1

My experience is with OOP languages but I've started trying out Go. I'm having trouble working out the best way to implement the Observer design pattern in Go.

I've organised my project as follows where everything in the observers folder is part of package observers and everything in the subjects folder is part of package subjects. The attaching of observers to subjects is done in main.go.

my-project/
  main.go
  observers/
    observer.go
    observer_one.go
    observer_two.go
  subjects/
    subject.go
    subject_one.go

I've seen this section in the Go wiki about interfaces:

Go interfaces generally belong in the package that uses values of the interface type, not the package that implements those values. The implementing package should return concrete (usually pointer or struct) types: that way, new methods can be added to implementations without requiring extensive refactoring.

Keeping the comment from the Go Wiki in mind. I've implemented like this (left out function implementations):

subject.go:

type ObserverInterface interface {
    Update(subject *Subject, updateType string)
}

type Subject struct {
    observers map[string][]ObserverInterface
}

func (s *Subject) Attach(observer ObserverInterface, updateType string) {}

func (s *Subject) Detach(observer ObserverInterface, updateType string) {}

func (s *Subject) notify(updateType string) {}

observer.go:

type SubjectInterface interface {
   Attach(observer Observer, updateType string)
   Detach(observer Observer, updateType string)
   notify(updateType string)
}

type Observer struct {
    uuid uuid.UUID
}

observer_one.go

type ObserverOne struct {
    Observer
}

func (o *ObserverOne) Update(subject *SubjectInterface, updateType string) {}

main.go

subjectOne := &SubjectOne{}
observerOne := &ObserverOne{Observer{uuid: uuid.New()}}
subjectOne.Attach(observerOne, "update_type")

I expect to be able to use SubjectInterface for the argument to the Update() method in ObserverOne so that I can avoid having dependencies between my subject package and my observer package but I get the following compile-time error.

observers/observer_one.go:29:35: cannot use &observer (type *ObserverOne) as type subjects.ObserverInterface in argument to SubjectOne.Subject.Attach:
    *ObserverOne does not implement subjects.ObserverInterface (wrong type for Update method)
        have Update(*SubjectInterface, string)
        want Update(*subjects.Subject, string)

If I replace the definition of Update() in observer_one.go with the following it compiles fine but i thought the idea was to decouple the packages using interfaces:

func (o *ObserverOne) Update(subject *subjects.Subject, updateType string) {}
0
4

First, don't use pointers to interfaces.

func (o *ObserverOne) Update(subject *SubjectInterface, updateType string) {}

should be

func (o *ObserverOne) Update(subject SubjectInterface, updateType string) {}

Second, you've defined your interface to require a concrete type:

type ObserverInterface interface {
    Update(subject *Subject, updateType string)
}

Instead, make it accept an interface:

type ObserverInterface interface {
    Update(subject SubjectInterface, updateType string)
}
2
  • For your last point, currently SubjectInterface is defined in observer.go in my observers package, so there is a couple ways I could make Update in ObserverInterface accept the interface.1. define SubjectInterface in my subjects package as well as in my observers package, 2. use observers.SubjectInterface or 3. define it in the subjects package instead and use subjects.SubjectInterface as needed in my observers package. 1. doesn't seem right because the same thing is defined in two places and 1. and 3. seem to be going against the recommended way of doing things in Go.
    – thoward
    Jul 14 '19 at 20:31
  • 2
    @thoward: You should define your interfaces in a package independent from your observers and subjects.
    – Flimzy
    Jul 14 '19 at 20:37
-2

Flimzy solution still ties things together with explicit interfaces into the Observers vertical abstraction (ie: ObserverInterface).

a more generic version may look like this:

package main

import (
    "fmt"
)

func main() {

    obs := Observer{SubjectObserver{}}

    s := Subject{Observer: obs}
    s.Update()

}

type Subject struct {
    Observer
    UUID string
}

func (s *Subject) Update() {
    s.Observer.Notify(s)
}

type SubjectObserver struct{}

func (s SubjectObserver) Notify(v interface{}) {
    x, ok := v.(*Subject)
    if ok {
        fmt.Printf("do whatever with %#v\n", x)
    }
}

type Observer []ObserverOf

func (o Observer) Notify(s interface{}) {
    for _, ob := range o {
        ob.Notify(s)
    }
}

type ObserverOf interface {
    Notify(interface{})
}

That the PO embeds the observer is a detail.

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  • 2
    Where possible, using interface{} should be avoided.
    – colm.anseo
    Jul 14 '19 at 13:01
  • "Flimzy solution still ties things together with explicit interfaces" I don't understand why you think this is a problem.
    – Flimzy
    Jul 14 '19 at 13:37
  • 3
    I think you're the one confused. interface{} says nothing. Use it only when absolutely necessary.
    – Flimzy
    Jul 14 '19 at 14:03
  • 2
    "Using interface{} here simplifies a tons a things" -- No, here using interface{} complicates things a ton, for today, and for future. You know nothing about what to pass into that function by reading the function signature. You must look at the implementation. Completely non-ideal. And you get zero compile-time type safety, which is the main reason to use a statically typed language in the first place.
    – Flimzy
    Jul 14 '19 at 14:39
  • 2
    "I can t remember a function signature that completely reflected its side effects solely via its parameters definition." First, functions should strive not to have side effects. Second, you're not trying very hard then. Here are some examples: Open(path string) (*os.File, error). Read(p []byte) (count int, err error), Copy(dst Writer, src Reader) (written int64, err error).
    – Flimzy
    Jul 14 '19 at 15:41

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