The standard library solves this problem in multiple ways:
1) Without a "Central" Registry
Example of this is the different hash algorithms. The
crypto package just defines the
Hash interface (the type and its methods). Concrete implementations are in different packages (actually subfolders but doesn't need to be) for example
When you need a "hasher", you explicitly state which one you want and instantiate that one, e.g.
h1 := md5.New()
h2 := sha256.New()
This is the simplest solution and it also gives you good separation: the
hash package does not have to know or worry about implementations.
This is the preferred solution if you know or you can decide which implementation you want prior.
2) With a "Central" Registry
This is basically your proposed solution. Implementations have to register themselves in some way (usually in a package
An example of this is the
image package. The package defines the
Image interface and several of its implementations. Different image formats are defined in different packages such as
image package has a
Decode() function which decodes and returns an
Image from the specified
io.Reader. Often it is unknown what type of image comes from the reader and so you can't use the decoder algorithm of a specific image format.
In this case if we want the image decoding mechanism to be extensible, a registration is unavoidable. The cleanest to do this is in package
init() functions which is triggered by specifying the blank identifier for the package name when importing.
Note that this solution also gives you the possibility to use a specific implementation to decode an image, the concrete implementations also provide the
Decode() function, for example
So the best way?
Depends on what your requirements are. If you know or you can decide which implementation you need, go with #1. If you can't decide or you don't know and you need extensibility, go with #2.
...Or go with #3 presented below.
3) Proposing a 3rd Solution: "Custom" Registry
You can still have the convenience of the "central" registry with interface and implementations separated with the expense of "auto-extensibility".
The idea is that you have the interface in package
pi. You have implementations in package
And you create a package
pf which will have the "factory" methods you want, e.g.
pf package can refer to packages
pi without creating a circular dependency.