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I am a long time python developer. I was trying out go, converting an existing python app to go. It is modular and works really well for me.

Upon creating the same structure in go, I seem to land in cyclic import errors, a lot more than I want to. Never had any import problems in python. I never even had to use import aliases. So I may have had some cyclic imports which were not evident in python. I actually find that strange.

Anyways, I am lost, trying to fix these in go. I have read that interfaces can be used to avoid cyclic dependencies. But I don't understand how. I didn't find any examples on this either. Can somebody help me on this?


The current python application structure is as follows:

  • main.py
  • settings
    • routes.py -> contains main routes depends on app1/routes.py, app2/routes.py etc
    • database.py -> function like connect() which opens db session
    • constants.py -> general constants
  • apps

    • app1

      • views.py -> url handler functions
      • models.py -> app specific database functions depends on settings/database.py
      • routes.py -> app specific routes
      • ...
    • app2

      • views.py -> url handler functions
      • models.py -> app specific database functions depends on settings/database.py
      • routes.py -> app specific routes
      • ...

settings/database.py has generic functions like connect() which opens a db session. So an app in the apps package calls database.connect() and a db session is opened.

The same is the case with settings/routes.py it has functions that allow apps to add their sub-routes to the main route object.

The settings package is more about functions than data/constants. This contains code that is used by apps in the apps package, that would otherwise have to be duplicated in all the apps. So if I need to change the router class, for instance, I just have to change settings/router.py and the apps will continue to work with no modifications.

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Must show code, best some trimmed down version which shows the issue. Maybe you are just partitioning your code into too many small packages? –  Volker Dec 4 '13 at 17:22
If package X accepts/stores/calls methods on/returns types defined package Y, but doesn't actually access Y's (non-method) functions or variables directly, X can use an interface that the type in Y satisfies rather than actually importing Y. That's how interfaces can help reduce dependencies (cyclic and otherwise) in a nutshell. –  twotwotwo Dec 4 '13 at 20:44
In Python, if X and Y import each other, all that happens is one of the modules loads while the other module is still empty or half-parsed--and since Python name lookups in functions, etc. only occur when the function is called, an empty module during parsing due to a circular import often isn't a problem. Agree with that Volker we need code to help more--you might need to combine things, split things, no way we can tell. –  twotwotwo Dec 4 '13 at 20:48
In python, I never got a cyclic dependency because different modules in a package have different scope and they can be imported separately. In golang, all the files in a package has the package scope. In Python, I had a package called settings which had routes.py, database.py and so on. Routes.py depended on app in 'apps' package and the app depended on database.py for db settings. I suppose this is not possible in go. –  Nithin Dec 4 '13 at 21:10
Can somebody point me to an example where interfaces are used to avoid cyclic dependencies. Most of the go examples (code segments) strangely, doesn't have import statements. –  Nithin Dec 4 '13 at 21:15

1 Answer 1

up vote 10 down vote accepted

Here, I'd rearrange things so the router doesn't need to include the routes: instead, each app package calls a router.Register() method. This is what the Gorilla web toolkit's mux package does. Your routes, database, and constants packages sound like low-level pieces that should be imported by your app code and not import it.

Generally, try to build your app in layers. Your higher-layer, use-case-specific app code should import lower-layer, more fundamental tools, and never the other way around. Here are some more thoughts:

  • Packages are for separating independently usable bits of functionality; you don't need to split one off whenever a source file gets large. Unlike in, say, Python or Java, in Go one can split and combine and rearrange files completely independent of the package structure, so you can break up huge files without breaking up packages.

    The standard library's net/http is about 7k lines (counting comments/blanks but not tests). Internally, it's split into many smaller files and classes. But it's one package, I think 'cause there was no reason users would want, say, just cookie handling on its own. On the other hand, net and net/url are separate because they have uses outside HTTP.

    It's great if you can push "down" utilities into libraries that are independent and feel like their own polished products. Likewise it's great if if you can pull "up" interface code that sits on top of your app logic, or otherwise make nicely distinct subsystems. But you're free to split or not split as is logical for you.

  • Use Register or other runtime config methods to keep your general tools (like URL routing or DB access code) from needing to import your app code. Instead of your router looking at app1.Routes, app2.Routes, etc., you have your apps packages import router and register with it in their func init()s.

    Or, if you'd rather register routes from one package, you could make a myapp/routes package that imports router and all your views and calls router.Register. Point is, the router itself is all-purpose code that needn't import your application's views.

    Some ways to put together config APIs:

    • Pass app behavior via interfaces or funcs: http can be passed custom implementations of Handler (of course) but also CookieJar or File. text/template and html/template can accept functions to be accessible from templates (in a FuncMap).

    • Export shortcut functions from your package if appropriate: In http, callers can either make and separately configure some http.Server objects, or call http.ListenAndServe(...) that uses a global Server. That gives you a nice design--everything's in an object and callers can create multiple Servers in a process and such--but it also offers a lazy way to configure in the simple single-server case.

    • If you have to, just duct-tape it: You don't have to limit yourself to super-elegant config systems if you can't fit one to your app: should your app have package "myapp/conf" with a global var Conf map[string]interface{}, I won't judge. My one warning would be that this ties ties the conf-importing package to your app: if it might otherwise be reusable elsewhere, look for a better way.

Those two are maybe the key principles, but a couple of specific cases/tactical thoughts:

  • Separate fundamental tasks from app-dependent ones. One app I work on in another language has a "utils" module mixing general tasks (e.g., formatting datetimes or working with HTML) with app-specific stuff (that depends on the user schema, etc.). But the users package imports the utils, creating a cycle. If I were porting to Go, I'd move the user-dependent utils "up" out of the utils module, maybe to live with the user code or even above it.

  • Consider breaking up grab-bag packages. Slightly enlarging on the last point: if two pieces of functionality are independent (that is, things still work if you move some code to another package) and unrelated from the user's perspective, they're candidates to be separated into two packages. Sometimes the bundling is harmless, but other times it leads to extra dependencies, or a less generic package name would just make clearer code. If you wind up with lots of packages this way, consider having goimports help manage them.

  • Replace import-requiring object types in APIs with basic types and interfaces. Say two entities in your app have a many-to-many relationship like Users and Groups. If they live in different packages (a big 'if'), you can't have both u.Groups() returning a []group.Group and g.Users() returning []user.User because that requires the packages to import each other.

    However, you could change one or both of those return, say, a []uint of IDs or a sql.Rows or some other interface you can get to without importing a specific object type. Depending on your use case, types like User and Group might be so intimately related that it's better just to put them in one package, but if you decide they should be distinct, this is a way.

Thanks for the detailed question and followup.

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Thank you for the detailed answer. I did not really understand the 1st paragraph. Do u mean that the settings/router.py should be imported by apps just like settings/database.py? In fact, I was using gorilla/mux for the conversion. The problem is, even for mux, sub routes has to be added to the mux object (just like in python) returned by mux.newRouter(). I dont know how to move that to a register model. Any examples on that? –  Nithin Dec 5 '13 at 11:59
what you mean by "Generally, routes, database, and constants sound like low-level pieces that should be imported by your app code and not import it." –  Nithin Dec 5 '13 at 12:01
Your router package could have a global var Router = mux.NewRouter(), and individual apps could import "router" and call router.Router.HandleFunc(...). –  twotwotwo Dec 5 '13 at 20:11
Re the low-level pieces, I mean it sounds settings provides basic utilities (e.g., DB access) that all of your apps will build on. In that case settings should be imported by app1, app2, etc., but it should never have to import them. (You might also want to rename settings to something like utils or even break its pieces into individual packages, but those are separate ideas.) –  twotwotwo Dec 5 '13 at 20:17
thank you for the great clarification. :) –  Nithin Dec 5 '13 at 22:07

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