golang-redis之sorted set类型操作详解

1：安装redigo

go get github.com/garyburd/redigo/redis

2：引用redigo import （ "github.com/garyburd/redigo/redis" ) 3：连接Redis c, err := redis.Dial("tcp", "192.168.2.225:6379") if err != nil { fmt.Println("connect to redis err", err.Error()) return } defer c.Close() 4：命令

n,err := c.Do("zadd","key","score","member") //写

result,err := redis.Values(c.Do("zrange","key",0,-1))//读

5：sorted set简单操作 zadd(key, score1,member1,...scoreN,memberN) 向有序结合添加（更新）一个或多个成员 zcard(key)：获取有序集合的成员 zcount(key,start,end):计算指定区间的成员数 zincrby(key,increment,member):成员member增加increment zinterstore(dst,numkey,src1,src2..srcN)：求交集，并将结果存储新的结合 zlexcount(key,start,end):计算字典区间成员数(分数都相同，按照字典排序) zrange(key,start,end):获取索引区间的成员 zrangebylex (key,start,end):通过字典区间返回区间内有序集合成员 zrangebyscore(key,start,end):通过分数返回区间内的有序集合 zrank (key,member):返回有序结合的索引 zrem(key,members1...membersN):删除一个或多个成员 zremrangebylex(key,start,end):移除集合中给定字典区间的成员 zremrangebyrank(key,start,end):移除有序集合中给定的排名区间的所有成员 zremrangebyscore(key,start,end)：移除给定分数区间的所有元素 zrevange(key,start,end):通过索引，分数由高到低，返回指定区域的元素 zrevrangebyscore(key,member)：分数由高向低返回指定区间的成员数 zrevrank(key,member):分数从小到大，返回指定成员的排名 zscore(key,member):返回有序集中，成员的分数值 zunionstore(dst,numkeys,key1...keyN):返回给定的一个或多个集合的并集，并存储在新的集合中 zscan(key,cursor):迭代有序结合中的元素（包括元素成员和元素分值） 6：示例

6.1：zadd

_, err1 := c.Do("zadd", "curbike", 1, "mobike", 2, "xiaolan", 3, "ofo", 4, "xiaoming") _, err2 := c.Do("zadd", "tmpdata", 0, "mobike", 0, "xiaolan", 0, "mysql", 0, "redis", 0, "mongo", 0, "xiaoming") if err1 != nil || err2 != nil { fmt.Println("zadd failed", err.Error()) }

6.2：zcard

num, err := c.Do("zcard", "curbike") if err != nil { fmt.Println("zcard failed", err.Error()) } else { fmt.Printf("curbike's size is %s:", num) }

6.3：zcount

num, err = c.Do("zcount", "curbike", 1, 3) if err != nil { fmt.Println("zcount failed ", err.Error()) } else { fmt.Println("zcount num is :", num) }

6.4：zincrby

num, err = c.Do("zincrby", "curbike", 3, "xiaolan") fmt.Println(reflect.TypeOf(num)) if err != nil { fmt.Println("zincrby failed", err.Error()) } else { fmt.Println("after zincrby the :", num) }

6.5：zinterstore

_, err = c.Do("zinterstore", "internewset", 2, "curbike", "tmpdata") if err != nil { fmt.Println("zinterstore failed", err.Error()) } else { result, err := redis.Values(c.Do("zrange", "internewset", 0, 10)) if err != nil { fmt.Println("interstore failed", err.Error()) } else { fmt.Printf("interstore newset elsements are:") for _, v := range result { fmt.Printf("%s ", v.([]byte)) } fmt.Println() } }

6.6：zlexcount

num, err = c.Do("zlexcount", "tmpdata", "[mongo", "[xiaoming") if err != nil { fmt.Println("zlexcount failed", err.Error()) } else { fmt.Println("zlexcount in tmpdata is :", num) }

6.7：

res, err := redis.Values(c.Do("zrange", "curbike", 0, -1, "withscores")) if err != nil { fmt.Println("zrange in curbike failed", err.Error()) } else { fmt.Printf("curbike's element are follow:") for _, v := range res { fmt.Printf("%s ", v.([]byte)) } fmt.Println() }

6.8：zrangebylex

res, err = redis.Values(c.Do("zrangebylex", "tmpdata", "[mobike", "[redis")) if err != nil { fmt.Println("zrangebylex failed", err.Error()) } else { fmt.Printf("zrangebylex in tmpdata:") for _, v := range res { fmt.Printf("%s ", v.([]byte)) } fmt.Println() }

6.9：zrangebyscore

res, err = redis.Values(c.Do("zrangebyscore", "curbike", "(1", "(5")) if err != nil { fmt.Println("zrangebyscore failed", err.Error()) } else { fmt.Printf("zrangebyscore's element:") for _, v := range res { fmt.Printf("%s ", v.([]byte)) } fmt.Println() }

6.10：zrank

num, err = c.Do("zrank", "internewset", "xiaoming") if err != nil { fmt.Println("zrank failed ", err.Error()) } else { fmt.Println("xiaoming's score is ", num) }

6.11：

_, err = c.Do("zunionstore", "unewzset", 2, "curbike", "tmpdata") if err != nil { fmt.Println("zunionstore failed", err.Error()) } else { res, err = redis.Values(c.Do("zrange", "unewzset", 0, 10)) if err != nil { fmt.Println("zunionstore failed", err.Error()) } else { fmt.Printf("union set are:") for _, v := range res { fmt.Printf("%s ", v.([]byte)) } fmt.Println() } }

6.12：zscore

ret, err := c.Do("zscore", "internewset", "xiaolan") if err != nil { fmt.Println("zscore failed", err.Error()) } else { fmt.Printf("curbike 's xiaolan score is:%s\n", ret) }

6.13：zrevrank

num, err = c.Do("zrevrank", "curbike", "ofo") if err != nil { fmt.Println("zrevrank failed", err.Error()) } else { fmt.Println("ofo's zrevrank is :", num) }

6.14：zrevrangebyscore

res, err = redis.Values(c.Do("zrevrangebyscore", "unewzset", 10, 2)) if err != nil { fmt.Println("zrevrangebyscore failed", err.Error()) } else { fmt.Printf("zrevrangebyscore are:") for _, v := range res { fmt.Printf("%s ", v.([]byte)) } fmt.Println() }

6.15：zrevrange

res, err = redis.Values(c.Do("zrevrange", "unewzset", 0, 10)) err != nil { fmt.Println("zrevrange failed：", err.Error()) } else { fmt.Printf("zrevrange element:") for _, v := range res { fmt.Printf("%s ", v.([]byte)) } fmt.Println() }

6.16：zrem

num, err = c.Do("zrem", "unewzset", "mysql") if err != nil { fmt.Println("zrem failed", err.Error()) } else { fmt.Println("zrem result is:", num) }

6.17：zremrangebyrank

num, err = c.Do("zremrangebyrank", "unewzset", 1, 4) if err != nil { fmt.Println("zremrangebyrank failed", err.Error()) } else { fmt.Println("zremrangebyrank result:", num) }

6.18：zremrangebyscore

num, err = c.Do("zremrangebyscore", "curbike", 2, 5) if err != nil { fmt.Println("zremrangebyscore failed", err.Error()) } else { fmt.Println("zremrangebyscore result:", num) } 7：示例结果

完整代码路径

补充：go-redis使用之ZSet有序集合

ZSet（sorted set）：有序不重复集合

ZSet的每个元素都会关联一个float64类型的分数。redis正是通过分数来为集合中的成员进行从小到大的排序。

有序集合的成员是唯一的,但分数(score)却可以重复。

集合是通过哈希表实现的，所以添加，删除，查找的复杂度都是O(1)。 集合中最大的成员数为2的32次方 - 1

func GetRedisClient() *redis.Client { return redis.NewClient(&redis.Options{ Addr: "localhost:6379", Password: "", DB: 0, }) } // redisZsetTest Zset(sorted set有序不重复集合) func redisZsetTest(cli *redis.Client){ lang := []redis.Z{ redis.Z{Score: 90.0, Member: "java"}, redis.Z{Score: 80.0, Member: "go"}, redis.Z{Score: 70.0, Member: "python"}, redis.Z{Score: 60.0, Member: "php"}, redis.Z{Score: 50.0, Member: "ruby"}, } l1:= struct { Score float64 Member interface{} }{ 40, "javaScript", } //l2 :=redis.Z{ // Score: 30, // Member: "Object-C", //} // 添加一个值 cli.ZAdd("lang",l1) // 添加多个值 _,err:=cli.ZAdd("lang",lang...).Result() if err != nil { panic(err) } //升序：查询zset中指定区间的成员,-1代表取到最后 fmt.Println("ZRange:",cli.ZRange("lang",0,3).Val()) //[javaScript ruby php python] //降序：查询zset中指定区间的成员,-1代表取到最后 fmt.Println("ZRevRange:",cli.ZRevRange("lang",0,-1).Val()) // [java go python php ruby javaScript] // [Go javaScript ruby php python go java] opt:=redis.ZRangeBy{ Min: "50", //最小分数 Max: "90", //最大分数 Offset: 2, //在满足条件的范围，从offset下标处开始取值 Count: 3, //查询结果集个数 } //升序：根据opt条件查询Member成员 fmt.Println(cli.ZRangeByScore("lang",opt).Val()) // [python go java] //降序：根据opt条件查询Member成员 fmt.Println(cli.ZRevRangeByScore("lang",opt).Val()) //[python php ruby] //升序:根据下标范围返回的redis.Z结构体切片 fmt.Println(cli.ZRangeWithScores("lang",0,3).Val()) //[{40 javaScript} {50 ruby} {60 php} {70 python}] //降序：根据下标范围返回的redis.Z结构体切片 fmt.Println(cli.ZRevRangeWithScores("lang",0,-1).Val())//[{90 java} {80 go} {70 python} {60 php} {50 ruby} {40 javaScript}] //升序：根据opt条件，返回的redis.Z结构体切片 fmt.Println(cli.ZRangeByScoreWithScores("lang",opt).Val()) //降序：根据opt条件，返回的redis.Z结构体切片 fmt.Println(cli.ZRevRangeByScoreWithScores("lang",opt).Val()) fmt.Println(cli.ZRangeByLex("lang",opt).Val()) fmt.Println(cli.ZRevRangeByLex("lang",opt).Val()) // 获取指定成员的score f:=cli.ZScore("lang","go").Val() fmt.Println(f) // 80 // 获取指定成员的下标 fmt.Println(cli.ZRank("lang","python").Val()) //3 // 返回指定区间的成员个数 fmt.Println(cli.ZCount("lang","50","80").Val())//4 // 返回集合中成员的个数 fmt.Println(cli.ZCard("lang").Val()) //6 // 根据成员名称，移除指定成员（可以多个): 0:失败 0<：成功 fmt.Println(cli.ZRem("lang","c++").Val())//0 fmt.Println(cli.ZRem("lang","javaScript","java").Val())//2 fmt.Println(cli.ZRange("lang",0,-1).Val()) // [ruby php python go] // 升序：根据下标区间移除指定成员 fmt.Println(cli.ZRemRangeByRank("lang",1,2).Val()) //2:表示移除了两个 fmt.Println(cli.ZRangeWithScores("lang",0,-1).Val()) // [{50 ruby} {80 go}] // 升序：根据分数区间移除指定成员 fmt.Println(cli.ZRemRangeByScore("lang","70","90").Val()) //1:表示移除了一个 fmt.Println(cli.ZRangeWithScores("lang",0,-1).Val()) // [{50 ruby}] } func main() { rdb := GetRedisClient() defer rdb.Close() pong := rdb.Ping().Val() fmt.Printf("数据库连接状态：%v\n", pong) // 数据连接状态：PONG redisZsetTest(rdb) }

以上为个人经验，希望能给大家一个参考，也希望大家多多支持软件开发网。如有错误或未考虑完全的地方，望不吝赐教。

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