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I'm trying to work with interfaces in Go but I can't seem to be able to pass a slice of structs implementing a certain interface to a function that expects a slice of the interface. It works with functions that just takes a single object but not with functions expecting slices of the interface. Using the code below I get the following error:

./main.go:27: cannot use fooBar (type []*FooBar) as type []Foo in argument to FooBarBar

Here is the code:

package main

import "fmt"

type Foo interface {
    Bar() bool
}

type FooBar struct {
    a bool
}

func (f *FooBar) Bar() bool {
    return f.a
}

func FooBarBar(foos []Foo) {
    for _, foo := range foos {
        fmt.Println(foo.Bar())
    }
}

func main() {
    fooBar := make([]*FooBar, 2)
    fooBar[0] = &FooBar{true}
    fooBar[1] = &FooBar{false}
    FooBarBar(fooBar)
}
  • 5
  • Thanks! This is a good solution. Too bad it's necessary though... – hsson Dec 5 '16 at 17:10
  • It's helpful if you don't think of Go interfaces as type classes, but rather as pairs of (type,struct) where the "type" has a set of dynamic "virtual" pointers to the struct's implementation functions (if that makes sense!). The assignment operator '=' automatically creates these representations as necessary. But it doesn't support slices - that is - it won't go through and represent that pair for each slice element. (The actual implementation is somewhat similar, but not exactly what I'm describing, currently...) – BadZen Dec 5 '16 at 17:12
  • Great explanation @BadZen! Given this.. Is there a good way to make a function like FooBarBar work regardless of whether the objects passed are of type *FooBar or Foobar (since there is no way for the function to know if the interface was implemented like "func (f *FooBar)..." or "func (f FooBar)...". I hope you understand my question. – hsson Dec 5 '16 at 17:18
  • Or more simply, the memory layout is different. []*FooBar is a slice of pointer values, and []Foo is a slice of 2-word interface values. One is not assignable directly to the other. – JimB Dec 5 '16 at 17:18
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Can i try this way:

func main() {
    fooBar := []Foo{&FooBar{true}, &FooBar{false}}
    FooBarBar(fooBar)
}

GoPlayGround:

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There is no "sub typing" in Go.

[]Foo and []*Foobar are 2 different types, so all you can do is use a for loop to convert []*Foobar into []Foo

foos := []Foo{}

for _,f:=range foobar {
    foos = append(foos,f)
}

FooBarBar(foos)

Or you can put your *Foobar directly in a slice of Foo :

foos := []Foo{&FooBar{true},&FooBar{false}}
FooBarBar(foos)

There are a few exceptions like the relationship between named types and unnamed types

type FooBar struct{}

type Foobars []*FooBar // Foobars is an named type, []*FooBar is an unnamed type

AcceptFoobars := func(f []*FooBar) {} // Accepts Foobars too

foobars := Foobars{{}, {}, {}}
AcceptFoobars(foobars)

Go type system is "flat", there is no inheritance or casting, only assertions and conversions. as defined by the Go spec.

https://golang.org/ref/spec#Types

A type determines the set of values and operations specific to values of that type. Types may be named or unnamed. Named types are specified by a (possibly qualified) type name; unnamed types are specified using a type literal, which composes a new type from existing types.

  • What is it called if you do define a type such as type FooSlice []Foo, if not "subtyping" then? (This is an actual and not rhetorical question - I've always called this a "subtype" but if there is an official/better word for it...) – BadZen Dec 6 '16 at 19:30
  • (Also it's worth mentioning embedding in a thread where you say "no inheritence" - it along with some language syntactic sugar provides something roughly similar to a sort of type inheritance. See golang.org/doc/effective_go.html#embedding) – BadZen Dec 6 '16 at 19:34

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