values ...string) *IntCmd { args := append([]string{"LPUSH", key}, values...) cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) LPushX(key, value string) *IntCmd { cmd := NewIntCmd("LPUSHX", key, value) c.Process(cmd) return cmd } func (c *commandable) LRange(key string, start, stop int64) *StringSliceCmd { cmd := NewStringSliceCmd( "LRANGE", key, strconv.FormatInt(start, 10), strconv.FormatInt(stop, 10), ) c.Process(cmd) return cmd } func (c *commandable) LRem(key string, count int64, value string) *IntCmd { cmd := NewIntCmd("LREM", key, strconv.FormatInt(count, 10), value) c.Process(cmd) return cmd } func (c *commandable) LSet(key string, index int64, value string) *StatusCmd { cmd := NewStatusCmd("LSET", key, strconv.FormatInt(index, 10), value) c.Process(cmd) return cmd } func (c *commandable) LTrim(key string, start, stop int64) *StatusCmd { cmd := NewStatusCmd( "LTRIM", key, strconv.FormatInt(start, 10), strconv.FormatInt(stop, 10), ) c.Process(cmd) return cmd } func (c *commandable) RPop(key string) *StringCmd { cmd := NewStringCmd("RPOP", key) c.Process(cmd) return cmd } func (c *commandable) RPopLPush(source, destination string) *StringCmd { cmd := NewStringCmd("RPOPLPUSH", source, destination) c.Process(cmd) return cmd } func (c *commandable) RPush(key string, values ...string) *IntCmd { args := append([]string{"RPUSH", key}, values...) cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) RPushX(key string, value string) *IntCmd { cmd := NewIntCmd("RPUSHX", key, value) c.Process(cmd) return cmd } //------------------------------------------------------------------------------ func (c *commandable) SAdd(key string, members ...string) *IntCmd { args := append([]string{"SADD", key}, members...) cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) SCard(key string) *IntCmd { cmd := NewIntCmd("SCARD", key) c.Process(cmd) return cmd } func (c *commandable) SDiff(keys ...string) *StringSliceCmd { args := append([]string{"SDIFF"}, keys...) cmd := NewStringSliceCmd(args...) c.Process(cmd) return cmd } func (c *commandable) SDiffStore(destination string, keys ...string) *IntCmd { args := append([]string{"SDIFFSTORE", destination}, keys...) cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) SInter(keys ...string) *StringSliceCmd { args := append([]string{"SINTER"}, keys...) cmd := NewStringSliceCmd(args...) c.Process(cmd) return cmd } func (c *commandable) SInterStore(destination string, keys ...string) *IntCmd { args := append([]string{"SINTERSTORE", destination}, keys...) cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) SIsMember(key, member string) *BoolCmd { cmd := NewBoolCmd("SISMEMBER", key, member) c.Process(cmd) return cmd } func (c *commandable) SMembers(key string) *StringSliceCmd { cmd := NewStringSliceCmd("SMEMBERS", key) c.Process(cmd) return cmd } func (c *commandable) SMove(source, destination, member string) *BoolCmd { cmd := NewBoolCmd("SMOVE", source, destination, member) c.Process(cmd) return cmd } func (c *commandable) SPop(key string) *StringCmd { cmd := NewStringCmd("SPOP", key) c.Process(cmd) return cmd } func (c *commandable) SRandMember(key string) *StringCmd { cmd := NewStringCmd("SRANDMEMBER", key) c.Process(cmd) return cmd } func (c *commandable) SRem(key string, members ...string) *IntCmd { args := append([]string{"SREM", key}, members...) cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) SUnion(keys ...string) *StringSliceCmd { args := append([]string{"SUNION"}, keys...) cmd := NewStringSliceCmd(args...) c.Process(cmd) return cmd } func (c *commandable) SUnionStore(destination string, keys ...string) *IntCmd { args := append([]string{"SUNIONSTORE", destination}, keys...) cmd := NewIntCmd(args...) c.Process(cmd) return cmd } //------------------------------------------------------------------------------ type Z struct { Score float64 Member string } type ZStore struct { Weights []int64 Aggregate string } func (c *commandable) ZAdd(key string, members ...Z) *IntCmd { args := make([]string, 2+2*len(members)) args[0] = "ZADD" args[1] = key for i, m := range members { args[2+2*i] = formatFloat(m.Score) args[2+2*i+1] = m.Member } cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) ZCard(key string) *IntCmd { cmd := NewIntCmd("ZCARD", key) c.Process(cmd) return cmd } func (c *commandable) ZCount(key, min, max string) *IntCmd { cmd := NewIntCmd("ZCOUNT", key, min, max) c.Process(cmd) return cmd } func (c *commandable) ZIncrBy(key string, increment float64, member string) *FloatCmd { cmd := NewFloatCmd("ZINCRBY", key, formatFloat(increment), member) c.Process(cmd) return cmd } func (c *commandable) ZInterStore( destination string, store ZStore, keys ...string, ) *IntCmd { args := []string{"ZINTERSTORE", destination, strconv.FormatInt(int64(len(keys)), 10)} args = append(args, keys...) if len(store.Weights) > 0 { args = append(args, "WEIGHTS") for _, weight := range store.Weights { args = append(args, strconv.FormatInt(weight, 10)) } } if store.Aggregate != "" { args = append(args, "AGGREGATE", store.Aggregate) } cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) zRange(key string, start, stop int64, withScores bool) *StringSliceCmd { args := []string{ "ZRANGE", key, strconv.FormatInt(start, 10), strconv.FormatInt(stop, 10), } if withScores { args = append(args, "WITHSCORES") } cmd := NewStringSliceCmd(args...) c.Process(cmd) return cmd } func (c *commandable) ZRange(key string, start, stop int64) *StringSliceCmd { return c.zRange(key, start, stop, false) } func (c *commandable) ZRangeWithScores(key string, start, stop int64) *ZSliceCmd { args := []string{ "ZRANGE", key, strconv.FormatInt(start, 10), strconv.FormatInt(stop, 10), "WITHSCORES", } cmd := NewZSliceCmd(args...) c.Process(cmd) return cmd } type ZRangeByScore struct { Min, Max string Offset, Count int64 } func (c *commandable) zRangeByScore(key string, opt ZRangeByScore, withScores bool) *StringSliceCmd { args := []string{"ZRANGEBYSCORE", key, opt.Min, opt.Max} if withScores { args = append(args, "WITHSCORES") } if opt.Offset != 0 || opt.Count != 0 { args = append( args, "LIMIT", strconv.FormatInt(opt.Offset, 10), strconv.FormatInt(opt.Count, 10), ) } cmd := NewStringSliceCmd(args...) c.Process(cmd) return cmd } func (c *commandable) ZRangeByScore(key string, opt ZRangeByScore) *StringSliceCmd { return c.zRangeByScore(key, opt, false) } func (c *commandable) ZRangeByScoreWithScores(key string, opt ZRangeByScore) *ZSliceCmd { args := []string{"ZRANGEBYSCORE", key, opt.Min, opt.Max, "WITHSCORES"} if opt.Offset != 0 || opt.Count != 0 { args = append( args, "LIMIT", strconv.FormatInt(opt.Offset, 10), strconv.FormatInt(opt.Count, 10), ) } cmd := NewZSliceCmd(args...) c.Process(cmd) return cmd } func (c *commandable) ZRank(key, member string) *IntCmd { cmd := NewIntCmd("ZRANK", key, member) c.Process(cmd) return cmd } func (c *commandable) ZRem(key string, members ...string) *IntCmd { args := append([]string{"ZREM", key}, members...) cmd := NewIntCmd(args...) c.Process(cmd) return cmd } func (c *commandable) ZRemRangeByRank(key string, start, stop int64) *IntCmd { cmd := NewIntCmd( "ZREMRANGEBYRANK", key, strconv.FormatInt(start, 10), strconv.FormatInt(stop, 10), ) c.Process(cmd) return cmd } func (c *commandable) ZRemRangeByScore(key, min, max string) *IntCmd { cmd := NewIntCmd("ZREMRANGEBYSCORE", key, min, max) c.Process(cmd) return cmd } func (c *commandable) ZRevRange(key string, start, stop int64) *StringSliceCmd { cmd := NewStringSliceCmd("ZREVRANGE", key, formatInt(start), formatInt(stop)) c.Process(cmd) return cmd } func (c *commandable) ZRevRangeWithScores(key string, start, stop int64) *ZSliceCmd { cmd := NewZSliceCmd("ZREVRANGE", key, formatInt(start), formatInt(stop), "WITHSCORES") c.Process(cmd) return cmd } func (c *commandable) ZRevRangeByScore(key string, opt ZRangeByScore) *StringSliceCmd { args := []string{"ZREVRANGEBYSCORE", key, opt.Max, opt.Min} if opt.Offset != 0 || opt.Count != 0 { args = append( args, "LIMIT", strconv.FormatInt(opt.Offset, 10), strconv.FormatInt(opt.Count, 10), ) } cmd := NewStringSliceCmd(args...) c.Process(cmd) return cmd } func (c *commandable) ZRevRangeByScoreWithScores(key string, opt ZRangeByScore) *ZSliceCmd { args := []string{"ZREVRANGEBYSCORE", key, opt.Max, opt.Min, "WITHSCORES"} if opt.Offset != 0 || opt.Count != 0 { args = append( args, "LIMIT", strconv.FormatInt(opt.Offset, 10), strconv.FormatInt(opt.Count, 10), ) } cmd := NewZSliceCmd(args...) c.Process(cmd) return cmd } func (c *commandable) ZRevRank(key, member string) *IntCmd { cmd := NewIntCmd("ZREVRANK", key, member) c.Process(cmd) return cmd } func (c *commandable) ZScore(key, member string) *FloatCmd { cmd := NewFloatCmd("ZSCORE", key, member) c.Process(cmd) return cmd } func (c *commandable) ZUnionStore(dest string, store ZStore, keys ...string) *IntCmd { args := []string{"ZUNIONSTORE", dest, strconv.FormatInt(int64(len(keys)), 10)} args = append(args, keys...) if len(store.Weights) > 0 { args = append(args, "WEIGHTS") for _, weight := range store.Weights { args = append(args, strconv.FormatInt(weight, 10)) } } if store.Aggregate != "" { args = append(args, "AGGREGATE", store.Aggregate) } cmd := NewIntCmd(args...) c.Process(cmd) return cmd } //------------------------------------------------------------------------------ func (c *commandable) BgRewriteAOF() *StatusCmd { cmd := NewStatusCmd("BGREWRITEAOF") cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) BgSave() *StatusCmd { cmd := NewStatusCmd("BGSAVE") cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) ClientKill(ipPort string) *StatusCmd { cmd := NewStatusCmd("CLIENT", "KILL", ipPort) cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) ClientList() *StringCmd { cmd := NewStringCmd("CLIENT", "LIST") cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) ConfigGet(parameter string) *SliceCmd { cmd := NewSliceCmd("CONFIG", "GET", parameter) cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) ConfigResetStat() *StatusCmd { cmd := NewStatusCmd("CONFIG", "RESETSTAT") cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) ConfigSet(parameter, value string) *StatusCmd { cmd := NewStatusCmd("CONFIG", "SET", parameter, value) cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) DbSize() *IntCmd { cmd := NewIntCmd("DBSIZE") cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) FlushAll() *StatusCmd { cmd := newKeylessStatusCmd("FLUSHALL") c.Process(cmd) return cmd } func (c *commandable) FlushDb() *StatusCmd { cmd := newKeylessStatusCmd("FLUSHDB") c.Process(cmd) return cmd } func (c *commandable) Info() *StringCmd { cmd := NewStringCmd("INFO") cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) LastSave() *IntCmd { cmd := NewIntCmd("LASTSAVE") cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) Save() *StatusCmd { cmd := newKeylessStatusCmd("SAVE") c.Process(cmd) return cmd } func (c *commandable) shutdown(modifier string) *StatusCmd { var args []string if modifier == "" { args = []string{"SHUTDOWN"} } else { args = []string{"SHUTDOWN", modifier} } cmd := newKeylessStatusCmd(args...) c.Process(cmd) if err := cmd.Err(); err != nil { if err == io.EOF { // Server quit as expected. cmd.err = nil } } else { // Server did not quit. String reply contains the reason. cmd.err = errorf(cmd.val) cmd.val = "" } return cmd } func (c *commandable) Shutdown() *StatusCmd { return c.shutdown("") } func (c *commandable) ShutdownSave() *StatusCmd { return c.shutdown("SAVE") } func (c *commandable) ShutdownNoSave() *StatusCmd { return c.shutdown("NOSAVE") } func (c *commandable) SlaveOf(host, port string) *StatusCmd { cmd := newKeylessStatusCmd("SLAVEOF", host, port) c.Process(cmd) return cmd } func (c *commandable) SlowLog() { panic("not implemented") } func (c *commandable) Sync() { panic("not implemented") } func (c *commandable) Time() *StringSliceCmd { cmd := NewStringSliceCmd("TIME") cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } //------------------------------------------------------------------------------ func (c *commandable) Eval(script string, keys []string, args []string) *Cmd { cmdArgs := []string{"EVAL", script, strconv.FormatInt(int64(len(keys)), 10)} cmdArgs = append(cmdArgs, keys...) cmdArgs = append(cmdArgs, args...) cmd := NewCmd(cmdArgs...) if len(keys) > 0 { cmd._clusterKeyPos = 3 } c.Process(cmd) return cmd } func (c *commandable) EvalSha(sha1 string, keys []string, args []string) *Cmd { cmdArgs := []string{"EVALSHA", sha1, strconv.FormatInt(int64(len(keys)), 10)} cmdArgs = append(cmdArgs, keys...) cmdArgs = append(cmdArgs, args...) cmd := NewCmd(cmdArgs...) if len(keys) > 0 { cmd._clusterKeyPos = 3 } c.Process(cmd) return cmd } func (c *commandable) ScriptExists(scripts ...string) *BoolSliceCmd { args := append([]string{"SCRIPT", "EXISTS"}, scripts...) cmd := NewBoolSliceCmd(args...) cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) ScriptFlush() *StatusCmd { cmd := newKeylessStatusCmd("SCRIPT", "FLUSH") c.Process(cmd) return cmd } func (c *commandable) ScriptKill() *StatusCmd { cmd := newKeylessStatusCmd("SCRIPT", "KILL") c.Process(cmd) return cmd } func (c *commandable) ScriptLoad(script string) *StringCmd { cmd := NewStringCmd("SCRIPT", "LOAD", script) cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } //------------------------------------------------------------------------------ func (c *commandable) DebugObject(key string) *StringCmd { cmd := NewStringCmd("DEBUG", "OBJECT", key) cmd._clusterKeyPos = 2 c.Process(cmd) return cmd } //------------------------------------------------------------------------------ func (c *commandable) PubSubChannels(pattern string) *StringSliceCmd { args := []string{"PUBSUB", "CHANNELS"} if pattern != "*" { args = append(args, pattern) } cmd := NewStringSliceCmd(args...) cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) PubSubNumSub(channels ...string) *StringIntMapCmd { args := []string{"PUBSUB", "NUMSUB"} args = append(args, channels...) cmd := NewStringIntMapCmd(args...) cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) PubSubNumPat() *IntCmd { cmd := NewIntCmd("PUBSUB", "NUMPAT") cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } //------------------------------------------------------------------------------ func (c *commandable) ClusterSlots() *ClusterSlotCmd { cmd := NewClusterSlotCmd("CLUSTER", "slots") cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) ClusterNodes() *StringCmd { cmd := NewStringCmd("CLUSTER", "nodes") cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) ClusterMeet(host, port string) *StatusCmd { cmd := newKeylessStatusCmd("CLUSTER", "meet", host, port) c.Process(cmd) return cmd } func (c *commandable) ClusterReplicate(nodeID string) *StatusCmd { cmd := newKeylessStatusCmd("CLUSTER", "replicate", nodeID) c.Process(cmd) return cmd } func (c *commandable) ClusterInfo() *StringCmd { cmd := NewStringCmd("CLUSTER", "info") cmd._clusterKeyPos = 0 c.Process(cmd) return cmd } func (c *commandable) ClusterFailover() *StatusCmd { cmd := newKeylessStatusCmd("CLUSTER", "failover") c.Process(cmd) return cmd } func (c *commandable) ClusterAddSlots(slots ...int) *StatusCmd { args := make([]string, len(slots)+2) args[0] = "CLUSTER" args[1] = "addslots" for i, num := range slots { args[i+2] = strconv.Itoa(num) } cmd := newKeylessStatusCmd(args...) c.Process(cmd) return cmd } func (c *commandable) ClusterAddSlotsRange(min, max int) *StatusCmd { size := max - min + 1 slots := make([]int, size) for i := 0; i < size; i++ { slots[i] = min + i } return c.ClusterAddSlots(slots...) }