class Redis

Create a new client instance

@param [Hash] options @option options [String] :url (value of the environment variable REDIS_URL) a Redis URL, for a TCP connection: `redis://:@[hostname]:/[db]` (password, port and database are optional), for a unix socket connection: `unix://[path to Redis socket]`. This overrides all other options. @option options [String] :host (“127.0.0.1”) server hostname @option options [Fixnum] :port (6379) server port @option options [String] :path path to server socket (overrides host and port) @option options [Float] :timeout (5.0) timeout in seconds @option options [Float] :connect_timeout (same as timeout) timeout for initial connect in seconds @option options [String] :password Password to authenticate against server @option options [Fixnum] :db (0) Database to select after initial connect @option options [Symbol] :driver Driver to use, currently supported: `:ruby`, `:hiredis`, `:synchrony` @option options [String] :id ID for the client connection, assigns name to current connection by sending `CLIENT SETNAME` @option options [Hash, Fixnum] :tcp_keepalive Keepalive values, if Fixnum `intvl` and `probe` are calculated based on the value, if Hash `time`, `intvl` and `probes` can be specified as a Fixnum @option options [Fixnum] :reconnect_attempts Number of attempts trying to connect @option options [Boolean] :inherit_socket (false) Whether to use socket in forked process or not @option options [Array] :sentinels List of sentinels to contact @option options [Symbol] :role (:master) Role to fetch via Sentinel, either `:master` or `:slave` @option options [Array<String, Hash{Symbol => String, Integer}>] :cluster List of cluster nodes to contact @option options [Boolean] :replica Whether to use readonly replica nodes in Redis Cluster or not @option options [Class] :connector Class of custom connector

@return [Redis] a new client instance

# File lib/redis.rb, line 40
def initialize(options = {})
  @options = options.dup
  @cluster_mode = options.key?(:cluster)
  client = @cluster_mode ? Cluster : Client
  @original_client = @client = client.new(options)
  @queue = Hash.new { |h, k| h[k] = [] }

  super() # Monitor#initialize
end

Append a value to a key.

@param [String] key @param [String] value value to append @return [Fixnum] length of the string after appending

# File lib/redis.rb, line 1006
def append(key, value)
  synchronize do |client|
    client.call([:append, key, value])
  end
end

Sends `ASKING` command to random node and returns its reply.

@see redis.io/topics/cluster-spec#ask-redirection ASK redirection

@return [String] `'OK'`

# File lib/redis.rb, line 3280
def asking
  synchronize { |client| client.call(%i[asking]) }
end

Authenticate to the server.

@param [String] password must match the password specified in the

`requirepass` directive in the configuration file

@return [String] `OK`

# File lib/redis.rb, line 129
def auth(password)
  synchronize do |client|
    client.call([:auth, password])
  end
end

Asynchronously rewrite the append-only file.

@return [String] `OK`

# File lib/redis.rb, line 183
def bgrewriteaof
  synchronize do |client|
    client.call([:bgrewriteaof])
  end
end

Asynchronously save the dataset to disk.

@return [String] `OK`

# File lib/redis.rb, line 192
def bgsave
  synchronize do |client|
    client.call([:bgsave])
  end
end

Count the number of set bits in a range of the string value stored at key.

@param [String] key @param [Fixnum] start start index @param [Fixnum] stop stop index @return [Fixnum] the number of bits set to 1

# File lib/redis.rb, line 1018
def bitcount(key, start = 0, stop = -1)
  synchronize do |client|
    client.call([:bitcount, key, start, stop])
  end
end

Perform a bitwise operation between strings and store the resulting string in a key.

@param [String] operation e.g. `and`, `or`, `xor`, `not` @param [String] destkey destination key @param [String, Array<String>] keys one or more source keys to perform `operation` @return [Fixnum] the length of the string stored in `destkey`

# File lib/redis.rb, line 1030
def bitop(operation, destkey, *keys)
  synchronize do |client|
    client.call([:bitop, operation, destkey] + keys)
  end
end

Return the position of the first bit set to 1 or 0 in a string.

@param [String] key @param [Fixnum] bit whether to look for the first 1 or 0 bit @param [Fixnum] start start index @param [Fixnum] stop stop index @return [Fixnum] the position of the first 1/0 bit.

-1 if looking for 1 and it is not found or start and stop are given.

# File lib/redis.rb, line 1044
def bitpos(key, bit, start=nil, stop=nil)
  if stop and not start
    raise(ArgumentError, 'stop parameter specified without start parameter')
  end

  synchronize do |client|
    command = [:bitpos, key, bit]
    command << start if start
    command << stop if stop
    client.call(command)
  end
end

Remove and get the first element in a list, or block until one is available.

@example With timeout

list, element = redis.blpop("list", :timeout => 5)
  # => nil on timeout
  # => ["list", "element"] on success

@example Without timeout

list, element = redis.blpop("list")
  # => ["list", "element"]

@example Blocking pop on multiple lists

list, element = redis.blpop(["list", "another_list"])
  # => ["list", "element"]

@param [String, Array<String>] keys one or more keys to perform the

blocking pop on

@param [Hash] options

- `:timeout => Fixnum`: timeout in seconds, defaults to no timeout

@return [nil, [String, String]]

- `nil` when the operation timed out
- tuple of the list that was popped from and element was popped otherwise

# File lib/redis.rb, line 1210
def blpop(*args)
  _bpop(:blpop, args)
end

Remove and get the last element in a list, or block until one is available.

@param [String, Array<String>] keys one or more keys to perform the

blocking pop on

@param [Hash] options

- `:timeout => Fixnum`: timeout in seconds, defaults to no timeout

@return [nil, [String, String]]

- `nil` when the operation timed out
- tuple of the list that was popped from and element was popped otherwise

@see blpop

# File lib/redis.rb, line 1226
def brpop(*args)
  _bpop(:brpop, args)
end

Pop a value from a list, push it to another list and return it; or block until one is available.

@param [String] source source key @param [String] destination destination key @param [Hash] options

- `:timeout => Fixnum`: timeout in seconds, defaults to no timeout

@return [nil, String]

- `nil` when the operation timed out
- the element was popped and pushed otherwise

# File lib/redis.rb, line 1241
def brpoplpush(source, destination, options = {})
  case options
  when Integer
    # Issue deprecation notice in obnoxious mode...
    options = { :timeout => options }
  end

  timeout = options[:timeout] || 0

  synchronize do |client|
    command = [:brpoplpush, source, destination, timeout]
    timeout += client.timeout if timeout > 0
    client.call_with_timeout(command, timeout)
  end
end

Removes and returns up to count members with the highest scores in the sorted set stored at keys,

or block until one is available.

@example Popping a member from a sorted set

redis.bzpopmax('zset', 1)
#=> ['zset', 'b', 2.0]

@example Popping a member from multiple sorted sets

redis.bzpopmax('zset1', 'zset2', 1)
#=> ['zset1', 'b', 2.0]

@params keys [Array<String>] one or multiple keys of the sorted sets @params timeout [Integer] the maximum number of seconds to block

@return [Array<String, String, Float>] a touple of key, member and score @return [nil] when no element could be popped and the timeout expired

# File lib/redis.rb, line 1693
def bzpopmax(*args)
  _bpop(:bzpopmax, args) do |reply|
    reply.is_a?(Array) ? [reply[0], reply[1], Floatify.call(reply[2])] : reply
  end
end

Removes and returns up to count members with the lowest scores in the sorted set stored at keys,

or block until one is available.

@example Popping a member from a sorted set

redis.bzpopmin('zset', 1)
#=> ['zset', 'a', 1.0]

@example Popping a member from multiple sorted sets

redis.bzpopmin('zset1', 'zset2', 1)
#=> ['zset1', 'a', 1.0]

@params keys [Array<String>] one or multiple keys of the sorted sets @params timeout [Integer] the maximum number of seconds to block

@return [Array<String, String, Float>] a touple of key, member and score @return [nil] when no element could be popped and the timeout expired

# File lib/redis.rb, line 1714
def bzpopmin(*args)
  _bpop(:bzpopmin, args) do |reply|
    reply.is_a?(Array) ? [reply[0], reply[1], Floatify.call(reply[2])] : reply
  end
end

Sends a command to Redis and returns its reply.

Replies are converted to Ruby objects according to the RESP protocol, so you can expect a Ruby array, integer or nil when Redis sends one. Higher level transformations, such as converting an array of pairs into a Ruby hash, are up to consumers.

Redis error replies are raised as Ruby exceptions.

# File lib/redis.rb, line 85
def call(*command)
  synchronize do |client|
    client.call(command)
  end
end

Manage client connections.

@param [String, Symbol] subcommand e.g. `kill`, `list`, `getname`, `setname` @return [String, Hash] depends on subcommand

# File lib/redis.rb, line 219
def client(subcommand = nil, *args)
  synchronize do |client|
    client.call([:client, subcommand] + args) do |reply|
      if subcommand.to_s == "list"
        reply.lines.map do |line|
          entries = line.chomp.split(/[ =]/)
          Hash[entries.each_slice(2).to_a]
        end
      else
        reply
      end
    end
  end
end

Disconnect the client as quickly and silently as possible.

# File lib/redis.rb, line 72
def close
  @original_client.disconnect
end

Sends `CLUSTER *` command to random node and returns its reply.

@see redis.io/commands#cluster Reference of cluster command

@param subcommand [String, Symbol] the subcommand of cluster command

e.g. `:slots`, `:nodes`, `:slaves`, `:info`

@return [Object] depends on the subcommand

# File lib/redis.rb, line 3257
def cluster(subcommand, *args)
  subcommand = subcommand.to_s.downcase
  block = case subcommand
          when 'slots'  then HashifyClusterSlots
          when 'nodes'  then HashifyClusterNodes
          when 'slaves' then HashifyClusterSlaves
          when 'info'   then HashifyInfo
          else Noop
          end

  # @see https://github.com/antirez/redis/blob/unstable/src/redis-trib.rb#L127 raw reply expected
  block = Noop unless @cluster_mode

  synchronize do |client|
    client.call([:cluster, subcommand] + args, &block)
  end
end

Sends all commands in the queue.

See redis.io/topics/pipelining for more details.

# File lib/redis.rb, line 105
def commit
  synchronize do |client|
    begin
      pipeline = Pipeline.new(client)
      @queue[Thread.current.object_id].each do |command|
        pipeline.call(command)
      end

      client.call_pipelined(pipeline)
    ensure
      @queue.delete(Thread.current.object_id)
    end
  end
end

Get or set server configuration parameters.

@param [Symbol] action e.g. `:get`, `:set`, `:resetstat` @return [String, Hash] string reply, or hash when retrieving more than one

property with `CONFIG GET`

# File lib/redis.rb, line 203
def config(action, *args)
  synchronize do |client|
    client.call([:config, action] + args) do |reply|
      if reply.kind_of?(Array) && action == :get
        Hashify.call(reply)
      else
        reply
      end
    end
  end
end

Test whether or not the client is connected

# File lib/redis.rb, line 67
def connected?
  @original_client.connected?
end

Return the number of keys in the selected database.

@return [Fixnum]

# File lib/redis.rb, line 237
def dbsize
  synchronize do |client|
    client.call([:dbsize])
  end
end

Decrement the integer value of a key by one.

@example

redis.decr("value")
  # => 4

@param [String] key @return [Fixnum] value after decrementing it

# File lib/redis.rb, line 713
def decr(key)
  synchronize do |client|
    client.call([:decr, key])
  end
end

Decrement the integer value of a key by the given number.

@example

redis.decrby("value", 5)
  # => 0

@param [String] key @param [Fixnum] decrement @return [Fixnum] value after decrementing it

# File lib/redis.rb, line 728
def decrby(key, decrement)
  synchronize do |client|
    client.call([:decrby, key, decrement])
  end
end

Delete one or more keys.

@param [String, Array<String>] keys @return [Fixnum] number of keys that were deleted

# File lib/redis.rb, line 535
def del(*keys)
  synchronize do |client|
    client.call([:del] + keys)
  end
end

Discard all commands issued after MULTI.

Only call this method when `#multi` was called *without* a block.

@return [String] `“OK”`

@see multi @see exec

# File lib/redis.rb, line 2493
def discard
  synchronize do |client|
    client.call([:discard])
  end
end

Return a serialized version of the value stored at a key.

@param [String] key @return [String] serialized_value

# File lib/redis.rb, line 482
def dump(key)
  synchronize do |client|
    client.call([:dump, key])
  end
end

Echo the given string.

@param [String] value @return [String]

# File lib/redis.rb, line 160
def echo(value)
  synchronize do |client|
    client.call([:echo, value])
  end
end

Evaluate Lua script.

@example EVAL without KEYS nor ARGV

redis.eval("return 1")
  # => 1

@example EVAL with KEYS and ARGV as array arguments

redis.eval("return { KEYS, ARGV }", ["k1", "k2"], ["a1", "a2"])
  # => [["k1", "k2"], ["a1", "a2"]]

@example EVAL with KEYS and ARGV in a hash argument

redis.eval("return { KEYS, ARGV }", :keys => ["k1", "k2"], :argv => ["a1", "a2"])
  # => [["k1", "k2"], ["a1", "a2"]]

@param [Array<String>] keys optional array with keys to pass to the script @param [Array<String>] argv optional array with arguments to pass to the script @param [Hash] options

- `:keys => Array<String>`: optional array with keys to pass to the script
- `:argv => Array<String>`: optional array with arguments to pass to the script

@return depends on the script

@see script @see evalsha

# File lib/redis.rb, line 2581
def eval(*args)
  _eval(:eval, args)
end

Evaluate Lua script by its SHA.

@example EVALSHA without KEYS nor ARGV

redis.evalsha(sha)
  # => <depends on script>

@example EVALSHA with KEYS and ARGV as array arguments

redis.evalsha(sha, ["k1", "k2"], ["a1", "a2"])
  # => <depends on script>

@example EVALSHA with KEYS and ARGV in a hash argument

redis.evalsha(sha, :keys => ["k1", "k2"], :argv => ["a1", "a2"])
  # => <depends on script>

@param [Array<String>] keys optional array with keys to pass to the script @param [Array<String>] argv optional array with arguments to pass to the script @param [Hash] options

- `:keys => Array<String>`: optional array with keys to pass to the script
- `:argv => Array<String>`: optional array with arguments to pass to the script

@return depends on the script

@see script @see eval

# File lib/redis.rb, line 2606
def evalsha(*args)
  _eval(:evalsha, args)
end

Execute all commands issued after MULTI.

Only call this method when `#multi` was called *without* a block.

@return [nil, Array<…>]

- when commands were not executed, `nil`
- when commands were executed, an array with their replies

@see multi @see discard

# File lib/redis.rb, line 2479
def exec
  synchronize do |client|
    client.call([:exec])
  end
end

Determine if a key exists.

@param [String] key @return [Boolean]

# File lib/redis.rb, line 555
def exists(key)
  synchronize do |client|
    client.call([:exists, key], &Boolify)
  end
end

Set a key's time to live in seconds.

@param [String] key @param [Fixnum] seconds time to live @return [Boolean] whether the timeout was set or not

# File lib/redis.rb, line 404
def expire(key, seconds)
  synchronize do |client|
    client.call([:expire, key, seconds], &Boolify)
  end
end

Set the expiration for a key as a UNIX timestamp.

@param [String] key @param [Fixnum] unix_time expiry time specified as a UNIX timestamp @return [Boolean] whether the timeout was set or not

# File lib/redis.rb, line 415
def expireat(key, unix_time)
  synchronize do |client|
    client.call([:expireat, key, unix_time], &Boolify)
  end
end

Remove all keys from all databases.

@param [Hash] options

- `:async => Boolean`: async flush (default: false)

@return [String] `OK`

# File lib/redis.rb, line 254
def flushall(options = nil)
  synchronize do |client|
    if options && options[:async]
      client.call([:flushall, :async])
    else
      client.call([:flushall])
    end
  end
end

Remove all keys from the current database.

@param [Hash] options

- `:async => Boolean`: async flush (default: false)

@return [String] `OK`

# File lib/redis.rb, line 269
def flushdb(options = nil)
  synchronize do |client|
    if options && options[:async]
      client.call([:flushdb, :async])
    else
      client.call([:flushdb])
    end
  end
end

Adds the specified geospatial items (latitude, longitude, name) to the specified key

@param [String] key @param [Array] member arguemnts for member or members: longitude, latitude, name @return [Intger] number of elements added to the sorted set

# File lib/redis.rb, line 2826
def geoadd(key, *member)
  synchronize do |client|
    client.call([:geoadd, key, *member])
  end
end

Returns the distance between two members of a geospatial index

@param [String ]key @param [Array<String>] members @param ['m', 'km', 'mi', 'ft'] unit @return [String, nil] returns distance in spefied unit if both members present, nil otherwise.

# File lib/redis.rb, line 2895
def geodist(key, member1, member2, unit = 'm')
  synchronize do |client|
    client.call([:geodist, key, member1, member2, unit])
  end
end

Returns geohash string representing position for specified members of the specified key.

@param [String] key @param [String, Array<String>] member one member or array of members @return [Array<String, nil>] returns array containg geohash string if member is present, nil otherwise

# File lib/redis.rb, line 2837
def geohash(key, member)
  synchronize do |client|
    client.call([:geohash, key, member])
  end
end

Returns longitude and latitude of members of a geospatial index

@param [String] key @param [String, Array<String>] member one member or array of members @return [Array<Array<String>, nil>] returns array of elements, where each element is either array of longitude and latitude or nil

# File lib/redis.rb, line 2883
def geopos(key, member)
  synchronize do |client|
    client.call([:geopos, key, member])
  end
end

Query a sorted set representing a geospatial index to fetch members matching a given maximum distance from a point

@param [Array] args key, longitude, latitude, radius, unit(m|km|ft|mi) @param ['asc', 'desc'] sort sort returned items from the nearest to the farthest or the farthest to the nearest relative to the center @param [Integer] count limit the results to the first N matching items @param ['WITHDIST', 'WITHCOORD', 'WITHHASH'] options to return additional information @return [Array<String>] may be changed with `options`

# File lib/redis.rb, line 2853
def georadius(*args, **geoptions)
  geoarguments = _geoarguments(*args, **geoptions)

  synchronize do |client|
    client.call([:georadius, *geoarguments])
  end
end

Query a sorted set representing a geospatial index to fetch members matching a given maximum distance from an already existing member

@param [Array] args key, member, radius, unit(m|km|ft|mi) @param ['asc', 'desc'] sort sort returned items from the nearest to the farthest or the farthest to the nearest relative to the center @param [Integer] count limit the results to the first N matching items @param ['WITHDIST', 'WITHCOORD', 'WITHHASH'] options to return additional information @return [Array<String>] may be changed with `options`

# File lib/redis.rb, line 2870
def georadiusbymember(*args, **geoptions)
  geoarguments = _geoarguments(*args, **geoptions)

  synchronize do |client|
    client.call([:georadiusbymember, *geoarguments])
  end
end

Get the value of a key.

@param [String] key @return [String]

# File lib/redis.rb, line 911
def get(key)
  synchronize do |client|
    client.call([:get, key])
  end
end

Returns the bit value at offset in the string value stored at key.

@param [String] key @param [Fixnum] offset bit offset @return [Fixnum] `0` or `1`

# File lib/redis.rb, line 995
def getbit(key, offset)
  synchronize do |client|
    client.call([:getbit, key, offset])
  end
end

Get a substring of the string stored at a key.

@param [String] key @param [Fixnum] start zero-based start offset @param [Fixnum] stop zero-based end offset. Use -1 for representing

the end of the string

@return [Fixnum] `0` or `1`

# File lib/redis.rb, line 972
def getrange(key, start, stop)
  synchronize do |client|
    client.call([:getrange, key, start, stop])
  end
end

Set the string value of a key and return its old value.

@param [String] key @param [String] value value to replace the current value with @return [String] the old value stored in the key, or `nil` if the key

did not exist

# File lib/redis.rb, line 1063
def getset(key, value)
  synchronize do |client|
    client.call([:getset, key, value.to_s])
  end
end

Delete one or more hash fields.

@param [String] key @param [String, Array<String>] field @return [Fixnum] the number of fields that were removed from the hash

# File lib/redis.rb, line 2212
def hdel(key, *fields)
  synchronize do |client|
    client.call([:hdel, key, *fields])
  end
end

Determine if a hash field exists.

@param [String] key @param [String] field @return [Boolean] whether or not the field exists in the hash

# File lib/redis.rb, line 2223
def hexists(key, field)
  synchronize do |client|
    client.call([:hexists, key, field], &Boolify)
  end
end

Get the value of a hash field.

@param [String] key @param [String] field @return [String]

# File lib/redis.rb, line 2163
def hget(key, field)
  synchronize do |client|
    client.call([:hget, key, field])
  end
end

Get all the fields and values in a hash.

@param [String] key @return [Hash<String, String>]

# File lib/redis.rb, line 2277
def hgetall(key)
  synchronize do |client|
    client.call([:hgetall, key], &Hashify)
  end
end

Increment the integer value of a hash field by the given integer number.

@param [String] key @param [String] field @param [Fixnum] increment @return [Fixnum] value of the field after incrementing it

# File lib/redis.rb, line 2235
def hincrby(key, field, increment)
  synchronize do |client|
    client.call([:hincrby, key, field, increment])
  end
end

Increment the numeric value of a hash field by the given float number.

@param [String] key @param [String] field @param [Float] increment @return [Float] value of the field after incrementing it

# File lib/redis.rb, line 2247
def hincrbyfloat(key, field, increment)
  synchronize do |client|
    client.call([:hincrbyfloat, key, field, increment], &Floatify)
  end
end

Get all the fields in a hash.

@param [String] key @return [Array<String>]

# File lib/redis.rb, line 2257
def hkeys(key)
  synchronize do |client|
    client.call([:hkeys, key])
  end
end

Get the number of fields in a hash.

@param [String] key @return [Fixnum] number of fields in the hash

# File lib/redis.rb, line 2096
def hlen(key)
  synchronize do |client|
    client.call([:hlen, key])
  end
end

Get the values of all the given hash fields.

@example

redis.hmget("hash", "f1", "f2")
  # => ["v1", "v2"]

@param [String] key @param [Array<String>] fields array of fields @return [Array<String>] an array of values for the specified fields

@see mapped_hmget

# File lib/redis.rb, line 2180
def hmget(key, *fields, &blk)
  synchronize do |client|
    client.call([:hmget, key] + fields, &blk)
  end
end

Set one or more hash values.

@example

redis.hmset("hash", "f1", "v1", "f2", "v2")
  # => "OK"

@param [String] key @param [Array<String>] attrs array of fields and values @return [String] `“OK”`

@see mapped_hmset

# File lib/redis.rb, line 2137
def hmset(key, *attrs)
  synchronize do |client|
    client.call([:hmset, key] + attrs)
  end
end

Scan a hash

@example Retrieve the first batch of key/value pairs in a hash

redis.hscan("hash", 0)

@param [String, Integer] cursor the cursor of the iteration @param [Hash] options

- `:match => String`: only return keys matching the pattern
- `:count => Integer`: return count keys at most per iteration

@return [String, Array<[String, String]>] the next cursor and all found keys

# File lib/redis.rb, line 2683
def hscan(key, cursor, options={})
  _scan(:hscan, cursor, [key], options) do |reply|
    [reply[0], reply[1].each_slice(2).to_a]
  end
end

Scan a hash

@example Retrieve all of the key/value pairs in a hash

redis.hscan_each("hash").to_a
# => [["key70", "70"], ["key80", "80"]]

@param [Hash] options

- `:match => String`: only return keys matching the pattern
- `:count => Integer`: return count keys at most per iteration

@return [Enumerator] an enumerator for all found keys

# File lib/redis.rb, line 2700
def hscan_each(key, options={}, &block)
  return to_enum(:hscan_each, key, options) unless block_given?
  cursor = 0
  loop do
    cursor, values = hscan(key, cursor, options)
    values.each(&block)
    break if cursor == "0"
  end
end

Set the string value of a hash field.

@param [String] key @param [String] field @param [String] value @return [Boolean] whether or not the field was *added* to the hash

# File lib/redis.rb, line 2108
def hset(key, field, value)
  synchronize do |client|
    client.call([:hset, key, field, value], &Boolify)
  end
end

Set the value of a hash field, only if the field does not exist.

@param [String] key @param [String] field @param [String] value @return [Boolean] whether or not the field was *added* to the hash

# File lib/redis.rb, line 2120
def hsetnx(key, field, value)
  synchronize do |client|
    client.call([:hsetnx, key, field, value], &Boolify)
  end
end

Get all the values in a hash.

@param [String] key @return [Array<String>]

# File lib/redis.rb, line 2267
def hvals(key)
  synchronize do |client|
    client.call([:hvals, key])
  end
end

Increment the integer value of a key by one.

@example

redis.incr("value")
  # => 6

@param [String] key @return [Fixnum] value after incrementing it

# File lib/redis.rb, line 742
def incr(key)
  synchronize do |client|
    client.call([:incr, key])
  end
end

Increment the integer value of a key by the given integer number.

@example

redis.incrby("value", 5)
  # => 10

@param [String] key @param [Fixnum] increment @return [Fixnum] value after incrementing it

# File lib/redis.rb, line 757
def incrby(key, increment)
  synchronize do |client|
    client.call([:incrby, key, increment])
  end
end

Increment the numeric value of a key by the given float number.

@example

redis.incrbyfloat("value", 1.23)
  # => 1.23

@param [String] key @param [Float] increment @return [Float] value after incrementing it

# File lib/redis.rb, line 772
def incrbyfloat(key, increment)
  synchronize do |client|
    client.call([:incrbyfloat, key, increment], &Floatify)
  end
end

Get information and statistics about the server.

@param [String, Symbol] cmd e.g. “commandstats” @return [Hash<String, String>]

# File lib/redis.rb, line 283
def info(cmd = nil)
  synchronize do |client|
    client.call([:info, cmd].compact) do |reply|
      if reply.kind_of?(String)
        reply = HashifyInfo.call(reply)

        if cmd && cmd.to_s == "commandstats"
          # Extract nested hashes for INFO COMMANDSTATS
          reply = Hash[reply.map do |k, v|
            v = v.split(",").map { |e| e.split("=") }
            [k[/^cmdstat_(.*)$/, 1], Hash[v]]
          end]
        end
      end

      reply
    end
  end
end

Find all keys matching the given pattern.

@param [String] pattern @return [Array<String>]

# File lib/redis.rb, line 565
def keys(pattern = "*")
  synchronize do |client|
    client.call([:keys, pattern]) do |reply|
      if reply.kind_of?(String)
        reply.split(" ")
      else
        reply
      end
    end
  end
end

Get the UNIX time stamp of the last successful save to disk.

@return [Fixnum]

# File lib/redis.rb, line 306
def lastsave
  synchronize do |client|
    client.call([:lastsave])
  end
end

Get an element from a list by its index.

@param [String] key @param [Fixnum] index @return [String]

# File lib/redis.rb, line 1262
def lindex(key, index)
  synchronize do |client|
    client.call([:lindex, key, index])
  end
end

Insert an element before or after another element in a list.

@param [String] key @param [String, Symbol] where `BEFORE` or `AFTER` @param [String] pivot reference element @param [String] value @return [Fixnum] length of the list after the insert operation, or `-1`

when the element `pivot` was not found

# File lib/redis.rb, line 1276
def linsert(key, where, pivot, value)
  synchronize do |client|
    client.call([:linsert, key, where, pivot, value])
  end
end

Get the length of a list.

@param [String] key @return [Fixnum]

# File lib/redis.rb, line 1084
def llen(key)
  synchronize do |client|
    client.call([:llen, key])
  end
end

Remove and get the first element in a list.

@param [String] key @return [String]

# File lib/redis.rb, line 1138
def lpop(key)
  synchronize do |client|
    client.call([:lpop, key])
  end
end

Prepend one or more values to a list, creating the list if it doesn't exist

@param [String] key @param [String, Array<String>] value string value, or array of string values to push @return [Fixnum] the length of the list after the push operation

# File lib/redis.rb, line 1095
def lpush(key, value)
  synchronize do |client|
    client.call([:lpush, key, value])
  end
end

Prepend a value to a list, only if the list exists.

@param [String] key @param [String] value @return [Fixnum] the length of the list after the push operation

# File lib/redis.rb, line 1106
def lpushx(key, value)
  synchronize do |client|
    client.call([:lpushx, key, value])
  end
end

Get a range of elements from a list.

@param [String] key @param [Fixnum] start start index @param [Fixnum] stop stop index @return [Array<String>]

# File lib/redis.rb, line 1288
def lrange(key, start, stop)
  synchronize do |client|
    client.call([:lrange, key, start, stop])
  end
end

Remove elements from a list.

@param [String] key @param [Fixnum] count number of elements to remove. Use a positive

value to remove the first `count` occurrences of `value`. A negative
value to remove the last `count` occurrences of `value`. Or zero, to
remove all occurrences of `value` from the list.

@param [String] value @return [Fixnum] the number of removed elements

# File lib/redis.rb, line 1303
def lrem(key, count, value)
  synchronize do |client|
    client.call([:lrem, key, count, value])
  end
end

Set the value of an element in a list by its index.

@param [String] key @param [Fixnum] index @param [String] value @return [String] `OK`

# File lib/redis.rb, line 1315
def lset(key, index, value)
  synchronize do |client|
    client.call([:lset, key, index, value])
  end
end

Trim a list to the specified range.

@param [String] key @param [Fixnum] start start index @param [Fixnum] stop stop index @return [String] `OK`

# File lib/redis.rb, line 1327
def ltrim(key, start, stop)
  synchronize do |client|
    client.call([:ltrim, key, start, stop])
  end
end

Get the values of all the given hash fields.

@example

redis.mapped_hmget("hash", "f1", "f2")
  # => { "f1" => "v1", "f2" => "v2" }

@param [String] key @param [Array<String>] fields array of fields @return [Hash] a hash mapping the specified fields to their values

@see hmget

# File lib/redis.rb, line 2197
def mapped_hmget(key, *fields)
  hmget(key, *fields) do |reply|
    if reply.kind_of?(Array)
      Hash[fields.zip(reply)]
    else
      reply
    end
  end
end

Set one or more hash values.

@example

redis.mapped_hmset("hash", { "f1" => "v1", "f2" => "v2" })
  # => "OK"

@param [String] key @param [Hash] hash a non-empty hash with fields mapping to values @return [String] `“OK”`

@see hmset

# File lib/redis.rb, line 2154
def mapped_hmset(key, hash)
  hmset(key, hash.to_a.flatten)
end

Get the values of all the given keys.

@example

redis.mapped_mget("key1", "key2")
  # => { "key1" => "v1", "key2" => "v2" }

@param [Array<String>] keys array of keys @return [Hash] a hash mapping the specified keys to their values

@see mget

# File lib/redis.rb, line 943
def mapped_mget(*keys)
  mget(*keys) do |reply|
    if reply.kind_of?(Array)
      Hash[keys.zip(reply)]
    else
      reply
    end
  end
end

Set one or more values.

@example

redis.mapped_mset({ "f1" => "v1", "f2" => "v2" })
  # => "OK"

@param [Hash] hash keys mapping to values @return [String] `“OK”`

@see mset

# File lib/redis.rb, line 873
def mapped_mset(hash)
  mset(hash.to_a.flatten)
end

Set one or more values, only if none of the keys exist.

@example

redis.mapped_msetnx({ "key1" => "v1", "key2" => "v2" })
  # => true

@param [Hash] hash keys mapping to values @return [Boolean] whether or not all values were set

@see msetnx

# File lib/redis.rb, line 903
def mapped_msetnx(hash)
  msetnx(hash.to_a.flatten)
end

Get the values of all the given keys.

@example

redis.mget("key1", "key1")
  # => ["v1", "v2"]

@param [Array<String>] keys @return [Array<String>] an array of values for the specified keys

@see mapped_mget

# File lib/redis.rb, line 927
def mget(*keys, &blk)
  synchronize do |client|
    client.call([:mget] + keys, &blk)
  end
end

Transfer a key from the connected instance to another instance.

@param [String, Array<String>] key @param [Hash] options

- `:host => String`: host of instance to migrate to
- `:port => Integer`: port of instance to migrate to
- `:db => Integer`: database to migrate to (default: same as source)
- `:timeout => Integer`: timeout (default: same as connection timeout)
- `:copy => Boolean`: Do not remove the key from the local instance.
- `:replace => Boolean`: Replace existing key on the remote instance.

@return [String] `“OK”`

# File lib/redis.rb, line 517
def migrate(key, options)
  args = [:migrate]
  args << (options[:host] || raise(':host not specified'))
  args << (options[:port] || raise(':port not specified'))
  args << (key.is_a?(String) ? key : '')
  args << (options[:db] || @client.db).to_i
  args << (options[:timeout] || @client.timeout).to_i
  args << 'COPY' if options[:copy]
  args << 'REPLACE' if options[:replace]
  args += ['KEYS', *key] if key.is_a?(Array)

  synchronize { |client| client.call(args) }
end

Listen for all requests received by the server in real time.

There is no way to interrupt this command.

@yield a block to be called for every line of output @yieldparam [String] line timestamp and command that was executed

# File lib/redis.rb, line 318
def monitor(&block)
  synchronize do |client|
    client.call_loop([:monitor], &block)
  end
end

Move a key to another database.

@example Move a key to another database

redis.set "foo", "bar"
  # => "OK"
redis.move "foo", 2
  # => true
redis.exists "foo"
  # => false
redis.select 2
  # => "OK"
redis.exists "foo"
  # => true
redis.get "foo"
  # => "bar"

@param [String] key @param [Fixnum] db @return [Boolean] whether the key was moved or not

# File lib/redis.rb, line 596
def move(key, db)
  synchronize do |client|
    client.call([:move, key, db], &Boolify)
  end
end

Set one or more values.

@example

redis.mset("key1", "v1", "key2", "v2")
  # => "OK"

@param [Array<String>] args array of keys and values @return [String] `“OK”`

@see mapped_mset

# File lib/redis.rb, line 857
def mset(*args)
  synchronize do |client|
    client.call([:mset] + args)
  end
end

Set one or more values, only if none of the keys exist.

@example

redis.msetnx("key1", "v1", "key2", "v2")
  # => true

@param [Array<String>] args array of keys and values @return [Boolean] whether or not all values were set

@see mapped_msetnx

# File lib/redis.rb, line 887
def msetnx(*args)
  synchronize do |client|
    client.call([:msetnx] + args, &Boolify)
  end
end

Mark the start of a transaction block.

Passing a block is optional.

@example With a block

redis.multi do |multi|
  multi.set("key", "value")
  multi.incr("counter")
end # => ["OK", 6]

@example Without a block

redis.multi
  # => "OK"
redis.set("key", "value")
  # => "QUEUED"
redis.incr("counter")
  # => "QUEUED"
redis.exec
  # => ["OK", 6]

@yield [multi] the commands that are called inside this block are cached

and written to the server upon returning from it

@yieldparam [Redis] multi `self`

@return [String, Array<…>]

- when a block is not given, `OK`
- when a block is given, an array with replies

@see watch @see unwatch

# File lib/redis.rb, line 2452
def multi
  synchronize do |client|
    if !block_given?
      client.call([:multi])
    else
      begin
        pipeline = Pipeline::Multi.new(@client)
        original, @client = @client, pipeline
        yield(self)
        original.call_pipeline(pipeline)
      ensure
        @client = original
      end
    end
  end
end

Remove the expiration from a key.

@param [String] key @return [Boolean] whether the timeout was removed or not

# File lib/redis.rb, line 393
def persist(key)
  synchronize do |client|
    client.call([:persist, key], &Boolify)
  end
end

Set a key's time to live in milliseconds.

@param [String] key @param [Fixnum] milliseconds time to live @return [Boolean] whether the timeout was set or not

# File lib/redis.rb, line 444
def pexpire(key, milliseconds)
  synchronize do |client|
    client.call([:pexpire, key, milliseconds], &Boolify)
  end
end

Set the expiration for a key as number of milliseconds from UNIX Epoch.

@param [String] key @param [Fixnum] ms_unix_time expiry time specified as number of milliseconds from UNIX Epoch. @return [Boolean] whether the timeout was set or not

# File lib/redis.rb, line 455
def pexpireat(key, ms_unix_time)
  synchronize do |client|
    client.call([:pexpireat, key, ms_unix_time], &Boolify)
  end
end

Add one or more members to a HyperLogLog structure.

@param [String] key @param [String, Array<String>] member one member, or array of members @return [Boolean] true if at least 1 HyperLogLog internal register was altered. false otherwise.

# File lib/redis.rb, line 2790
def pfadd(key, member)
  synchronize do |client|
    client.call([:pfadd, key, member], &Boolify)
  end
end

Get the approximate cardinality of members added to HyperLogLog structure.

If called with multiple keys, returns the approximate cardinality of the union of the HyperLogLogs contained in the keys.

@param [String, Array<String>] keys @return [Fixnum]

# File lib/redis.rb, line 2803
def pfcount(*keys)
  synchronize do |client|
    client.call([:pfcount] + keys)
  end
end

Merge multiple HyperLogLog values into an unique value that will approximate the cardinality of the union of the observed Sets of the source HyperLogLog structures.

@param [String] dest_key destination key @param [String, Array<String>] source_key source key, or array of keys @return [Boolean]

# File lib/redis.rb, line 2815
def pfmerge(dest_key, *source_key)
  synchronize do |client|
    client.call([:pfmerge, dest_key, *source_key], &BoolifySet)
  end
end

Ping the server.

@param [optional, String] message @return [String] `PONG`

# File lib/redis.rb, line 150
def ping(message = nil)
  synchronize do |client|
    client.call([:ping, message].compact)
  end
end

Set the time to live in milliseconds of a key.

@param [String] key @param [Fixnum] ttl @param [String] value @return [String] `“OK”`

# File lib/redis.rb, line 830
def psetex(key, ttl, value)
  synchronize do |client|
    client.call([:psetex, key, ttl, value.to_s])
  end
end

Listen for messages published to channels matching the given patterns.

# File lib/redis.rb, line 2319
def psubscribe(*channels, &block)
  synchronize do |client|
    _subscription(:psubscribe, 0, channels, block)
  end
end

Listen for messages published to channels matching the given patterns. Throw a timeout error if there is no messages for a timeout period.

# File lib/redis.rb, line 2326
def psubscribe_with_timeout(timeout, *channels, &block)
  synchronize do |client|
    _subscription(:psubscribe_with_timeout, timeout, channels, block)
  end
end

Get the time to live (in milliseconds) for a key.

@param [String] key @return [Fixnum] remaining time to live in milliseconds In Redis 2.6 or older the command returns -1 if the key does not exist or if the key exist but has no associated expire.

Starting with Redis 2.8 the return value in case of error changed:

- The command returns -2 if the key does not exist.
- The command returns -1 if the key exists but has no associated expire.

# File lib/redis.rb, line 472
def pttl(key)
  synchronize do |client|
    client.call([:pttl, key])
  end
end

Post a message to a channel.

# File lib/redis.rb, line 2284
def publish(channel, message)
  synchronize do |client|
    client.call([:publish, channel, message])
  end
end

Inspect the state of the Pub/Sub subsystem. Possible subcommands: channels, numsub, numpat.

# File lib/redis.rb, line 2342
def pubsub(subcommand, *args)
  synchronize do |client|
    client.call([:pubsub, subcommand] + args)
  end
end

Stop listening for messages posted to channels matching the given patterns.

# File lib/redis.rb, line 2333
def punsubscribe(*channels)
  synchronize do |client|
    raise RuntimeError, "Can't unsubscribe if not subscribed." unless subscribed?
    client.punsubscribe(*channels)
  end
end

Queues a command for pipelining.

Commands in the queue are executed with the #commit method.

See redis.io/topics/pipelining for more details.

# File lib/redis.rb, line 97
def queue(*command)
  @queue[Thread.current.object_id] << command
end

Close the connection.

@return [String] `OK`

# File lib/redis.rb, line 169
def quit
  synchronize do |client|
    begin
      client.call([:quit])
    rescue ConnectionError
    ensure
      client.disconnect
    end
  end
end

Return a random key from the keyspace.

@return [String]

# File lib/redis.rb, line 611
def randomkey
  synchronize do |client|
    client.call([:randomkey])
  end
end

Rename a key. If the new key already exists it is overwritten.

@param [String] old_name @param [String] new_name @return [String] `OK`

# File lib/redis.rb, line 622
def rename(old_name, new_name)
  synchronize do |client|
    client.call([:rename, old_name, new_name])
  end
end

Rename a key, only if the new key does not exist.

@param [String] old_name @param [String] new_name @return [Boolean] whether the key was renamed or not

# File lib/redis.rb, line 633
def renamenx(old_name, new_name)
  synchronize do |client|
    client.call([:renamenx, old_name, new_name], &Boolify)
  end
end

Create a key using the serialized value, previously obtained using DUMP.

@param [String] key @param [String] ttl @param [String] serialized_value @param [Hash] options

- `:replace => Boolean`: if false, raises an error if key already exists

@raise [Redis::CommandError] @return [String] `“OK”`

# File lib/redis.rb, line 497
def restore(key, ttl, serialized_value, options = {})
  args = [:restore, key, ttl, serialized_value]
  args << 'REPLACE' if options[:replace]

  synchronize do |client|
    client.call(args)
  end
end

Remove and get the last element in a list.

@param [String] key @return [String]

# File lib/redis.rb, line 1148
def rpop(key)
  synchronize do |client|
    client.call([:rpop, key])
  end
end

Remove the last element in a list, append it to another list and return it.

@param [String] source source key @param [String] destination destination key @return [nil, String] the element, or nil when the source key does not exist

# File lib/redis.rb, line 1159
def rpoplpush(source, destination)
  synchronize do |client|
    client.call([:rpoplpush, source, destination])
  end
end

Append one or more values to a list, creating the list if it doesn't exist

@param [String] key @param [String, Array<String>] value string value, or array of string values to push @return [Fixnum] the length of the list after the push operation

# File lib/redis.rb, line 1117
def rpush(key, value)
  synchronize do |client|
    client.call([:rpush, key, value])
  end
end

Append a value to a list, only if the list exists.

@param [String] key @param [String] value @return [Fixnum] the length of the list after the push operation

# File lib/redis.rb, line 1128
def rpushx(key, value)
  synchronize do |client|
    client.call([:rpushx, key, value])
  end
end

Add one or more members to a set.

@param [String] key @param [String, Array<String>] member one member, or array of members @return [Boolean, Fixnum] `Boolean` when a single member is specified,

holding whether or not adding the member succeeded, or `Fixnum` when an
array of members is specified, holding the number of members that were
successfully added

# File lib/redis.rb, line 1351
def sadd(key, member)
  synchronize do |client|
    client.call([:sadd, key, member]) do |reply|
      if member.is_a? Array
        # Variadic: return integer
        reply
      else
        # Single argument: return boolean
        Boolify.call(reply)
      end
    end
  end
end

Synchronously save the dataset to disk.

@return [String]

# File lib/redis.rb, line 327
def save
  synchronize do |client|
    client.call([:save])
  end
end

Scan the keyspace

@example Retrieve the first batch of keys

redis.scan(0)
  # => ["4", ["key:21", "key:47", "key:42"]]

@example Retrieve a batch of keys matching a pattern

redis.scan(4, :match => "key:1?")
  # => ["92", ["key:13", "key:18"]]

@param [String, Integer] cursor the cursor of the iteration @param [Hash] options

- `:match => String`: only return keys matching the pattern
- `:count => Integer`: return count keys at most per iteration

@return [String, Array<String>] the next cursor and all found keys

# File lib/redis.rb, line 2643
def scan(cursor, options={})
  _scan(:scan, cursor, [], options)
end

Scan the keyspace

@example Retrieve all of the keys (with possible duplicates)

redis.scan_each.to_a
  # => ["key:21", "key:47", "key:42"]

@example Execute block for each key matching a pattern

redis.scan_each(:match => "key:1?") {|key| puts key}
  # => key:13
  # => key:18

@param [Hash] options

- `:match => String`: only return keys matching the pattern
- `:count => Integer`: return count keys at most per iteration

@return [Enumerator] an enumerator for all found keys

# File lib/redis.rb, line 2662
def scan_each(options={}, &block)
  return to_enum(:scan_each, options) unless block_given?
  cursor = 0
  loop do
    cursor, keys = scan(cursor, options)
    keys.each(&block)
    break if cursor == "0"
  end
end

Get the number of members in a set.

@param [String] key @return [Fixnum]

# File lib/redis.rb, line 1337
def scard(key)
  synchronize do |client|
    client.call([:scard, key])
  end
end

Control remote script registry.

@example Load a script

sha = redis.script(:load, "return 1")
  # => <sha of this script>

@example Check if a script exists

redis.script(:exists, sha)
  # => true

@example Check if multiple scripts exist

redis.script(:exists, [sha, other_sha])
  # => [true, false]

@example Flush the script registry

redis.script(:flush)
  # => "OK"

@example Kill a running script

redis.script(:kill)
  # => "OK"

@param [String] subcommand e.g. `exists`, `flush`, `load`, `kill` @param [Array<String>] args depends on subcommand @return [String, Boolean, Array<Boolean>, …] depends on subcommand

@see eval @see evalsha

# File lib/redis.rb, line 2523
def script(subcommand, *args)
  subcommand = subcommand.to_s.downcase

  if subcommand == "exists"
    synchronize do |client|
      arg = args.first

      client.call([:script, :exists, arg]) do |reply|
        reply = reply.map { |r| Boolify.call(r) }

        if arg.is_a?(Array)
          reply
        else
          reply.first
        end
      end
    end
  else
    synchronize do |client|
      client.call([:script, subcommand] + args)
    end
  end
end

Subtract multiple sets.

@param [String, Array<String>] keys keys pointing to sets to subtract @return [Array<String>] members in the difference

# File lib/redis.rb, line 1454
def sdiff(*keys)
  synchronize do |client|
    client.call([:sdiff] + keys)
  end
end

Subtract multiple sets and store the resulting set in a key.

@param [String] destination destination key @param [String, Array<String>] keys keys pointing to sets to subtract @return [Fixnum] number of elements in the resulting set

# File lib/redis.rb, line 1465
def sdiffstore(destination, *keys)
  synchronize do |client|
    client.call([:sdiffstore, destination] + keys)
  end
end

Change the selected database for the current connection.

@param [Fixnum] db zero-based index of the DB to use (0 to 15) @return [String] `OK`

# File lib/redis.rb, line 139
def select(db)
  synchronize do |client|
    client.db = db
    client.call([:select, db])
  end
end

Interact with the sentinel command (masters, master, slaves, failover)

@param [String] subcommand e.g. `masters`, `master`, `slaves` @param [Array<String>] args depends on subcommand @return [Array<String>, Hash<String, String>, String] depends on subcommand

# File lib/redis.rb, line 3227
def sentinel(subcommand, *args)
  subcommand = subcommand.to_s.downcase
  synchronize do |client|
    client.call([:sentinel, subcommand] + args) do |reply|
      case subcommand
      when "get-master-addr-by-name"
        reply
      else
        if reply.kind_of?(Array)
          if reply[0].kind_of?(Array)
            reply.map(&Hashify)
          else
            Hashify.call(reply)
          end
        else
          reply
        end
      end
    end
  end
end

Set the string value of a key.

@param [String] key @param [String] value @param [Hash] options

- `:ex => Fixnum`: Set the specified expire time, in seconds.
- `:px => Fixnum`: Set the specified expire time, in milliseconds.
- `:nx => true`: Only set the key if it does not already exist.
- `:xx => true`: Only set the key if it already exist.

@return [String, Boolean] `“OK”` or true, false if `:nx => true` or `:xx => true`

# File lib/redis.rb, line 788
def set(key, value, options = {})
  args = []

  ex = options[:ex]
  args.concat(["EX", ex]) if ex

  px = options[:px]
  args.concat(["PX", px]) if px

  nx = options[:nx]
  args.concat(["NX"]) if nx

  xx = options[:xx]
  args.concat(["XX"]) if xx

  synchronize do |client|
    if nx || xx
      client.call([:set, key, value.to_s] + args, &BoolifySet)
    else
      client.call([:set, key, value.to_s] + args)
    end
  end
end

Sets or clears the bit at offset in the string value stored at key.

@param [String] key @param [Fixnum] offset bit offset @param [Fixnum] value bit value `0` or `1` @return [Fixnum] the original bit value stored at `offset`

# File lib/redis.rb, line 984
def setbit(key, offset, value)
  synchronize do |client|
    client.call([:setbit, key, offset, value])
  end
end

Set the time to live in seconds of a key.

@param [String] key @param [Fixnum] ttl @param [String] value @return [String] `“OK”`

# File lib/redis.rb, line 818
def setex(key, ttl, value)
  synchronize do |client|
    client.call([:setex, key, ttl, value.to_s])
  end
end

Set the value of a key, only if the key does not exist.

@param [String] key @param [String] value @return [Boolean] whether the key was set or not

# File lib/redis.rb, line 841
def setnx(key, value)
  synchronize do |client|
    client.call([:setnx, key, value.to_s], &Boolify)
  end
end

Overwrite part of a string at key starting at the specified offset.

@param [String] key @param [Fixnum] offset byte offset @param [String] value @return [Fixnum] length of the string after it was modified

# File lib/redis.rb, line 959
def setrange(key, offset, value)
  synchronize do |client|
    client.call([:setrange, key, offset, value.to_s])
  end
end

Synchronously save the dataset to disk and then shut down the server.

# File lib/redis.rb, line 334
def shutdown
  synchronize do |client|
    client.with_reconnect(false) do
      begin
        client.call([:shutdown])
      rescue ConnectionError
        # This means Redis has probably exited.
        nil
      end
    end
  end
end

Intersect multiple sets.

@param [String, Array<String>] keys keys pointing to sets to intersect @return [Array<String>] members in the intersection

# File lib/redis.rb, line 1475
def sinter(*keys)
  synchronize do |client|
    client.call([:sinter] + keys)
  end
end

Intersect multiple sets and store the resulting set in a key.

@param [String] destination destination key @param [String, Array<String>] keys keys pointing to sets to intersect @return [Fixnum] number of elements in the resulting set

# File lib/redis.rb, line 1486
def sinterstore(destination, *keys)
  synchronize do |client|
    client.call([:sinterstore, destination] + keys)
  end
end

Determine if a given value is a member of a set.

@param [String] key @param [String] member @return [Boolean]

# File lib/redis.rb, line 1434
def sismember(key, member)
  synchronize do |client|
    client.call([:sismember, key, member], &Boolify)
  end
end

Make the server a slave of another instance, or promote it as master.

# File lib/redis.rb, line 348
def slaveof(host, port)
  synchronize do |client|
    client.call([:slaveof, host, port])
  end
end

Interact with the slowlog (get, len, reset)

@param [String] subcommand e.g. `get`, `len`, `reset` @param [Fixnum] length maximum number of entries to return @return [Array<String>, Fixnum, String] depends on subcommand

# File lib/redis.rb, line 359
def slowlog(subcommand, length=nil)
  synchronize do |client|
    args = [:slowlog, subcommand]
    args << length if length
    client.call args
  end
end

Get all the members in a set.

@param [String] key @return [Array<String>]

# File lib/redis.rb, line 1444
def smembers(key)
  synchronize do |client|
    client.call([:smembers, key])
  end
end

Move a member from one set to another.

@param [String] source source key @param [String] destination destination key @param [String] member member to move from `source` to `destination` @return [Boolean]

# File lib/redis.rb, line 1423
def smove(source, destination, member)
  synchronize do |client|
    client.call([:smove, source, destination, member], &Boolify)
  end
end

Sort the elements in a list, set or sorted set.

@example Retrieve the first 2 elements from an alphabetically sorted “list”

redis.sort("list", :order => "alpha", :limit => [0, 2])
  # => ["a", "b"]

@example Store an alphabetically descending list in “target”

redis.sort("list", :order => "desc alpha", :store => "target")
  # => 26

@param [String] key @param [Hash] options

- `:by => String`: use external key to sort elements by
- `:limit => [offset, count]`: skip `offset` elements, return a maximum
of `count` elements
- `:get => [String, Array<String>]`: single key or array of keys to
retrieve per element in the result
- `:order => String`: combination of `ASC`, `DESC` and optionally `ALPHA`
- `:store => String`: key to store the result at

@return [Array<String>, Array<Array<String>>, Fixnum]

- when `:get` is not specified, or holds a single element, an array of elements
- when `:get` is specified, and holds more than one element, an array of
elements where every element is an array with the result for every
element specified in `:get`
- when `:store` is specified, the number of elements in the stored result

# File lib/redis.rb, line 664
def sort(key, options = {})
  args = []

  by = options[:by]
  args.concat(["BY", by]) if by

  limit = options[:limit]
  args.concat(["LIMIT"] + limit) if limit

  get = Array(options[:get])
  args.concat(["GET"].product(get).flatten) unless get.empty?

  order = options[:order]
  args.concat(order.split(" ")) if order

  store = options[:store]
  args.concat(["STORE", store]) if store

  synchronize do |client|
    client.call([:sort, key] + args) do |reply|
      if get.size > 1 && !store
        if reply
          reply.each_slice(get.size).to_a
        end
      else
        reply
      end
    end
  end
end

Remove and return one or more random member from a set.

@param [String] key @return [String] @param [Fixnum] count

# File lib/redis.rb, line 1392
def spop(key, count = nil)
  synchronize do |client|
    if count.nil?
      client.call([:spop, key])
    else
      client.call([:spop, key, count])
    end
  end
end

Get one or more random members from a set.

@param [String] key @param [Fixnum] count @return [String]

# File lib/redis.rb, line 1407
def srandmember(key, count = nil)
  synchronize do |client|
    if count.nil?
      client.call([:srandmember, key])
    else
      client.call([:srandmember, key, count])
    end
  end
end

Remove one or more members from a set.

@param [String] key @param [String, Array<String>] member one member, or array of members @return [Boolean, Fixnum] `Boolean` when a single member is specified,

holding whether or not removing the member succeeded, or `Fixnum` when an
array of members is specified, holding the number of members that were
successfully removed

# File lib/redis.rb, line 1373
def srem(key, member)
  synchronize do |client|
    client.call([:srem, key, member]) do |reply|
      if member.is_a? Array
        # Variadic: return integer
        reply
      else
        # Single argument: return boolean
        Boolify.call(reply)
      end
    end
  end
end

Scan a set

@example Retrieve the first batch of keys in a set

redis.sscan("set", 0)

@param [String, Integer] cursor the cursor of the iteration @param [Hash] options

- `:match => String`: only return keys matching the pattern
- `:count => Integer`: return count keys at most per iteration

@return [String, Array<String>] the next cursor and all found members

# File lib/redis.rb, line 2760
def sscan(key, cursor, options={})
  _scan(:sscan, cursor, [key], options)
end

Scan a set

@example Retrieve all of the keys in a set

redis.sscan_each("set").to_a
# => ["key1", "key2", "key3"]

@param [Hash] options

- `:match => String`: only return keys matching the pattern
- `:count => Integer`: return count keys at most per iteration

@return [Enumerator] an enumerator for all keys in the set

# File lib/redis.rb, line 2775
def sscan_each(key, options={}, &block)
  return to_enum(:sscan_each, key, options) unless block_given?
  cursor = 0
  loop do
    cursor, keys = sscan(key, cursor, options)
    keys.each(&block)
    break if cursor == "0"
  end
end

Get the length of the value stored in a key.

@param [String] key @return [Fixnum] the length of the value stored in the key, or 0

if the key does not exist

# File lib/redis.rb, line 1074
def strlen(key)
  synchronize do |client|
    client.call([:strlen, key])
  end
end

Listen for messages published to the given channels.

# File lib/redis.rb, line 2297
def subscribe(*channels, &block)
  synchronize do |client|
    _subscription(:subscribe, 0, channels, block)
  end
end

Listen for messages published to the given channels. Throw a timeout error if there is no messages for a timeout period.

# File lib/redis.rb, line 2304
def subscribe_with_timeout(timeout, *channels, &block)
  synchronize do |client|
    _subscription(:subscribe_with_timeout, timeout, channels, block)
  end
end

Add multiple sets.

@param [String, Array<String>] keys keys pointing to sets to unify @return [Array<String>] members in the union

# File lib/redis.rb, line 1496
def sunion(*keys)
  synchronize do |client|
    client.call([:sunion] + keys)
  end
end

Add multiple sets and store the resulting set in a key.

@param [String] destination destination key @param [String, Array<String>] keys keys pointing to sets to unify @return [Fixnum] number of elements in the resulting set

# File lib/redis.rb, line 1507
def sunionstore(destination, *keys)
  synchronize do |client|
    client.call([:sunionstore, destination] + keys)
  end
end

Internal command used for replication.

# File lib/redis.rb, line 368
def sync
  synchronize do |client|
    client.call([:sync])
  end
end

Return the server time.

@example

r.time # => [ 1333093196, 606806 ]

@return [Array<Fixnum>] tuple of seconds since UNIX epoch and

microseconds in the current second

# File lib/redis.rb, line 381
def time
  synchronize do |client|
    client.call([:time]) do |reply|
      reply.map(&:to_i) if reply
    end
  end
end

Get the time to live (in seconds) for a key.

@param [String] key @return [Fixnum] remaining time to live in seconds.

In Redis 2.6 or older the command returns -1 if the key does not exist or if the key exist but has no associated expire.

Starting with Redis 2.8 the return value in case of error changed:

- The command returns -2 if the key does not exist.
- The command returns -1 if the key exists but has no associated expire.

# File lib/redis.rb, line 433
def ttl(key)
  synchronize do |client|
    client.call([:ttl, key])
  end
end

Determine the type stored at key.

@param [String] key @return [String] `string`, `list`, `set`, `zset`, `hash` or `none`

# File lib/redis.rb, line 699
def type(key)
  synchronize do |client|
    client.call([:type, key])
  end
end

Unlink one or more keys.

@param [String, Array<String>] keys @return [Fixnum] number of keys that were unlinked

# File lib/redis.rb, line 545
def unlink(*keys)
  synchronize do |client|
    client.call([:unlink] + keys)
  end
end

Stop listening for messages posted to the given channels.

# File lib/redis.rb, line 2311
def unsubscribe(*channels)
  synchronize do |client|
    raise RuntimeError, "Can't unsubscribe if not subscribed." unless subscribed?
    client.unsubscribe(*channels)
  end
end

Forget about all watched keys.

@return [String] `OK`

@see watch @see multi

# File lib/redis.rb, line 2403
def unwatch
  synchronize do |client|
    client.call([:unwatch])
  end
end

Watch the given keys to determine execution of the MULTI/EXEC block.

Using a block is optional, but is necessary for thread-safety.

An `#unwatch` is automatically issued if an exception is raised within the block that is a subclass of StandardError and is not a ConnectionError.

@example With a block

redis.watch("key") do
  if redis.get("key") == "some value"
    redis.multi do |multi|
      multi.set("key", "other value")
      multi.incr("counter")
    end
  else
    redis.unwatch
  end
end
  # => ["OK", 6]

@example Without a block

redis.watch("key")
  # => "OK"

@param [String, Array<String>] keys one or more keys to watch @return [Object] if using a block, returns the return value of the block @return [String] if not using a block, returns `OK`

@see unwatch @see multi

# File lib/redis.rb, line 2378
def watch(*keys)
  synchronize do |client|
    res = client.call([:watch] + keys)

    if block_given?
      begin
        yield(self)
      rescue ConnectionError
        raise
      rescue StandardError
        unwatch
        raise
      end
    else
      res
    end
  end
end

Run code with the client reconnecting

# File lib/redis.rb, line 55
def with_reconnect(val=true, &blk)
  synchronize do |client|
    client.with_reconnect(val, &blk)
  end
end

Run code without the client reconnecting

# File lib/redis.rb, line 62
def without_reconnect(&blk)
  with_reconnect(false, &blk)
end

Removes one or multiple entries from the pending entries list of a stream consumer group.

@example With a entry id

redis.xack('mystream', 'mygroup', '1526569495631-0')

@example With splatted entry ids

redis.xack('mystream', 'mygroup', '0-1', '0-2')

@example With arrayed entry ids

redis.xack('mystream', 'mygroup', %w[0-1 0-2])

@param key [String] the stream key @param group [String] the consumer group name @param ids [Array<String>] one or multiple entry ids

@return [Integer] the number of entries successfully acknowledged

# File lib/redis.rb, line 3142
def xack(key, group, *ids)
  args = [:xack, key, group].concat(ids.flatten)
  synchronize { |client| client.call(args) }
end

Add new entry to the stream.

@example Without options

redis.xadd('mystream', f1: 'v1', f2: 'v2')

@example With options

redis.xadd('mystream', { f1: 'v1', f2: 'v2' }, id: '0-0', maxlen: 1000, approximate: true)

@param key [String] the stream key @param entry [Hash] one or multiple field-value pairs @param opts [Hash] several options for `XADD` command

@option opts [String] :id the entry id, default value is `*`, it means auto generation @option opts [Integer] :maxlen max length of entries @option opts [Boolean] :approximate whether to add `~` modifier of maxlen or not

@return [String] the entry id

# File lib/redis.rb, line 2946
def xadd(key, entry, opts = {})
  args = [:xadd, key]
  args.concat(['MAXLEN', (opts[:approximate] ? '~' : nil), opts[:maxlen]].compact) if opts[:maxlen]
  args << (opts[:id] || '*')
  args.concat(entry.to_a.flatten)
  synchronize { |client| client.call(args) }
end

Changes the ownership of a pending entry

@example With splatted entry ids

redis.xclaim('mystream', 'mygroup', 'consumer1', 3600000, '0-1', '0-2')

@example With arrayed entry ids

redis.xclaim('mystream', 'mygroup', 'consumer1', 3600000, %w[0-1 0-2])

@example With idle option

redis.xclaim('mystream', 'mygroup', 'consumer1', 3600000, %w[0-1 0-2], idle: 1000)

@example With time option

redis.xclaim('mystream', 'mygroup', 'consumer1', 3600000, %w[0-1 0-2], time: 1542866959000)

@example With retrycount option

redis.xclaim('mystream', 'mygroup', 'consumer1', 3600000, %w[0-1 0-2], retrycount: 10)

@example With force option

redis.xclaim('mystream', 'mygroup', 'consumer1', 3600000, %w[0-1 0-2], force: true)

@example With justid option

redis.xclaim('mystream', 'mygroup', 'consumer1', 3600000, %w[0-1 0-2], justid: true)

@param key [String] the stream key @param group [String] the consumer group name @param consumer [String] the consumer name @param min_idle_time [Integer] the number of milliseconds @param ids [Array<String>] one or multiple entry ids @param opts [Hash] several options for `XCLAIM` command

@option opts [Integer] :idle the number of milliseconds as last time it was delivered of the entry @option opts [Integer] :time the number of milliseconds as a specific Unix Epoch time @option opts [Integer] :retrycount the number of retry counter @option opts [Boolean] :force whether to create the pending entry to the pending entries list or not @option opts [Boolean] :justid whether to fetch just an array of entry ids or not

@return [Hash{String => Hash}] the entries successfully claimed @return [Array<String>] the entry ids successfully claimed if justid option is `true`

# File lib/redis.rb, line 3179
def xclaim(key, group, consumer, min_idle_time, *ids, **opts)
  args = [:xclaim, key, group, consumer, min_idle_time].concat(ids.flatten)
  args.concat(['IDLE',       opts[:idle].to_i])  if opts[:idle]
  args.concat(['TIME',       opts[:time].to_i])  if opts[:time]
  args.concat(['RETRYCOUNT', opts[:retrycount]]) if opts[:retrycount]
  args << 'FORCE'                                if opts[:force]
  args << 'JUSTID'                               if opts[:justid]
  blk = opts[:justid] ? Noop : HashifyStreamEntries
  synchronize { |client| client.call(args, &blk) }
end

Delete entries by entry ids.

@example With splatted entry ids

redis.xdel('mystream', '0-1', '0-2')

@example With arrayed entry ids

redis.xdel('mystream', ['0-1', '0-2'])

@param key [String] the stream key @param ids [Array<String>] one or multiple entry ids

@return [Integer] the number of entries actually deleted

# File lib/redis.rb, line 2982
def xdel(key, *ids)
  args = [:xdel, key].concat(ids.flatten)
  synchronize { |client| client.call(args) }
end

Manages the consumer group of the stream.

@example With `create` subcommand

redis.xgroup(:create, 'mystream', 'mygroup', '$')

@example With `setid` subcommand

redis.xgroup(:setid, 'mystream', 'mygroup', '$')

@example With `destroy` subcommand

redis.xgroup(:destroy, 'mystream', 'mygroup')

@example With `delconsumer` subcommand

redis.xgroup(:delconsumer, 'mystream', 'mygroup', 'consumer1')

@param subcommand [String] `create` `setid` `destroy` `delconsumer` @param key [String] the stream key @param group [String] the consumer group name @param id_or_consumer [String]

* the entry id or `$`, required if subcommand is `create` or `setid`
* the consumer name, required if subcommand is `delconsumer`

@param mkstream [Boolean] whether to create an empty stream automatically or not

@return [String] `OK` if subcommand is `create` or `setid` @return [Integer] effected count if subcommand is `destroy` or `delconsumer`

# File lib/redis.rb, line 3090
def xgroup(subcommand, key, group, id_or_consumer = nil, mkstream: false)
  args = [:xgroup, subcommand, key, group, id_or_consumer, (mkstream ? 'MKSTREAM' : nil)].compact
  synchronize { |client| client.call(args) }
end

Returns the stream information each subcommand.

@example stream

redis.xinfo(:stream, 'mystream')

@example groups

redis.xinfo(:groups, 'mystream')

@example consumers

redis.xinfo(:consumers, 'mystream', 'mygroup')

@param subcommand [String] e.g. `stream` `groups` `consumers` @param key [String] the stream key @param group [String] the consumer group name, required if subcommand is `consumers`

@return [Hash] information of the stream if subcommand is `stream` @return [Array<Hash>] information of the consumer groups if subcommand is `groups` @return [Array<Hash>] information of the consumers if subcommand is `consumers`

# File lib/redis.rb, line 2917
def xinfo(subcommand, key, group = nil)
  args = [:xinfo, subcommand, key, group].compact
  synchronize do |client|
    client.call(args) do |reply|
      case subcommand.to_s.downcase
      when 'stream'              then Hashify.call(reply)
      when 'groups', 'consumers' then reply.map { |arr| Hashify.call(arr) }
      else reply
      end
    end
  end
end

Returns the number of entries inside a stream.

@example With key

redis.xlen('mystream')

@param key [String] the stream key

@return [Integer] the number of entries

# File lib/redis.rb, line 3041
def xlen(key)
  synchronize { |client| client.call([:xlen, key]) }
end

Fetches not acknowledging pending entries

@example With key and group

redis.xpending('mystream', 'mygroup')

@example With range options

redis.xpending('mystream', 'mygroup', '-', '+', 10)

@example With range and consumer options

redis.xpending('mystream', 'mygroup', '-', '+', 10, 'consumer1')

@param key [String] the stream key @param group [String] the consumer group name @param start [String] start first entry id of range @param end [String] end last entry id of range @param count [Integer] count the number of entries as limit @param consumer [String] the consumer name

@return [Hash] the summary of pending entries @return [Array<Hash>] the pending entries details if options were specified

# File lib/redis.rb, line 3208
def xpending(key, group, *args)
  command_args = [:xpending, key, group]
  case args.size
  when 0, 3, 4
    command_args.concat(args)
  else
    raise ArgumentError, "wrong number of arguments (given #{args.size + 2}, expected 2, 5 or 6)"
  end

  summary_needed = args.empty?
  blk = summary_needed ? HashifyStreamPendings : HashifyStreamPendingDetails
  synchronize { |client| client.call(command_args, &blk) }
end

Fetches entries of the stream in ascending order.

@example Without options

redis.xrange('mystream')

@example With a specific start

redis.xrange('mystream', '0-1')

@example With a specific start and end

redis.xrange('mystream', '0-1', '0-3')

@example With count options

redis.xrange('mystream', count: 10)

@param key [String] the stream key @param start [String] first entry id of range, default value is `-` @param end [String] last entry id of range, default value is `+` @param count [Integer] the number of entries as limit

@return [Array<Array<String, Hash>>] the ids and entries pairs

# File lib/redis.rb, line 3004
def xrange(key, start = '-', _end = '+', count: nil)
  args = [:xrange, key, start, _end]
  args.concat(['COUNT', count]) if count
  synchronize { |client| client.call(args, &HashifyStreamEntries) }
end

Fetches entries from one or multiple streams. Optionally blocking.

@example With a key

redis.xread('mystream', '0-0')

@example With multiple keys

redis.xread(%w[mystream1 mystream2], %w[0-0 0-0])

@example With count option

redis.xread('mystream', '0-0', count: 2)

@example With block option

redis.xread('mystream', '$', block: 1000)

@param keys [Array<String>] one or multiple stream keys @param ids [Array<String>] one or multiple entry ids @param count [Integer] the number of entries as limit per stream @param block [Integer] the number of milliseconds as blocking timeout

@return [Hash{String => Hash{String => Hash}}] the entries

# File lib/redis.rb, line 3062
def xread(keys, ids, count: nil, block: nil)
  args = [:xread]
  args << 'COUNT' << count if count
  args << 'BLOCK' << block.to_i if block
  _xread(args, keys, ids, block)
end

Fetches a subset of the entries from one or multiple streams related with the consumer group. Optionally blocking.

@example With a key

redis.xreadgroup('mygroup', 'consumer1', 'mystream', '>')

@example With multiple keys

redis.xreadgroup('mygroup', 'consumer1', %w[mystream1 mystream2], %w[> >])

@example With count option

redis.xreadgroup('mygroup', 'consumer1', 'mystream', '>', count: 2)

@example With block option

redis.xreadgroup('mygroup', 'consumer1', 'mystream', '>', block: 1000)

@example With noack option

redis.xreadgroup('mygroup', 'consumer1', 'mystream', '>', noack: true)

@param group [String] the consumer group name @param consumer [String] the consumer name @param keys [Array<String>] one or multiple stream keys @param ids [Array<String>] one or multiple entry ids @param opts [Hash] several options for `XREADGROUP` command

@option opts [Integer] :count the number of entries as limit @option opts [Integer] :block the number of milliseconds as blocking timeout @option opts [Boolean] :noack whether message loss is acceptable or not

@return [Hash{String => Hash{String => Hash}}] the entries

# File lib/redis.rb, line 3120
def xreadgroup(group, consumer, keys, ids, opts = {})
  args = [:xreadgroup, 'GROUP', group, consumer]
  args << 'COUNT' << opts[:count] if opts[:count]
  args << 'BLOCK' << opts[:block].to_i if opts[:block]
  args << 'NOACK' if opts[:noack]
  _xread(args, keys, ids, opts[:block])
end

Fetches entries of the stream in descending order.

@example Without options

redis.xrevrange('mystream')

@example With a specific end

redis.xrevrange('mystream', '0-3')

@example With a specific end and start

redis.xrevrange('mystream', '0-3', '0-1')

@example With count options

redis.xrevrange('mystream', count: 10)

@param key [String] the stream key @param end [String] first entry id of range, default value is `+` @param start [String] last entry id of range, default value is `-` @params count [Integer] the number of entries as limit

@return [Array<Array<String, Hash>>] the ids and entries pairs

# File lib/redis.rb, line 3027
def xrevrange(key, _end = '+', start = '-', count: nil)
  args = [:xrevrange, key, _end, start]
  args.concat(['COUNT', count]) if count
  synchronize { |client| client.call(args, &HashifyStreamEntries) }
end

Trims older entries of the stream if needed.

@example Without options

redis.xtrim('mystream', 1000)

@example With options

redis.xtrim('mystream', 1000, approximate: true)

@param key [String] the stream key @param mexlen [Integer] max length of entries @param approximate [Boolean] whether to add `~` modifier of maxlen or not

@return [Integer] the number of entries actually deleted

# File lib/redis.rb, line 2966
def xtrim(key, maxlen, approximate: false)
  args = [:xtrim, key, 'MAXLEN', (approximate ? '~' : nil), maxlen].compact
  synchronize { |client| client.call(args) }
end

Add one or more members to a sorted set, or update the score for members that already exist.

@example Add a single `[score, member]` pair to a sorted set

redis.zadd("zset", 32.0, "member")

@example Add an array of `[score, member]` pairs to a sorted set

redis.zadd("zset", [[32.0, "a"], [64.0, "b"]])

@param [String] key @param [[Float, String], Array<[Float, String]>] args

- a single `[score, member]` pair
- an array of `[score, member]` pairs

@param [Hash] options

- `:xx => true`: Only update elements that already exist (never
add elements)
- `:nx => true`: Don't update already existing elements (always
add new elements)
- `:ch => true`: Modify the return value from the number of new
elements added, to the total number of elements changed (CH is an
abbreviation of changed); changed elements are new elements added
and elements already existing for which the score was updated
- `:incr => true`: When this option is specified ZADD acts like
ZINCRBY; only one score-element pair can be specified in this mode

@return [Boolean, Fixnum, Float]

- `Boolean` when a single pair is specified, holding whether or not it was
**added** to the sorted set.
- `Fixnum` when an array of pairs is specified, holding the number of
pairs that were **added** to the sorted set.
- `Float` when option :incr is specified, holding the score of the member
after incrementing it.

# File lib/redis.rb, line 1558
def zadd(key, *args) #, options
  zadd_options = []
  if args.last.is_a?(Hash)
    options = args.pop

    nx = options[:nx]
    zadd_options << "NX" if nx

    xx = options[:xx]
    zadd_options << "XX" if xx

    ch = options[:ch]
    zadd_options << "CH" if ch

    incr = options[:incr]
    zadd_options << "INCR" if incr
  end

  synchronize do |client|
    if args.size == 1 && args[0].is_a?(Array)
      # Variadic: return float if INCR, integer if !INCR
      client.call([:zadd, key] + zadd_options + args[0], &(incr ? Floatify : nil))
    elsif args.size == 2
      # Single pair: return float if INCR, boolean if !INCR
      client.call([:zadd, key] + zadd_options + args, &(incr ? Floatify : Boolify))
    else
      raise ArgumentError, "wrong number of arguments"
    end
  end
end

Get the number of members in a sorted set.

@example

redis.zcard("zset")
  # => 4

@param [String] key @return [Fixnum]

# File lib/redis.rb, line 1521
def zcard(key)
  synchronize do |client|
    client.call([:zcard, key])
  end
end

Count the members in a sorted set with scores within the given values.

@example Count members with score `>= 5` and `< 100`

redis.zcount("zset", "5", "(100")
  # => 2

@example Count members with scores `> 5`

redis.zcount("zset", "(5", "+inf")
  # => 2

@param [String] key @param [String] min

- inclusive minimum score is specified verbatim
- exclusive minimum score is specified by prefixing `(`

@param [String] max

- inclusive maximum score is specified verbatim
- exclusive maximum score is specified by prefixing `(`

@return [Fixnum] number of members in within the specified range

# File lib/redis.rb, line 2031
def zcount(key, min, max)
  synchronize do |client|
    client.call([:zcount, key, min, max])
  end
end

Increment the score of a member in a sorted set.

@example

redis.zincrby("zset", 32.0, "a")
  # => 64.0

@param [String] key @param [Float] increment @param [String] member @return [Float] score of the member after incrementing it

# File lib/redis.rb, line 1599
def zincrby(key, increment, member)
  synchronize do |client|
    client.call([:zincrby, key, increment, member], &Floatify)
  end
end

Intersect multiple sorted sets and store the resulting sorted set in a new key.

@example Compute the intersection of `2*zsetA` with `1*zsetB`, summing their scores

redis.zinterstore("zsetC", ["zsetA", "zsetB"], :weights => [2.0, 1.0], :aggregate => "sum")
  # => 4

@param [String] destination destination key @param [Array<String>] keys source keys @param [Hash] options

- `:weights => [Float, Float, ...]`: weights to associate with source
sorted sets
- `:aggregate => String`: aggregate function to use (sum, min, max, ...)

@return [Fixnum] number of elements in the resulting sorted set

# File lib/redis.rb, line 2051
def zinterstore(destination, keys, options = {})
  args = []

  weights = options[:weights]
  args.concat(["WEIGHTS"] + weights) if weights

  aggregate = options[:aggregate]
  args.concat(["AGGREGATE", aggregate]) if aggregate

  synchronize do |client|
    client.call([:zinterstore, destination, keys.size] + keys + args)
  end
end

Count the members, with the same score in a sorted set, within the given lexicographical range.

@example Count members matching a

redis.zlexcount("zset", "[a", "[a\xff")
  # => 1

@example Count members matching a-z

redis.zlexcount("zset", "[a", "[z\xff")
  # => 26

@param [String] key @param [String] min

- inclusive minimum is specified by prefixing `(`
- exclusive minimum is specified by prefixing `[`

@param [String] max

- inclusive maximum is specified by prefixing `(`
- exclusive maximum is specified by prefixing `[`

@return [Fixnum] number of members within the specified lexicographical range

# File lib/redis.rb, line 1854
def zlexcount(key, min, max)
  synchronize do |client|
    client.call([:zlexcount, key, min, max])
  end
end

Removes and returns up to count members with the highest scores in the sorted set stored at key.

@example Popping a member

redis.zpopmax('zset')
#=> ['b', 2.0]

@example With count option

redis.zpopmax('zset', 2)
#=> [['b', 2.0], ['a', 1.0]]

@params key [String] a key of the sorted set @params count [Integer] a number of members

@return [Array<String, Float>] element and score pair if count is not specified @return [Array<Array<String, Float>>] list of popped elements and scores

# File lib/redis.rb, line 1650
def zpopmax(key, count = nil)
  synchronize do |client|
    members = client.call([:zpopmax, key, count].compact, &FloatifyPairs)
    count.to_i > 1 ? members : members.first
  end
end

Removes and returns up to count members with the lowest scores in the sorted set stored at key.

@example Popping a member

redis.zpopmin('zset')
#=> ['a', 1.0]

@example With count option

redis.zpopmin('zset', 2)
#=> [['a', 1.0], ['b', 2.0]]

@params key [String] a key of the sorted set @params count [Integer] a number of members

@return [Array<String, Float>] element and score pair if count is not specified @return [Array<Array<String, Float>>] list of popped elements and scores

# File lib/redis.rb, line 1671
def zpopmin(key, count = nil)
  synchronize do |client|
    members = client.call([:zpopmin, key, count].compact, &FloatifyPairs)
    count.to_i > 1 ? members : members.first
  end
end

Return a range of members in a sorted set, by index.

@example Retrieve all members from a sorted set

redis.zrange("zset", 0, -1)
  # => ["a", "b"]

@example Retrieve all members and their scores from a sorted set

redis.zrange("zset", 0, -1, :with_scores => true)
  # => [["a", 32.0], ["b", 64.0]]

@param [String] key @param [Fixnum] start start index @param [Fixnum] stop stop index @param [Hash] options

- `:with_scores => true`: include scores in output

@return [Array<String>, Array<[String, Float]>]

- when `:with_scores` is not specified, an array of members
- when `:with_scores` is specified, an array with `[member, score]` pairs

# File lib/redis.rb, line 1753
def zrange(key, start, stop, options = {})
  args = []

  with_scores = options[:with_scores] || options[:withscores]

  if with_scores
    args << "WITHSCORES"
    block = FloatifyPairs
  end

  synchronize do |client|
    client.call([:zrange, key, start, stop] + args, &block)
  end
end

Return a range of members with the same score in a sorted set, by lexicographical ordering

@example Retrieve members matching a

redis.zrangebylex("zset", "[a", "[a\xff")
  # => ["aaren", "aarika", "abagael", "abby"]

@example Retrieve the first 2 members matching a

redis.zrangebylex("zset", "[a", "[a\xff", :limit => [0, 2])
  # => ["aaren", "aarika"]

@param [String] key @param [String] min

- inclusive minimum is specified by prefixing `(`
- exclusive minimum is specified by prefixing `[`

@param [String] max

- inclusive maximum is specified by prefixing `(`
- exclusive maximum is specified by prefixing `[`

@param [Hash] options

- `:limit => [offset, count]`: skip `offset` members, return a maximum of
`count` members

@return [Array<String>, Array<[String, Float]>]

# File lib/redis.rb, line 1881
def zrangebylex(key, min, max, options = {})
  args = []

  limit = options[:limit]
  args.concat(["LIMIT"] + limit) if limit

  synchronize do |client|
    client.call([:zrangebylex, key, min, max] + args)
  end
end

Return a range of members in a sorted set, by score.

@example Retrieve members with score `>= 5` and `< 100`

redis.zrangebyscore("zset", "5", "(100")
  # => ["a", "b"]

@example Retrieve the first 2 members with score `>= 0`

redis.zrangebyscore("zset", "0", "+inf", :limit => [0, 2])
  # => ["a", "b"]

@example Retrieve members and their scores with scores `> 5`

redis.zrangebyscore("zset", "(5", "+inf", :with_scores => true)
  # => [["a", 32.0], ["b", 64.0]]

@param [String] key @param [String] min

- inclusive minimum score is specified verbatim
- exclusive minimum score is specified by prefixing `(`

@param [String] max

- inclusive maximum score is specified verbatim
- exclusive maximum score is specified by prefixing `(`

@param [Hash] options

- `:with_scores => true`: include scores in output
- `:limit => [offset, count]`: skip `offset` members, return a maximum of
`count` members

@return [Array<String>, Array<[String, Float]>]

- when `:with_scores` is not specified, an array of members
- when `:with_scores` is specified, an array with `[member, score]` pairs

# File lib/redis.rb, line 1941
def zrangebyscore(key, min, max, options = {})
  args = []

  with_scores = options[:with_scores] || options[:withscores]

  if with_scores
    args << "WITHSCORES"
    block = FloatifyPairs
  end

  limit = options[:limit]
  args.concat(["LIMIT"] + limit) if limit

  synchronize do |client|
    client.call([:zrangebyscore, key, min, max] + args, &block)
  end
end

Determine the index of a member in a sorted set.

@param [String] key @param [String] member @return [Fixnum]

# File lib/redis.rb, line 1799
def zrank(key, member)
  synchronize do |client|
    client.call([:zrank, key, member])
  end
end

Remove one or more members from a sorted set.

@example Remove a single member from a sorted set

redis.zrem("zset", "a")

@example Remove an array of members from a sorted set

redis.zrem("zset", ["a", "b"])

@param [String] key @param [String, Array<String>] member

- a single member
- an array of members

@return [Boolean, Fixnum]

- `Boolean` when a single member is specified, holding whether or not it
was removed from the sorted set
- `Fixnum` when an array of pairs is specified, holding the number of
members that were removed to the sorted set

# File lib/redis.rb, line 1622
def zrem(key, member)
  synchronize do |client|
    client.call([:zrem, key, member]) do |reply|
      if member.is_a? Array
        # Variadic: return integer
        reply
      else
        # Single argument: return boolean
        Boolify.call(reply)
      end
    end
  end
end

Remove all members in a sorted set within the given indexes.

@example Remove first 5 members

redis.zremrangebyrank("zset", 0, 4)
  # => 5

@example Remove last 5 members

redis.zremrangebyrank("zset", -5, -1)
  # => 5

@param [String] key @param [Fixnum] start start index @param [Fixnum] stop stop index @return [Fixnum] number of members that were removed

# File lib/redis.rb, line 1830
def zremrangebyrank(key, start, stop)
  synchronize do |client|
    client.call([:zremrangebyrank, key, start, stop])
  end
end

Remove all members in a sorted set within the given scores.

@example Remove members with score `>= 5` and `< 100`

redis.zremrangebyscore("zset", "5", "(100")
  # => 2

@example Remove members with scores `> 5`

redis.zremrangebyscore("zset", "(5", "+inf")
  # => 2

@param [String] key @param [String] min

- inclusive minimum score is specified verbatim
- exclusive minimum score is specified by prefixing `(`

@param [String] max

- inclusive maximum score is specified verbatim
- exclusive maximum score is specified by prefixing `(`

@return [Fixnum] number of members that were removed

# File lib/redis.rb, line 2008
def zremrangebyscore(key, min, max)
  synchronize do |client|
    client.call([:zremrangebyscore, key, min, max])
  end
end

Return a range of members in a sorted set, by index, with scores ordered from high to low.

@example Retrieve all members from a sorted set

redis.zrevrange("zset", 0, -1)
  # => ["b", "a"]

@example Retrieve all members and their scores from a sorted set

redis.zrevrange("zset", 0, -1, :with_scores => true)
  # => [["b", 64.0], ["a", 32.0]]

@see zrange

# File lib/redis.rb, line 1779
def zrevrange(key, start, stop, options = {})
  args = []

  with_scores = options[:with_scores] || options[:withscores]

  if with_scores
    args << "WITHSCORES"
    block = FloatifyPairs
  end

  synchronize do |client|
    client.call([:zrevrange, key, start, stop] + args, &block)
  end
end