Sorry for the waffly title - if I could come up with a concise title, I wouldn't have to ask the question.

Suppose I have an immutable list type. It has an operation Foo(x) which returns a new immutable list with the specified argument as an extra element at the end. So to build up a list of strings with values "Hello", "immutable", "world" you could write:

var empty = new ImmutableList<string>();
var list1 = empty.Foo("Hello");
var list2 = list1.Foo("immutable");
var list3 = list2.Foo("word");

(This is C# code, and I'm most interested in a C# suggestion if you feel the language is important. It's not fundamentally a language question, but the idioms of the language may be important.)

The important thing is that the existing lists are not altered by Foo - so empty.Count would still return 0.

Another (more idiomatic) way of getting to the end result would be:

var list = new ImmutableList<string>().Foo("Hello")

My question is: what's the best name for Foo?

EDIT 3: As I reveal later on, the name of the type might not actually be ImmutableList<T>, which makes the position clear. Imagine instead that it's TestSuite and that it's immutable because the whole of the framework it's a part of is immutable...

(End of edit 3)

Options I've come up with so far:

  • Add: common in .NET, but implies mutation of the original list
  • Cons: I believe this is the normal name in functional languages, but meaningless to those without experience in such languages
  • Plus: my favourite so far, it doesn't imply mutation to me. Apparently this is also used in Haskell but with slightly different expectations (a Haskell programmer might expect it to add two lists together rather than adding a single value to the other list).
  • With: consistent with some other immutable conventions, but doesn't have quite the same "additionness" to it IMO.
  • And: not very descriptive.
  • Operator overload for + : I really don't like this much; I generally think operators should only be applied to lower level types. I'm willing to be persuaded though!

The criteria I'm using for choosing are:

  • Gives the correct impression of the result of the method call (i.e. that it's the original list with an extra element)
  • Makes it as clear as possible that it doesn't mutate the existing list
  • Sounds reasonable when chained together as in the second example above

Please ask for more details if I'm not making myself clear enough...

EDIT 1: Here's my reasoning for preferring Plus to Add. Consider these two lines of code:


In my view (and this is a personal thing) the latter is clearly buggy - it's like writing "x + 5;" as a statement on its own. The first line looks like it's okay, until you remember that it's immutable. In fact, the way that the plus operator on its own doesn't mutate its operands is another reason why Plus is my favourite. Without the slight ickiness of operator overloading, it still gives the same connotations, which include (for me) not mutating the operands (or method target in this case).

EDIT 2: Reasons for not liking Add.

Various answers are effectively: "Go with Add. That's what DateTime does, and String has Replace methods etc which don't make the immutability obvious." I agree - there's precedence here. However, I've seen plenty of people call DateTime.Add or String.Replace and expect mutation. There are loads of newsgroup questions (and probably SO ones if I dig around) which are answered by "You're ignoring the return value of String.Replace; strings are immutable, a new string gets returned."

Now, I should reveal a subtlety to the question - the type might not actually be an immutable list, but a different immutable type. In particular, I'm working on a benchmarking framework where you add tests to a suite, and that creates a new suite. It might be obvious that:

var list = new ImmutableList<string>();

isn't going to accomplish anything, but it becomes a lot murkier when you change it to:

var suite = new TestSuite<string, int>();
suite.Add(x => x.Length);

That looks like it should be okay. Whereas this, to me, makes the mistake clearer:

var suite = new TestSuite<string, int>();
suite.Plus(x => x.Length);

That's just begging to be:

var suite = new TestSuite<string, int>().Plus(x => x.Length);

Ideally, I would like my users not to have to be told that the test suite is immutable. I want them to fall into the pit of success. This may not be possible, but I'd like to try.

I apologise for over-simplifying the original question by talking only about an immutable list type. Not all collections are quite as self-descriptive as ImmutableList<T> :)

  • 2
    @Adam: No, the latter is clearly buggy. They're both actually buggy (as they're doing nothing with the result) - but the first doesn't look buggy to me. – Jon Skeet Feb 6 '09 at 20:35
  • 36
    Is an uncat a dog? – Michael Myers Feb 6 '09 at 21:15
  • 7
    Concat/Condog... works for me! ;) – gnovice Feb 6 '09 at 21:16
  • 11
    Uncat - that'd be a zombie cat. – Erik Forbes Feb 7 '09 at 0:22
  • 2
    @Trap: That sucks in terms of making the API fluid though. – Jon Skeet Mar 9 '09 at 15:02

74 Answers 74


Maybe a static method or an operator (which is static) would be best. It would take responsibility away from the instances, and users will know right away that the operation doesn't belong to any of the instances. It's specially important NOT to use extension methods, since their resemblance to instance methods upon usage defeats the purpose.

The static method could be called Join:

public static class ListOperations {
  public static ImmutableList<T> Join<T>(ImmutableList<T> list, T tail) {
    // ...
  public static ImmutableList<T> Join<T>(T head, ImmutableList<T> list) {
    // ...
  public static ImmutableList<T> Join<T>(ImmutableList<T> list1, ImmutableList<T> list2) {
    // ...
  // substitutes chaining:
  public static ImmutableList<T> Join<T>(ImmutableList<T> list, params T[] tail) {
    // ...

// ....

var list = new ImmutableList<string>("Hello");
var list2 = ListOperations.Join(list, "immutable"); // inferred type parameter
var list3 = ListOperations.Join(list2, "world!");

But I'd prefer that C# had class-free functions here. Or at least something like Java's static import facility.

The operator could be +:

var list = new ImmutableList<string>("Hello");
var list2 = list + "immutable";
var list3 = list2 + "world!";

But I'd rather be able to use something else like <<, :: or ., which are not possible in C#.

Also, static members look more functional and I think lend themselves better to this immutable view.


I personally like unite(), as when you unite objects you still preserve their individuality, but the union of them is a separate new entity. Union is similar as suggested but is already well defined in set theory and unite is more verby and says to me that following the method I have a new enitity. I know its late but hey couldn't find the suggestion on the list. Plus the word reminds me of the days of old and uniting people to go to war.. hehe


2 suggestions:

A "free" function:

Foo f = new Foo(whatever);
Foo fPlusSomething = Foo.Concat(f, something);

A constructor overload (which is, in a way, a variation on the "free function" theme):

Foo f = new Foo(whatever);
Foo fPlusSomething = new Foo(f, something);

The name WithAdded reads nicely and is IMHO better than Added which can be read as an adjective.

var list2 = list1.WithAdded("immutable");

Or for a slightly more verbose version:

var list2 = list1.WithAddedElement("immutable");
  • What's nice about this approach is that it generalizes to other methods, like Replace, Remove – CodesInChaos Dec 10 '13 at 14:32

How about cloneWith?

1. For the single word names suggested, I would not know for sure what they do until I checked the documentation.
2. For the compound names suggested thus far, I like cloneWith better. I would know exactly what I was getting with this method name, it is relatively concise, it is easy to remember, and it just "feels" right :)
3. With modern code-completion in most programming tools, longer names are easier to work with than ever before.

Though many times conciseness adds to clarity, take clarity over conciseness if you have to choose...

In Action:

var empty = new ImmutableList<string>();
var list1 = empty.cloneWith("Hello");
var list2 = list1.cloneWith("immutable");
var list3 = list2.cloneWith("word");
  • I like the notion of "clone" to express the idea of the immutability conservation but "with" is a bit ambiguous in this current context. – Emmanuel Devaux Aug 26 '11 at 7:58
  • @Emmanuel Devaux: Thanks for the input, but will you please clarify what you mean when you say "'with' is a bit ambiguous in this current context"? For example, what else would [1,2].cloneWith(3) logically be other than the new array [1,2,3]? – Briguy37 Aug 26 '11 at 14:24
  • "With" do not express what is the final action (add , remove etc...) "With" suggest that parameter is self explanatory to know the final action ...ex: cloneWith("Hello") ... will it be add or just taken as a filter like "clone this object with hello as filter"... "With" synonym of "tied to" / "has" / "match"... – Emmanuel Devaux Aug 26 '11 at 14:38
  • @Emmanuel Defaux: Thanks for the clarification. I would not normally think of cloneWith(x) as applying a filter unless it was cloneWithFilter(x), so thank you for the different point of view. – Briguy37 Aug 26 '11 at 15:25
  • 1
    How about "ClonePlus"? – supercat Jan 28 '12 at 6:57

I would go with list.NewList("word") because it describes what you are doing (creating a new list).

I must agree it doesn't imply that the argument is added to the end of the list, but personally I belong to the succinct-if-possible camp, so I'd favour list.NewList("word") over list.NewListAfterAppend("word").


I'm a little late to the party, but I didn't see an answer that suggested simply not doing it at all! Let it stay immutable. Any method you put is going to open to abuse when they put it into a loop, which ~will~ happen eventually. Instead, I'd advise using a builder instead.

MyImmutableBuilder builder = new MyImmutableBuilder(someImmutable);
MyImmutable modifiedImmultable = builder.add(element1).add(element2).build();

Now in the case of an ImmutableList, your builder would really just be a List, most likely.

I guess it all boils down to... to you really want an easy way to add just a single element to your immutable collection? If it's a common occurrence, you probably don't want to be using an immutable object (you can always call build() any time you want to send a snapshot of the object at it's present state...) If it's not a common occurrence, then having a builder as a requirement to do it wouldn't be a significant impediment, especially if it were documented that this is how you want to build them.

@supercat - consider the following scenario you describe:

Stack a = someImmutableStackOfSize(10);
Stack b = a.popAndCopy(); // size 9
Stack c = a.popAndCopy(); // also size 9
// a b and c have the same backing list
Stack d = b.pushAndCopy("node1");
Stack e = c.pushAndCopy("node2");
// because d and e had the same backing list, how will it 
// know that d's last element is node1, but e's last
// element is node2?
  • Some types of immutable collection support reasonably-efficient means of appending items. – supercat Jan 28 '12 at 6:59
  • @supercat Perhaps you could elaborate on what you mean by reasonably efficient. Typically an immutable collection has to make a copy of the backing data. – corsiKa Jan 28 '12 at 7:14
  • As a best-case example, consider an immutable stack type implemented as a linked list. Given an existing stack, one can make a stack with one more element pushed on by creating a new element linked to the old stack and then returning that element. One can make a stack with one fewer element pushed on by simply returning the 'next' pointer of the first element. – supercat Jan 28 '12 at 15:32
  • @supercat I edited my answer to illustrate an example of why that wouldn't work. – corsiKa Jan 28 '12 at 20:32
  • This is exactly what I suggested one down from you. – Justin Breitfeller May 24 '12 at 17:04

Any name that implies that an object of the same type will be returned should be fine to use. Plus is a good name for this, as if you plus two objects you expect the result to be returned.

Plus just doesn't sound like the correct name to use in this instance though, since you're 'Plus'ing a test into a test suite.

GetWith() sounds like an option to me. Or ever GetTypeWith() where type is obviously the type your using. So for example:

var list = new ImmutableList<String>();
var list2 = list.GetWith("First");
var list3 = list2.GetWith("Second");

// OR

var list2 = list.GetListWith("First");

The Get implies you're getting the list that's already contained, and the With implies you want another object along with it. CopyWith() would also meet this criteria.

The immediate problem I see with GetWith is that it's not easily guessable. A developer wants to add a suite, not get the current suite. I'd immediately type .Add and hope intellisence showed something very close to what I'd expect.

  • Hmmm... I don't think that if I saw "GetWith" I'd know what it meant without looking it up (let alone being discoverable). Your reasoning about Plus is interesting, although there's precedent with things like DateTime + TimeSpan which I've never had any trouble with. – Jon Skeet Apr 4 '09 at 7:17

As a c++ programmer and fan of the STL I put forth add_copy. (this would also suggest remove_copy, replace_copy and so on)


I would personally go with AddVoid or the other way around of VoidAdd


If you're a functional programmer, this has a few names:


pronounced "append". Or it could be concat, depending on your types:

-- join two things into one thing:
append :: a -> a -> a    

-- join many things into one thing
concat :: [a] -> a

Or you might mean (:), AKA cons:

(:) :: a -> [a] -> [a]    

if you're joining things onto the front of the list, snoc if it goes on the end.

At least that's what we've been calling appending things onto lists in Haskell-land for the last 20 years.

Note, this is not arithmetic (+), since it is monoidal, not a ring.

  • 1
    Concat works for me, but for some reason Append sounds more like a mutating operation. (Obviously not a problem in a functional environment where nothing mutates.) – Jon Skeet May 20 '11 at 7:04

This seems to come down to finding a word that expresses that the object is not modified. Also, that it is cloned and the element passed as a parameter is added to the end of the cloned list. Standard names like add and clone are never going to cover it. Perhaps clone_and_append which is also rather ambiguous, since the append part might imply that the parameter is appended to the original list. So it should probably be something like clone_and_append_to_clone or better yet append_to_clone, although this one does not really imply that the clone is going to be returned by this method, but rather that the clone already exists as part of the origina list.

So thinking more along the lines of finding a name that does not imply a modification to the original list and also suggest that a new list is created, consider the following:

  1. Offshoot -- var list1 = list.Offshoot("tail") - in the strictest sense, offshoot refers here to the new element and not the entire new list. Another apparent disadvantage is that it is not an action, the more correct name being list.CreateOffshoot. However, I find it gives a clear indication of the fact that the new list will contain the original list and that the new element will come at the end of the list.
  2. Spawn -- var list1 = list.Spawn("tail") - similar to the previous. The advantage is that it is an action, but there is a weaker implication that the new list will contain the original list.
  3. BranchOff -- var list1 = list.BranchOff("tail") - an action that suggests the original list will be cloned. One potential ambiguity is that it is not very clear how the parameter element will be used.

copyWithSuffix: would be a custom method name in a similar vein to the Objective-C immutable string copy method stringByAppendingString:.

var suite = new TestSuite<string>();
suite = suite.CopyWithSuffix("Str1")

Suffix communicates the addition-ness of it and Copy makes the immutability clear. Feel free to replace Suffix with something more logical for the sort of test suite it actually is (maybe you're not suffix-ing these to one big internal string, you could be providing test case names/parameters for all I know).

  • I like this, especially in cases where there might also be a CopyWithPrefix method. – supercat Jun 9 '12 at 20:39

1) Question analysis
abstract of the question can be :
From an immutable ... get a new immutable but different from the original one ..
In this current question context :
From an immutable List get a new immutable list having a difference of a new element in addition in the end.

Can you give a effective "verb" ("method" in programming language) that express the action in a concise way without using the simple "Add" verb.

2) Proposal analysis
First concept : Immutable give a similar immutable ,
>>"copy" verb express conservation in "content" but less for it defined constraints (immutable)
>>"clone" verb express conservative in "content" but also for its defined constraints.
>>"twin" verb is similar to clone but not common in software , but it's short and sound good.

Second concept : the result give something different from the original
>>"add" express an action to make the difference between original and the new object but by definition we do not act (mutate) an immutable.
>>"plus" express the fact that verb result will be augmented without disturbing the original object ... "adverb" approach is more "immutable" friendly
>>"with" as before it express the fact that "verb" will do something more but may be ambigous of what it will doing more. Can also express the fact the "verb parameter" is the "more" of the "verb"

3) Answers
With verb "clone"
>> augmentClone
>> growClone
>> extendClone
with "with"
>> cloneWith
>> augmentCloneWith
>> growCloneWith
>> extendCloneWith

With verb "twin"
>> augmentTwin
>> growTwin
>> extendTwin
with "with"
>> twinWith
>> augmentTwinWith
>> growTwinWith
>> extendTwinWith


While naming the method correctly can decrease the chance of misuse, if there was some language construct that told the compiler: "This method does nothing but return a new object, it should be used or the method call is meaningless" and then the compiler could complain with an error/warning whenever someone uses the method in a wrong setup.

I've filled a feature request for this feel free to vote if you agree.


"Replace"? It doesn't add to the list, it replaces the list with a new one.

  • If I see foo.Replace(), I'm going to think that foo is getting replaced. – chaos Feb 6 '09 at 20:47
  • Yes, because it is. Whereas when I see foo.add(), I'm going to think that something is going to get added to foo, which it isn't in this case. – Paul Tomblin Feb 6 '09 at 20:53
  • Usually, replace() takes 2 arguments, something to replace, and something to replace it with. Not sure how clear it would be to see a replace method that does something different... – Outlaw Programmer Feb 6 '09 at 21:48

I would go for the simple Add(). An alternative would be Append(), if you want to convey that this is really a collection operation.

In addition to the explicit method, I'd still suggest implementing the obverloaded + operatr. It's a well known operation. Everybody knows String is immutable, yet everybody uses the '+' to build new instances of it.


How about "Augment"?

It's a different word from Add, but it's a close synonym.

  • It's still a verb which sounds like it's doing something do its target. – Jon Skeet Feb 6 '09 at 20:10

Since the type name is ImmutableList thus specifying that it is infact immutable, I think that .Add() is fine. However, If your really insistant on something else, I might go with something like .AddEx() where Ex means extended and implies that the user should determine what that Ex is (by reading docs) before using. I also like the suggestion of Plus() and GetCopyWith()


.Trail implies a very strong understanding of the list has not changed, this object is trailing behind the list, it has not been added to it.

var list = new ImmutableList<string>().Trail("Hello");


The fact it returns a new list is immaterial thats an implementation detail revealed by the signature. The main action that the method accomplishes is "adding" a new element to a list. How or what it deos or returns should not be part of the method name. If a method was synchronized would that affect the method name -"synchronizedAdd()" ??? - of course not.

Classes like String which follow the would-be-mutator pattern still have really simple method names - none are compounded words.

  • a) String confuses people; b) the signature doesn't reveal the non-mutation: see StringBuilder.Append. The point is that the method doesn't add a new element to this list; it creates a new list with the extra element. I don't believe that "Add" makes that clear. – Jon Skeet Feb 6 '09 at 21:22
  • I also dispute the idea that it's an "implementation detail". To me, an implementation detail is something one can largely ignore - here, if you ignore it and assume it works like a mutable list, you'll almost certainly get it wrong. – Jon Skeet Feb 6 '09 at 21:22
  • (I don't want to sound ungrateful just because I disagree, btw - thanks very much for the answer!) – Jon Skeet Feb 6 '09 at 21:27
  • The fact that it returns a new list is the entire point. If you mutate, then "b = a.Add(x);" may not even compile, and the correct code is just "a.Add(x);". If you don't mutate then "a.Add(x);" will still compile, but in fact is just a no-op. – Wedge Feb 7 '09 at 0:28
  • @Jon Developers need to have some level of competance and understand what happens for so called mutator methods on immutable classes. Given that we know String is immutable then it becomes obvious that any mutator methods return new Strings ... – mP. Feb 7 '09 at 6:36

I Like And(). I think it has the least potential for ambiguity. The only clash I can think of is with a logical And, I don't see that being a problem with a C# developer and even for VB I think the context makes it unlikely to cause a problem and any issue would be picked up quickly at compile time. It also works well in in English "Do something to These And That" or "Put These And That in the box".

I think .With() is OK. My concern is it may look a little like a linq Where<> method especially if there's a lambda as an argument. The English in my head is also less clear especially "Do something to These With That".

I don't like .Plus(). I can't get past it as a synonym for Add: plus = plus sign = + = add.


So I guess a method named "ImmutableAdd()" is entirely too simplistic?

  • So you suggest prefixing all other methods from the List which return a new list with "immutable" ? So we have immutableAdd(), immutableGet(), immutableIterator() etc ? – mP. Feb 7 '09 at 7:45
  • I'd argue that ImmutableAdd isn't simple enough - in that when you've got a bunch of calls to it, it clutters things up too much. I'd prefer a single word. Yes, I know I'm being very picky :) – Jon Skeet Feb 7 '09 at 8:15
  • just a suggestion :) – Alex Baranosky Feb 7 '09 at 21:00

How about "Stick" or "StickTo", it sticks an element on the end.

Or "Attach" or "AttachTo".


I would use a constructor.

Foo f1 = new Foo("one");
Foo f2 = new Foo(f1, "two");
Foo f3 = new Foo(f2, "three");

f1 contains "one". f2 contains "one", "two". f3 contains "one", "two", "three".

  • As I commented elsewhere, that sucks in terms of chaining calls together unfortunately :( I'll definitely include a constructor form which takes an IEnumerable<...> though. – Jon Skeet Feb 8 '09 at 20:18

I'm arriving a bit late here, how about NewWith?


I would call it ToInclude

var empty = new ImmutableList<string>();
var list1 = empty.ToInclude("Hello");
var list2 = list1.ToInclude("immutable");
var list3 = list2.ToInclude("word");

idiomatically (?)

var list = new ImmutableList<string>().ToInclude("Hello");

Works for the case you mentioned too.

var list = new ImmutableList<string>();list.ToInclude("foo");

var suite = new TestSuite<string, int>();suite.ToInclude(x => x.Length);

Very late to the game, but how about Freeze. There is precedence in WPF for using Freeze and IsFrozen to test if an object is mutable. Granted, this skews the meaning a little in that typically Freeze() is meant as a way to make the current object immutable, but if it has a parameter to it, you could see that you are getting something that is immutable.

var list = new ImmutableList<string>().Freeze("Hello")


  1. It is one word
  2. The connotation revolves around immutability.
  3. Precendence in WPF for "similar" syntax.
  • oh no.......... – nawfal May 9 '13 at 6:41

How about an Extension method? You could call it Join in this case. Being an extension method, users should know that it is a static method and might therefore give them a little pause and encourage them to look at the return value. At the same time, you have the usability of an "instance" method.

public static ImmutableList<T> Join(this ImmutableList<T> body, T tail)
    // add robust error checking in case either is null...
    return new ImmutableList<T>(body, tail);

and then later on...

var list = new ImmutableList<string>().Join("Hello")

I don't quite know the accepted behavior on posting multiple answers, but this is an interesting question since I think that nomenclature is a critical step in design and my brain keeps pondering on this one.

  • Multiple answers is fine by me :) I'm not sure that extension methods are sufficiently obviously extension methods to give the right impression though. – Jon Skeet Apr 16 '09 at 5:24
  • Just throwing some ideas out there that haven't been expressed. I still prefer Freeze (or some variation of that). Is Plus still your current choice? – Erich Mirabal Apr 16 '09 at 10:56

C#-ish pseudo code follows:

interface Foo
    // Constructors
    Foo(params Foo[] foos);

    // Instance method
    Foo Join(params Foo[] foos);

    // Class method
    static Foo Join(params Foo[] foos);

So you could call things like this:

var f0 = new Foo();
var f1 = new Foo(new Foo(), new Foo(), new Foo());
var f2 = Foo.Join(new Foo(), new Foo(), new Foo());
var f3 = f0.Join(new Foo(), new Foo(), new Foo());
var f4 = new Foo(new Foo(new Foo()), new Foo(), new Foo(new Foo()));


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