What is your opinion of this design decision? What advantages does it have and what disadvantages?



In a comment, you wondered if the embedding idea was enough to "replace inheritance completely". I would say the answer to that question is "yes". A few years ago I played very briefly with a Tcl OO system called Snit, which used composition and delegation to the exclusion of inheritance. Snit is still vastly different from Go's approach, but in that one respect they have some common philosophical ground. It's a mechanism for joining together pieces of functionality and responsibility, not a hierarchy for the classes.

As others have stated, it's really about what kind of programming practices the language designers want to support. All such choices come with their own pros and cons; I don't think "best practices" is a phrase that necessarily applies here. We will probably see someone develop an inheritance layer for Go eventually.

(For any readers familiar with Tcl, I felt Snit to be a slightly closer match to the "feel" of the language than [incr Tcl] was. Tcl is all about the delegation, at least to my way of thinking.)


The Gang of 4's crucial principle is "prefer composition to inheritance"; Go makes you follow it;-).

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    Inheritance is overused, and I appreciate how Go simplifies the composition, but the question I'd really like to know is if embedding can replace inheritance completely. I guess this is a difficult question to answer without actually going and writing some code – Casebash Nov 13 '09 at 5:32
  • Well, you don't (directly) get some key inheritance-hinged design patterns, such as Template Method, but that wouldn't seem to be a killer -- in the very worst case, it would appear to entail the loss of some convenience (requiring slightly more explicit coding). – Alex Martelli Nov 22 '09 at 19:08
  • @Casebash: People have been able to get going with JS prototype which we can say is sort of a composition only. – Amogh Talpallikar Sep 17 '13 at 5:51
  • Just because they don't call it inheritence doesn't mean that it isn't. In fact, Go's embedding is functionally identical to multiple inheritance. Composition is the use of multiple objects working together, each with their own problem domain. – Anthony Michael Cook Oct 19 '15 at 2:30
  • 1
    @Anthony: No, when you embed a type, and call a method in an embedded object, the receiver of the method call is the embedded object, not the full object. This means that method override doesn't work without a bit of effort (e.g. initializing the embedded object with a wrapper of yourself). – Bjarke Ebert Oct 20 '15 at 13:10

The only real uses for inheritance are:

  • Polymorphism

    • Go's interface's "static duck typing" system solves this problem
  • Borrowing implementation from another class

    • This is what embedding is for

Go's approach doesn't exactly map 1-to-1, consider this classical example of inheritance and polymorphism in Java (based on this):

//roughly in Java (omitting lots of irrelevant details)
//WARNING: don't use at all, not even as a test

abstract class BankAccount
    int balance; //in cents
    void Deposit(int money)
        balance += money;

    void withdraw(int money)
        if(money > maxAllowedWithdrawl())
            throw new NotEnoughMoneyException();
        balance -= money;

    abstract int maxAllowedWithdrawl();

class Account extends BankAccount
    int maxAllowedWithdrawl()
        return balance;

class OverdraftAccount extends BankAccount
    int overdraft; //amount of negative money allowed

    int maxAllowedWithdrawl()
        return balance + overdraft;

Here, inheritance and polymorphism are combined, and you can't translate this to Go without changing the underlying structure.

I haven't delved deeply into Go, but I suppose it would look something like this:

//roughly Go? .... no?
//for illustrative purposes only; not likely to compile
//WARNING: This is totally wrong; it's programming Java in Go

type Account interface {
    MaxWithdraw() int

func Deposit(account Account, amount int) {

func Withdraw(account Account, amount int) error {
    if account.MaxWithdraw() < amount {
        return errors.New("Overdraft!")
    return nil

type BankAccount {
    balance int

func (account *BankAccount) AddToBalance(amount int) {
    account.balance += amount;

type RegularAccount {

func (account *RegularAccount) MaxWithdraw() int {
    return account.balance //assuming it's allowed

type OverdraftAccount {
    overdraft int

func (account *OverdraftAccount) MaxWithdraw() int {
    return account.balance + account.overdraft

As per the note, this is totally a wrong way to code since one is doing Java in Go. If one was to write such a thing in Go, it would probably be organized a lot different than this.

  • You mentioned that this would not compile but a few points to help others who read this: Types need a type literal in Go. Use type RegularAccount struct{} rather than type RegularAccount{} You can't put func prototypes in the type definition. Use the receiver syntax outside the type: func (this *receiverType) funcName(parms) returnType You must provide return types for funcs that return a value, e.g. func (account *RegularAccount) maxWithdraw() int{} Finally, it's required in Go that you end the "func" line with the opening brace, rather than placing it on its own line. – burfl Mar 5 '13 at 14:14
  • I attempted writing this as an exercise - very early days for me in Go... I got it to almost work, and would really appreciate it if someone more experience could chime in and correct/complete it? gist.github.com/mindplay-dk/807179beda57e676b8fb – mindplay.dk Dec 3 '13 at 4:37

Embedding provides automatic delegation. This in itself isn't enough to replace inheritance, as embedding provides no form of polymorphism. Go interfaces do provide polymorphism, they are a bit different than the interfaces you may be use to (some people liken them to duck typing or structural typing).

In other languages, inheritance hierarchies need to be carefully designed because changes are wide sweeping and therefore hard to do. Go avoids these pitfalls while providing a powerful alternative.

Here's an article that delves into OOP with Go a little more: http://nathany.com/good


I am just now learning about Go, but since you are asking for an opinion, I'll offer one based on what I know so far. Embedding appears to be typical of many other things in Go, which is explicit language support for best practices that are already being done in existing languages. For example, as Alex Martelli noted, the Gang of 4 says "prefer composition to inheritance". Go not only removes inheritance, but makes composition easier and more powerful than in C++/Java/C#.

I've been puzzled by comments like "Go provides nothing new that I can't already do in language X," and "why do we need another language?" It appears to me that in one sense, Go doesn't provide anything new that couldn't be done before with some work, but in another sense, what is new is that Go will facilitate and encourage the use of the best techniques that are already in practice using other languages.

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    In some ways, what is new in Go is what has been taken away - that is a key reason for a new language. If they were only adding features, it could have been C+++ ;) but to take away features (inheritance, pointer arithmetic, manual memory allocation) requires a new language. – Hamish Downer Nov 20 '09 at 17:47

Folks have requested links to information about embedding in Go.

Here's an "Effective Go" document where embedding is discussed and where concrete examples are provided.


The example makes more sense when you already have a good grasp of Go interfaces and types, but you can fake it by thinking of an interface as a name for a set of methods and if you think of a struct as similar to a C struct.

For more information on structs, you can see the Go language spec, which explicitly mentions nameless members of structs as embedded types:


So far I've only used it as a convenient way to put one struct in another without having to use a field name for the internal struct, when a field name wouldn't add any value to the source code. In the programming exercise below, I'm bundling a proposal type inside a type that has a proposal and a response channel.



I like it.

The language you use affects your thought patterns. (Just ask a C programmer to implement "word count". They will probably use a linked list, then switch to a binary tree for performance. But every Java/Ruby/Python programmer will use a Dictionary/Hash. The language has affected their brains so much that they can't think of using any other data structure.)

With inheritance, you have to build down -- start with the abstract thing, then subclass it to the specifics. Your actual useful code will be buried in a class N levels deep. This makes it hard to use a "part" of an object, because you can't re-use code without dragging in parent classes.

In Go, you can 'model' your classes this way (with interfaces). But you don't (can't) code this way.

Instead, you can use embedding. Your code can be broken up into small, isolated modules, each with their own data. This makes re-use trivial. This modularity has little to do with your "big" objects. (i.e. In Go, you can write a "quack()" method that doesn't even know about your Duck class. But in a typical OOP language, you can't declare "my Duck.quack() implementation has no dependencies on any other methods of Duck.")

In Go, this constantly forces the programmer to think about modularity. This leads to programs that have low coupling. Low coupling makes maintenance much easier. ("oh, look, Duck.quack() is really long and complex, but at least I know that it doesn't depend on the rest of Duck.")

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