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Disclaimer: I'm a Go noob, hacking away while learning. Any advice is appreciated, but only if accompanied with code examples :-)

I have an interface Model, which is implemented by struct Person.

To get a model instance, I have the following helper functions:

func newModel(c string) Model {
    switch c {
    case "person":
        return newPerson()
    }
    return nil
}

func newPerson() *Person {
    return &Person{}
}

The above approach allows me to return a properly typed Person instance (can easily add new models later with same approach).

When I attempted to do something similar for returning a slice of models, I get an error. Code:

func newModels(c string) []Model {
    switch c {
    case "person":
        return newPersons()
    }
    return nil
}

func newPersons() *[]Person {
    var models []Person
    return &models
}

Go complains with: cannot use newPersons() (type []Person) as type []Model in return argument

My goal is to return a slice of whatever model type is requested (whether []Person, []FutureModel, []Terminator2000, w/e). What am I missing, and how can I properly implement such a solution?

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1  
A slice is different from an array in Go. Since you were really talking about slices, I edited your post to reflect this. –  Stephen Weinberg Oct 21 '12 at 4:15
    
Stephen, thanks, appreciated :-) –  Jon L. Oct 21 '12 at 4:23
    
@JonL. Did you ever figure this out? I'm trying to do the same thing so that I don't have to repeat a ton of code for my /api/{collection}. I have it working for everything except for an index function that needs to read into a slice. –  Derek Perkins Jul 25 at 3:44
    
@DerekPerkins, I don't recall what I ended up doing here, and I haven't played w/ Go in awhile. Sorry I can't be of more assistance. –  Jon L. Jul 30 at 13:27

4 Answers 4

up vote 20 down vote accepted

This is very similar to a question I just answered: http://stackoverflow.com/a/12990540/727643

The short answer is that you are correct. A slice of structs is not equal to a slice of an interface the struct implements.

A []Person and a []Model have different memory layouts. This is because the types they are slices of have different memory layouts. A Model is an interface value which means that in memory it is two words in size. One word for the type information, the other for the data. A Person is a struct whose size depends on the fields it contains. In order to convert from a []Person to a []Model, you will need to loop over the array and do a type conversion for each element.

Since this conversion is an O(n) operation and would result in a new slice being created, Go refuses to do it implicitly. You can do it explicitly with the following code.

models := make([]Model, len(persons))
for i, v := range persons {
    models[i] = Model(v)
}
return models

And as dskinner pointed out, you most likely want a slice of pointers and not a pointer to a slice. A pointer to a slice is not normally needed.

*[]Person        // pointer to slice
[]*Person        // slice of pointers
share|improve this answer
    
Didn't realize at the time, but my answer doesn't directly address the issue raised. This answer addresses it. –  dskinner Oct 21 '12 at 4:12
    
Very nice answer, especially with the explanation about the number of words of memory for each type –  I82Much Oct 21 '12 at 17:16

Maybe this is an issue with your return type *[]Person, where it should actually be []*Person so to reference that each index of the slice is a reference to a Person, and where a slice [] is in itself a reference to an array.

Check out the following example:

package main

import (
    "fmt"
)

type Model interface {
    Name() string
}

type Person struct {}

func (p *Person) Name() string {
    return "Me"
}

func NewPersons() (models []*Person) {
    return models
}

func main() {
    var p Model
    p = new(Person)
    fmt.Println(p.Name())

    arr := NewPersons()
    arr = append(arr, new(Person))
    fmt.Println(arr[0].Name())
}
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Thanks for the response. While (as you noted) it doesn't directly address the issue at hand, it's an appreciated example nonetheless :-) –  Jon L. Oct 21 '12 at 4:27

As Stephen already answered the question and you're a beginner I emphasize on giving advises.

A better way of working with go's interfaces is not to have a constructor returning the interface as you might be used to from other languages, like java, but to have a constructor for each object independently, as they implement the interface implicitly.

Instead of

newModel(type string) Model { ... }

you should do

newPerson() *Person { ... }
newPolitician() *Politician { ... }

with Person and Politician both implementing the methods of Model. You can still use Person or Politician everywhere where a Model is accepted, but you can also implement other interfaces.

With your method you would be limited to Model until you do a manual conversion to another interface type.

Suppose I have a Person which implements the method Walk() and a Model implements ShowOff(), the following would not work straight forward:

newModel("person").ShowOff()
newModel("person").Walk() // Does not compile, Model has no method Walk

However this would:

newPerson().ShowOff()
newPerson().Walk()
share|improve this answer
    
You're correct :-( My approach is my attempt to generically provide access to models via a ReST API. So a request to /api/{collection} would dynamically interact w/ the requested collection. Can you suggest an alternative solution without explicitly testing the requested collection across multiple functions? I guess what I'm looking for is a way to specify a generic return type without losing knowledge of it's type. –  Jon L. Oct 21 '12 at 4:45
2  
Knowledge of the type is always preserved, even if you return interface{}, the problem is that you're then need to do runtime type assertions instead of compiler type checking. A generic solution for name -> object without runtime assertions is only possible using generics, which go does not support. So if you do this, you have to live with reflection or the drawbacks of your solution. –  nemo Oct 21 '12 at 14:13

Types T and []T are distinct types and distinct are their methods as well, even when satisfying the same interface. IOW, every type satisfying Model must implement all of the Model's methods by itself - the method receiver can be only one specific type.

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