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I'm building an API that post a given message to different platforms (Twitter, FaceBook...).

The problem is that for each platform I may change the wrapper that allow me to post the message. For example, in C# I can post a message on twitter using the yedda API or the CsharpTwitt API, for FaceBook I'll use others APIs...

Hence, I have to be able to use different wrappers to post a message for each platform. alt text

For now, this is the design I use, but it's clear that it will be too complicated if I add more APIs with more wrappers.

I think it's a common design issue and I'm wondering

  1. Am I using the best approach to have a well designed API?
  2. Otherwise, what is the best design for such a situation?
  3. What design pattern is applicable here?
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thx Copas for the edit :) – iChaib Sep 2 '10 at 14:24

I like this approach because this way you can dependency inject whatever wrapper you wish and change it with a single line of code.

For example

Bind<Yedda>().To<ITwitter>();
Bind<FBWrapper>().To<IFacebook>();

And now throughout the code ITwitter actually maps to the Yedda wrapper.

Dependency injection could be something worthwhile to look at.

share|improve this answer
    
I think it's the thing i'm looking for, i'll deep dive into Dependecy Injection. I know that's something intesively used in frameworks so maybe it's the best solution for my API. – iChaib Sep 2 '10 at 0:36
    
"I like this" actually referred to your original design, which allows DI (dependency injection). I think it wasn't obvious from that sentence. Anyways, I really think this is a flexible choice. You can focus on designing the generic interfaces and don't need to worry about the actual wrappers. Just implement everything against IBrigde, ITwitter, IFacebook, IPlatformN. The last three inherit IBridge. Then, for example, inherit Yedda and CSharpTwitt (and whatever 'wrappers' you wan't) from ITwitter. – randomguy Sep 2 '10 at 8:54
    
Because you have coded everything against those generic interfaces, you can then DI the wrapper of your choice by "configuring" (process called binding in the DI world) to what wrappers the ITwitter, IFacebook and IPlatformN interfaces map to. That binding, like I wrote in the example, is a one-liner in the beginning of the program and you are good to go. Ninject and Moq would be two quite popular DI frameworks for C#. DI can be a bit hard to grasp (took me a while), but once you get it, it makes perfect sense.. Like in your scenario. – randomguy Sep 2 '10 at 8:59
    
Once again, using the design i suggested, i'm afraid that it'll be a mess handling all this wrapper for all this platforms. Don't you think that a decorator pattern could be suitable for this case? – iChaib Sep 2 '10 at 14:25
1  
Well, to make different things (APIs) share similarities, you have to have some common functionality wrapped into an interface. In bare minimum, if you have N wrappers and you want to abstract some common similarities, then you would need one interface and N implementations of that interface. This allows the flexibility to make some underlying manipulation with each of the APIs inside the implementation, if such is needed. – randomguy Sep 4 '10 at 22:25

you may use abstract factory if your create different message wrappers.

abstrcat class Abstractfactory{
       IBridge Create(int type);
}
class Platrofrm1facroty:Abstractfactory
{  
  //type m.b. for Wrapper1 to wrapperN 
  IBridge Create(int type);
}
class Twitterfacroty:Abstractfactory
{  
  //type m.b. for Yedda or CshartTwitt
  IBridge Create(int type);
}
share|improve this answer
    
ok for the factory, but i think the complexity i have to handle still remain. I mean I have 4 platforms with 4 wrapper each, i'll have to handle 16 factories, couldn't we avoid this complexity? – iChaib Sep 2 '10 at 0:38
    
@iChaib well I think you need only 4 concrete factories each per platform. to create a concrete wrapper you need to pass a flag to Create() method it may be a constant or enumerator or whatever. so the factory could handle this flag and create a concrete wrapper. the beauty of abstract factory is that you can create a set of ojbects with own traits. Say your Platform1_factory could creat 4 wrappers for this platform, Planform2_factory creates another 4 wrapper with Platform2 traits. – Arseny Sep 2 '10 at 7:16
    
yes indeed @arseny but the thing with the factory is that i've to write the code to handle each wrapper in the class, within a switch block for exemple, hence, if i want to add another wrapper later, i'll have to change the factory code, and recompile my app, which i don't want to do. Am I wrong? – iChaib Sep 2 '10 at 14:21
    
@iChaib it depends on how you gonna build up your code. One approach is to split code into assemblyes each for concrete factory. so that you need recompile only changed assembly. Moreover you may think to make it as add-in pattern to dynamically load needed factory at run-time. at this case you may support customer only with his concrete factory (assembly) and not to give him all of them. – Arseny Sep 2 '10 at 14:47
    
but is there a way to avoid recompilation ? – iChaib Sep 3 '10 at 16:23

I'm not familiar with C#, but I can offer you some python code in the hope that the ideas inside may be useful.

I'll start with the client code, to show how the API is used :

# Client code
myapi = MyAPI()
# then call different methods :
message = "Some status"
# send to all platforms
myapi.broadcast(message)
# or
myapi.send_facebook(message) # send to fb only
myapi.send_twitter(message) # send to twitter only
# or
myapi.send("facebook",message) # another way of doing the same thing

Now the implementation :

# actual APIs
import FacebookAPI1 
import FacebookAPI2
...
import TwitterAPI1
import TwitterAPI2
...
# your individual wrappers, one for each API you want to use
# they all expose a send method
class FacebookAPI1Wrapper:
    def send(self,message):
        #use FacebookAPI1 functions

class FacebookAPI2Wrapper:
    def send(self,message):
        #use FacebookAPI2 functions

class TwitterAPI1Wrapper:
    def send(self,message):
        #use TwitterAPI1 functions

class TwitterAPI2Wrapper:
    def send(self,message):
        #use TwitterAPI2 functions

# Your API, this is the only class the client code needs.
class MyAPI:
      def __init__(self):
            # you decide internally what wrappers to use
            self.fb_api = FacebookAPI1Wrapper()                
            self.twitter_api = TwitterAPI2Wrapper()
            # No need for an intermediate level here I guess (Twitter and Platform_1 in your examples)
            # like : self.fb_api = Facebook() where Facebook chooses what wrapper to use internally (FacebookAPIWrapper)
            # it would just add unnecessary level of inderection.
            ... # other plateforms
            # hash-table-like structure, keys are plateform names, values are objects
            # this attribute is useful for the exposed send method where the first argument is a string
            # representing the name of the plateform the client wants to send a message to 
            self.plateforms = {"facebook" : self.fb_api,
                               "twitter"  : self.twitter_api
                               ...        : ...
                               }

      def broadcast(self,message):
            for plateform in self.plateforms.values() : #.values() will return the objects stored in the hash-table
                  plateform.send_message(message)

      def send_facebook(self,message):
            self.fb_api.send(message)

      def send_twitter(self,message):
            self.twitter_api.send(message)

      #...

      def send(self,plateform_name,message):
            # a simple hash table lookup
            platform = self.platforms.get(plateform_name)
            plateform.send(message)

Changing your code internally (implementation code) won't break client code as long as you keep the same interface.

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