What is an idempotent operation?

15 Answers 15


In computing, an idempotent operation is one that has no additional effect if it is called more than once with the same input parameters. For example, removing an item from a set can be considered an idempotent operation on the set.

In mathematics, an idempotent operation is one where f(f(x)) = f(x). For example, the abs() function is idempotent because abs(abs(x)) = abs(x) for all x.

These slightly different definitions can be reconciled by considering that x in the mathematical definition represents the state of an object, and f is an operation that may mutate that object. For example, consider the Python set and its discard method. The discard method removes an element from a set, and does nothing if the element does not exist. So:


has exactly the same effect as doing the same operation twice:


Idempotent operations are often used in the design of network protocols, where a request to perform an operation is guaranteed to happen at least once, but might also happen more than once. If the operation is idempotent, then there is no harm in performing the operation two or more times.

See the Wikipedia article on idempotence for more information.

The above answer previously had some incorrect and misleading examples. Comments below written before April 2014 refer to an older revision.

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    Example :since answer above states that Idempotent operations are often used in the design of network protocols here's a related example **GET is not suppose to change anything on the server, so GET is, idempotent. In HTTP/servlet context, it means the same request can be made twice with no negative consequences. **POST is NOT idempotent. – KNU Apr 1 '14 at 10:37
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    Is "stateless" synonymous with "idempotent"? – Michael Osofsky Dec 5 '14 at 17:09
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    @MichaelOsofsky: No, in the Python set example in the answer, the set object clearly has state and also offers some idempotent operations such as discard. – Greg Hewgill Dec 7 '14 at 19:44
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    @MichaelOsofsky, discard can also be implemented in a stateless way by encompassing the state in the return value: discard([my_set, x]) = [my_new_set, x]. So you can do discard(discard([my_set, x])). Note that [my_new_set, x] is just one argument and its type is 2-tuple. – Pacerier Mar 10 '15 at 22:59
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    Not removing an item from a set but removing the given number from a set. Because it you do, for example, array.pop() the operation definitely harms the set every time it is called. – Green Oct 10 '15 at 8:10

An idempotent operation can be repeated an arbitrary number of times and the result will be the same as if it had been done only once. In arithmetic, adding zero to a number is idempotent.

Idempotence is talked about a lot in the context of "RESTful" web services. REST seeks to maximally leverage HTTP to give programs access to web content, and is usually set in contrast to SOAP-based web services, which just tunnel remote procedure call style services inside HTTP requests and responses.

REST organizes a web application into "resources" (like a Twitter user, or a Flickr image) and then uses the HTTP verbs of POST, PUT, GET, and DELETE to create, update, read, and delete those resources.

Idempotence plays an important role in REST. If you GET a representation of a REST resource (eg, GET a jpeg image from Flickr), and the operation fails, you can just repeat the GET again and again until the operation succeeds. To the web service, it doesn't matter how many times the image is gotten. Likewise, if you use a RESTful web service to update your Twitter account information, you can PUT the new information as many times as it takes in order to get confirmation from the web service. PUT-ing it a thousand times is the same as PUT-ing it once. Similarly DELETE-ing a REST resource a thousand times is the same as deleting it once. Idempotence thus makes it a lot easier to construct a web service that's resilient to communication errors.

Further reading: RESTful Web Services, by Richardson and Ruby (idempotence is discussed on page 103-104), and Roy Fielding's PhD dissertation on REST. Fielding was one of the authors of HTTP 1.1, RFC-2616, which talks about idempotence in section 9.1.2.

  • Clear and straightforward. Yet this is but only one interpretation of idempotent. – Pacerier Mar 10 '15 at 21:45
  • @Pacerier: Very true, idempotence has applications in many other areas, like functional programming and message queue processing. – Jim Ferrans Mar 11 '15 at 3:37
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    "idempotence" is a heavily overloaded word because it sounds grandiloquent and has enough characters to pass the sesquipedalian check. If Benjamin Peirce had chosen a simpler sounding word, we wouldn't even have this question today. – Pacerier Mar 11 '15 at 11:15
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    How to understand it: Similarly DELETE-ing a REST resource a thousand times is the same as deleting it once? You cannot delete the resource again if it is already deleted. – Green Oct 10 '15 at 8:14
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    @Green but you don't delete it the first time. You send a delete request. The important point is that you can send as many requests as you like. – Caleth Apr 6 '17 at 12:54

No matter how many times you call the operation, the result will be the same.

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    I've heard idempotent defined as either or both of the below: 1) For a given set of inputs it will always return the same output. 2) Does not produce any side effects. My question is, if a function conforms to #1, but not #2, because it results in a side effect unrelated to the computation (logs the request to a data store, for example), is it still considered idempotent? – Keith Bennett Jun 28 '12 at 22:32
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    The result of calling an operation must include the state of the system, so if the operation has some cumulative side effect it is not idempotent; however, if the side effect leaves the system in the same state no matter how many times the operation is called, then it may be idempotent. – Robert Jul 17 '12 at 21:45
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    Short and sweet, I love that kind of answer. Not sure why I have to look this term up constantly, it's one that just doesn't stay with me. – Prancer Feb 2 '15 at 12:59
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    @KeithBennett, The second definition is wrong. "No side effect" does not mean idempotent. Idempotent functions can have side effects. E.g. MySQL's truncate and delete. – Pacerier Mar 10 '15 at 23:11
  • The result will be the same (that is, the system state), but the response may vary (ie, HTTP status codes on a REST service). – G. Steigert Feb 7 '18 at 11:13

Idempotence means that applying an operation once or applying it multiple times has the same effect.


  • Multiplication by zero. No matter how many times you do it, the result is still zero.
  • Setting a boolean flag. No matter how many times you do it, the flag stays set.
  • Deleting a row from a database with a given ID. If you try it again, the row is still gone.

For pure functions (functions with no side effects) then idempotency implies that f(x) = f(f(x)) = f(f(f(x))) = f(f(f(f(x)))) = ...... for all values of x

For functions with side effects, idempotency furthermore implies that no additional side effects will be caused after the first application. You can consider the state of the world to be an additional "hidden" parameter to the function if you like.

Note that in a world where you have concurrent actions going on, you may find that operations you thought were idempotent cease to be so (for example, another thread could unset the value of the boolean flag in the example above). Basically whenever you have concurrency and mutable state, you need to think much more carefully about idempotency.

Idempotency is often a useful property in building robust systems. For example, if there is a risk that you may receive a duplicate message from a third party, it is helpful to have the message handler act as an idempotent operation so that the message effect only happens once.

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    If for pure functions f(x) = f(f(x)), Do you mean that f(x){return x+1;} is not a pure function? because f(x) != f(f(x)): f(1) gives 2 while f(2) gives 3. – Pacerier Mar 10 '15 at 22:08
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    @Pacerier No, @mikera is saying pure and idempotent implies f(x) = f(f(x)). But as @GregHewgill mentioned, in order for this definition to make sense, you have to consider x as an object and f as an operation that mutates the state of the object (ie: the output of f is a mutated x). – Justin J Stark Oct 17 '16 at 16:14

An idempotent operation produces the result in the same state even if you call it more than once, provided you pass in the same parameters.


Just wanted to throw out a real use case that demonstrates idempotence. In JavaScript, say you are defining a bunch of model classes (as in MVC model). The way this is often implemented is functionally equivalent to something like this (basic example):

function model(name) {
  function Model() {
    this.name = name;

  return Model;

You could then define new classes like this:

var User = model('user');
var Article = model('article');

But if you were to try to get the User class via model('user'), from somewhere else in the code, it would fail:

var User = model('user');
// ... then somewhere else in the code (in a different scope)
var User = model('user');

Those two User constructors would be different. That is,

model('user') !== model('user');

To make it idempotent, you would just add some sort of caching mechanism, like this:

var collection = {};

function model(name) {
  if (collection[name])
    return collection[name];

  function Model() {
    this.name = name;

  collection[name] = Model;
  return Model;

By adding caching, every time you did model('user') it will be the same object, and so it's idempotent. So:

model('user') === model('user');

An idempotent operation is an operation, action, or request that can be applied multiple times without changing the result, i.e. the state of the system, beyond the initial application.


IDEMPOTENT: Making multiple identical requests has the same effect as making a single request. A message in an email messaging system is opened and marked as "opened" in the database. One can open the message many times but this repeated action will only ever result in that message being in the "opened" state. This is an idempotent operation. The first time one PUTs an update to a resource using information that does not match the resource (the state of the system), the state of the system will change as the resource is updated. If one PUTs the same update to a resource repeatedly then the information in the update will match the information already in the system upon every PUT, and no change to the state of the system will occur. Repeated PUTs with the same information are idempotent: the first PUT may change the state of the system, subsequent PUTs should not.

NON-IDEMPOTENT: If an operation always causes a change in state, like POSTing the same message to a user over and over, resulting in a new message sent and stored in the database every time, we say that the operation is NON-IDEMPOTENT.

NULLIPOTENT: If an operation has no side effects, like purely displaying information on a web page without any change in a database (in other words you are only reading the database), we say the operation is NULLIPOTENT. All GETs should be nullipotent.

When talking about the state of the system we are obviously ignoring hopefully harmless and inevitable effects like logging and diagnostics.


Idempotent Operations: Operations that have no side-effects if executed multiple times.
Example: An operation that retrieves values from a data resource and say, prints it

Non-Idempotent Operations: Operations that would cause some harm if executed multiple times. (As they change some values or states)
Example: An operation that withdraws from a bank account

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    Actually a wrong answer! for the Idempotent operation saying "have no side-effects" is not right. for the non-idempotent operations saying " cause some harm" is a confusing answer. – Saeed Mohtasham Apr 16 '18 at 15:37

Quite a detailed and technical answers. Just adding a simple definition.

Idempotent = Re-runnable

For example, Create operation in itself is not guaranteed to run without error if executed more than once. But if there is an operation CreateOrUpdate then it states re-runnability (Idempotency).

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    This is a deceptive definition. re-runnability does not guarantee to be idempotent. An operation can be re-runnable and in each run it can add additional effects to the result so it would not be idempotent. – Saeed Mohtasham Apr 16 '18 at 14:38

An idempotent operation over a set leaves its members unchanged when applied one or more times.

It can be a unary operation like absolute(x) where x belongs to a set of positive integers. Here absolute(absolute(x)) = x.

It can be a binary operation like union of a set with itself would always return the same set.


  • An idempotent operation is one where f(f(x)) = f(x). "leaves its members unchanged" is not a right answer. – Saeed Mohtasham Apr 16 '18 at 15:44

It is any operation that every nth result will result in an output matching the value of the 1st result. For instance the absolute value of -1 is 1. The absolute value of the absolute value of -1 is 1. The absolute value of the absolute value of absolute value of -1 is 1. And so on.

See also: When would be a really silly time to use recursion?

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    it is pithy answer even after 10 years. +1 – snr Jun 23 '19 at 5:41

A good example of understanding an idempotent operation might be locking a car with remote key.

log(Car.state) // unlocked

log(Car.state) // locked

log(Car.state) // locked

lock is an idempotent operation. Even if there are some side effect each time you run lock, like blinking, the car is still in the same locked state.


my 5c: In integration and networking the idempotency is very important. Several examples from real-life: Imagine, we deliver data to the target system. Data delivered by a sequence of messages. 1. What would happen if the sequence is mixed in channel? (As network packages always do :) ). If the target system is idempotent, the result will not be different. If the target system depends of the right order in the sequence, we have to implement resequencer on the target site, which would restore the right order. 2. What would happen if there are the message duplicates? If the channel of target system does not acknowledge timely, the source system (or channel itself) usually sends another copy of the message. As a result we can have duplicate message on the target system side. If the target system is idempotent, it takes care of it and result will not be different. If the target system is not idempotent, we have to implement deduplicator on the target system side of the channel.

  • Idempotency of single requests sent in isolation from any other requests (or anything else happening that changes the state of the system), is not the same as reordering requests. A HTTP PUT request and a HTTP DELETE request should both be individually idempotent - but that does not mean that the order of calling PUT and DELETE on the same URL does not matter, because the PUT request might have side effects! – Robin Green Mar 8 '16 at 9:25

In short, Idempotent operations means that the operation will not result in different results no matter how many times you operate the idempotent operations.

For example, according to the definition of the spec of HTTP, GET, HEAD, PUT, and DELETE are idempotent operations; however POST and PATCH are not. That's why sometimes POST is replaced by PUT.



Is usually the easiest way to understand its meaning in computer science.

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    Retry implies something that failed the first or previous time. Not quite the same. – Lasse V. Karlsen Apr 6 '17 at 12:37
  • Who edited my question and got me a down vote? That is not the text I posted?? – teknopaul Apr 9 '17 at 10:17
  • You can check the edit log by clicking on the link below your answer that says "edited X hours ago" or similar. – Lasse V. Karlsen Apr 9 '17 at 19:17

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