Redis lists

Introduction to Redis lists

Redis lists are linked lists of string values. Redis lists are frequently used to:

  • Implement stacks and queues.
  • Build queue management for background worker systems.

Basic commands

  • LPUSH adds a new element to the head of a list; RPUSH adds to the tail.
  • LPOP removes and returns an element from the head of a list; RPOP does the same but from the tails of a list.
  • LLEN returns the length of a list.
  • LMOVE atomically moves elements from one list to another.
  • LTRIM reduces a list to the specified range of elements.

Blocking commands

Lists support several blocking commands. For example:

  • BLPOP removes and returns an element from the head of a list. If the list is empty, the command blocks until an element becomes available or until the specified timeout is reached.
  • BLMOVE atomically moves elements from a source list to a target list. If the source list is empty, the command will block until a new element becomes available.

See the complete series of list commands.

Examples

  • Treat a list like a queue (first in, first out):

  • Treat a list like a stack (first in, last out):

  • Check the length of a list:

  • Atomically pop an element from one list and push to another:

  • To limit the length of a list you can call LTRIM:

What are Lists?

To explain the List data type it's better to start with a little bit of theory, as the term List is often used in an improper way by information technology folks. For instance "Python Lists" are not what the name may suggest (Linked Lists), but rather Arrays (the same data type is called Array in Ruby actually).

From a very general point of view a List is just a sequence of ordered elements: 10,20,1,2,3 is a list. But the properties of a List implemented using an Array are very different from the properties of a List implemented using a Linked List.

Redis lists are implemented via Linked Lists. This means that even if you have millions of elements inside a list, the operation of adding a new element in the head or in the tail of the list is performed in constant time. The speed of adding a new element with the LPUSH command to the head of a list with ten elements is the same as adding an element to the head of list with 10 million elements.

What's the downside? Accessing an element by index is very fast in lists implemented with an Array (constant time indexed access) and not so fast in lists implemented by linked lists (where the operation requires an amount of work proportional to the index of the accessed element).

Redis Lists are implemented with linked lists because for a database system it is crucial to be able to add elements to a very long list in a very fast way. Another strong advantage, as you'll see in a moment, is that Redis Lists can be taken at constant length in constant time.

When fast access to the middle of a large collection of elements is important, there is a different data structure that can be used, called sorted sets. Sorted sets are covered in the Sorted sets tutorial page.

First steps with Redis Lists

The LPUSH command adds a new element into a list, on the left (at the head), while the RPUSH command adds a new element into a list, on the right (at the tail). Finally the LRANGE command extracts ranges of elements from lists:

Note that LRANGE takes two indexes, the first and the last element of the range to return. Both the indexes can be negative, telling Redis to start counting from the end: so -1 is the last element, -2 is the penultimate element of the list, and so forth.

As you can see RPUSH appended the elements on the right of the list, while the final LPUSH appended the element on the left.

Both commands are variadic commands, meaning that you are free to push multiple elements into a list in a single call:

An important operation defined on Redis lists is the ability to pop elements. Popping elements is the operation of both retrieving the element from the list, and eliminating it from the list, at the same time. You can pop elements from left and right, similarly to how you can push elements in both sides of the list. We'll add three elements and pop three elements, so at the end of this sequence of commands the list is empty and there are no more elements to pop:

Redis returned a NULL value to signal that there are no elements in the list.

Common use cases for lists

Lists are useful for a number of tasks, two very representative use cases are the following:

  • Remember the latest updates posted by users into a social network.
  • Communication between processes, using a consumer-producer pattern where the producer pushes items into a list, and a consumer (usually a worker) consumes those items and executes actions. Redis has special list commands to make this use case both more reliable and efficient.

For example both the popular Ruby libraries resque and sidekiq use Redis lists under the hood in order to implement background jobs.

The popular Twitter social network takes the latest tweets posted by users into Redis lists.

To describe a common use case step by step, imagine your home page shows the latest photos published in a photo sharing social network and you want to speedup access.

  • Every time a user posts a new photo, we add its ID into a list with LPUSH.
  • When users visit the home page, we use LRANGE 0 9 in order to get the latest 10 posted items.

Capped lists

In many use cases we just want to use lists to store the latest items, whatever they are: social network updates, logs, or anything else.

Redis allows us to use lists as a capped collection, only remembering the latest N items and discarding all the oldest items using the LTRIM command.

The LTRIM command is similar to LRANGE, but instead of displaying the specified range of elements it sets this range as the new list value. All the elements outside the given range are removed.

For example, if you're adding bikes on the end of a list of repairs, but only want to worry about the 3 that have been on the list the longest:

The above LTRIM command tells Redis to keep just list elements from index 0 to 2, everything else will be discarded. This allows for a very simple but useful pattern: doing a List push operation + a List trim operation together to add a new element and discard elements exceeding a limit. Using LTRIM with negative indexes can then be used to keep only the 3 most recently added:

The above combination adds new elements and keeps only the 3 newest elements into the list. With LRANGE you can access the top items without any need to remember very old data.

Note: while LRANGE is technically an O(N) command, accessing small ranges towards the head or the tail of the list is a constant time operation.

Blocking operations on lists

Lists have a special feature that make them suitable to implement queues, and in general as a building block for inter process communication systems: blocking operations.

Imagine you want to push items into a list with one process, and use a different process in order to actually do some kind of work with those items. This is the usual producer / consumer setup, and can be implemented in the following simple way:

  • To push items into the list, producers call LPUSH.
  • To extract / process items from the list, consumers call RPOP.

However it is possible that sometimes the list is empty and there is nothing to process, so RPOP just returns NULL. In this case a consumer is forced to wait some time and retry again with RPOP. This is called polling, and is not a good idea in this context because it has several drawbacks:

  1. Forces Redis and clients to process useless commands (all the requests when the list is empty will get no actual work done, they'll just return NULL).
  2. Adds a delay to the processing of items, since after a worker receives a NULL, it waits some time. To make the delay smaller, we could wait less between calls to RPOP, with the effect of amplifying problem number 1, i.e. more useless calls to Redis.

So Redis implements commands called BRPOP and BLPOP which are versions of RPOP and LPOP able to block if the list is empty: they'll return to the caller only when a new element is added to the list, or when a user-specified timeout is reached.

This is an example of a BRPOP call we could use in the worker:

It means: "wait for elements in the list bikes:repairs, but return if after 5 seconds no element is available".

Note that you can use 0 as timeout to wait for elements forever, and you can also specify multiple lists and not just one, in order to wait on multiple lists at the same time, and get notified when the first list receives an element.

A few things to note about BRPOP:

  1. Clients are served in an ordered way: the first client that blocked waiting for a list, is served first when an element is pushed by some other client, and so forth.
  2. The return value is different compared to RPOP: it is a two-element array since it also includes the name of the key, because BRPOP and BLPOP are able to block waiting for elements from multiple lists.
  3. If the timeout is reached, NULL is returned.

There are more things you should know about lists and blocking ops. We suggest that you read more on the following:

  • It is possible to build safer queues or rotating queues using LMOVE.
  • There is also a blocking variant of the command, called BLMOVE.

Automatic creation and removal of keys

So far in our examples we never had to create empty lists before pushing elements, or removing empty lists when they no longer have elements inside. It is Redis' responsibility to delete keys when lists are left empty, or to create an empty list if the key does not exist and we are trying to add elements to it, for example, with LPUSH.

This is not specific to lists, it applies to all the Redis data types composed of multiple elements -- Streams, Sets, Sorted Sets and Hashes.

Basically we can summarize the behavior with three rules:

  1. When we add an element to an aggregate data type, if the target key does not exist, an empty aggregate data type is created before adding the element.
  2. When we remove elements from an aggregate data type, if the value remains empty, the key is automatically destroyed. The Stream data type is the only exception to this rule.
  3. Calling a read-only command such as LLEN (which returns the length of the list), or a write command removing elements, with an empty key, always produces the same result as if the key is holding an empty aggregate type of the type the command expects to find.

Examples of rule 1:

However we can't perform operations against the wrong type if the key exists:

Example of rule 2:

The key no longer exists after all the elements are popped.

Example of rule 3:

Limits

The max length of a Redis list is 2^32 - 1 (4,294,967,295) elements.

Performance

List operations that access its head or tail are O(1), which means they're highly efficient. However, commands that manipulate elements within a list are usually O(n). Examples of these include LINDEX, LINSERT, and LSET. Exercise caution when running these commands, mainly when operating on large lists.

Alternatives

Consider Redis streams as an alternative to lists when you need to store and process an indeterminate series of events.

Learn more

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