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There's been a lot of criticism about Golang recently because it doesn't have support for generics. What exactly does that mean? How would you explain that to someone coming from a dynamically typed language like Ruby where this isn't a familiar concept?

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Java generics: stackoverflow.com/questions/19848961/generics-definition c# generics: stackoverflow.com/questions/4560890/what-is-generics-in-c should give you the idea –  geedubb Jan 17 '14 at 21:28
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The quick answer to the question in the title is "Nonexistent." –  Keith Thompson Jan 17 '14 at 22:52
    
Note that a generics 'library' has been recently created for go ... gen ... it is really more of a code generator. From the docs - gen generates code for your types, at development time, using the command line. gen is not an import; the generated source becomes part of your project and takes no external dependencies. –  dodgy_coder Jan 21 '14 at 5:02

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up vote 5 down vote accepted

In a dynamically typed language, you don't care what type of list it is, just that it's a list. However, in a statically typed language, you do care what type of list it is because the type is "a list of A" where "A" is some type. That is, a list A is a different type from list B.

So when you speak of generics, calling some function of type A -> B each item of a list with a foreach means that the list must be a list A. But... if you use generics, then you don't have to declare what A is, you can just have it be filled in at a later date. Thus, you establish the contract whereby given a list C and a function A -> B, A === C in order for it to compile. This reduces boilerplate considerably.

In Go, given the lack of generics and the ability to declare such a type contract, you have to write a function that operates on a list of int, a list of double, a list of string, etc. You can't just define things in a "generic" manner.

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Not exactly true as another common approach, where possible, is to write a generic (in a colloquial sense) implementation operating on instances of the interface{} type (which matches any type at all) and then use the so-called type assertion to "acquire" type-safe objects back from the container/function. –  kostix Jan 18 '14 at 12:01
    
It's more coarse-grained approach than true generics but in exchange it allows to not bring into the language all the complexities and subtleties required to sensibly support generics; and it's this trade-off which is being discussed most. –  kostix Jan 18 '14 at 12:03
    
@kostix Of course you can do that. The problem isn't with not getting objects of the right type out, but with not getting objects of the right type in though. Note that a type assertion also has some runtime overhead. I'd personally say go doesn't really need generics, but I'd also say if it ever does we might as well go the extra mile and make it templates instead of java-esque generics. –  Cubic Jan 18 '14 at 13:07
    
It's probably worth pointing out that Go does have generics, for a few built in types: arrays, slices, maps, and channels. It just isn't possible to add generics to your own custom types. –  MatrixFrog Jan 20 '14 at 5:58

William B. Yager blog post reminds why the "generic" part present in Go is not enough:

You can write generic functions easily enough.
Let's say you wanted to write a function that printed a hash code for objects that could be hashed. You can define an interface that allows you to do this with static type safety guarantees, like this:

type Hashable interface {
  Hash() []byte
}

func printHash(item Hashable) {
   fmt.Println(item.Hash())
}

Now, you can supply any Hashable object to printHash, and you also get static type checking. This is good.

What if you wanted to write a generic data structure?
Let's write a simple Linked List. The idiomatic way to write a generic data structure in Go is:

(here is just the start)

type LinkedList struct {
   value interface{}
   next *LinkedList
}

func (oldNode *LinkedList) prepend(value interface{}) *LinkedList {
   return &LinkedList{value, oldNode}
}

The "correct" way to build generic data structures in Go is to cast things to the top type and then put them in the data structure. This is how Java used to work, circa 2004. Then people realized that this completely defeated the purpose of type systems.

When you have data structures like this, you completely eliminate any of the benefits that a type system provides. For example, this is perfectly valid code:

node := tail(5).prepend("Hello").prepend([]byte{1,2,3,4}) 

So that is why, if you want to retain the benefit of type system, you have to use some code generation, to generate the boileplate code for your specific type.

The gen project is an example of that approach:

gen generates code for your types, at development time, using the command line.
gen is not an import; the generated source becomes part of your project and takes no external dependencies.

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