Tag: Development

Design Patterns, Development, Object Oriented Programming, SDLC, Software Architecture

Program to an interface , not an implementation

I have been lately discussing SOLID in my previous posts – some of the basic principles of OOD . Recently while doing my project work , we had to decide between Entity Framework  or NHibernate which are popular ORM layers in .Net framework .  The decision was not easy , we got stuck at Second Level caching support …and could not reach any decision right away. I started thinking that may be for now we have to write our layer in such a way that we choose one ORM , and then we can switch to a different one worst case if need be. Ideally a situation like this should not arise , but if it does happen , you need to be able to do it.  Once again I felt how a very fundamental OOD principle could come in handy –

Program to an interface , not an implementation.

These words above can be very ambiguous and abstract when you just read them .

However when seen from a context , you understand how powerful this is , and how it can increase flexibility and ability to switch . Seen from my own situation where we needed the flexibility to switch data access mechanism if need be, let’s understand this by constructing a scenario. For example , a common problem could be implementing a subscription mechanism for a data service that your system may provide. Users can subscribe to the data service and get notified when a change occurs. We need to persist the subscription information to the database , where you will need to use some database access mechanism.

As usual there is a presentation layer that gathers some subscription information and passes it along to the data service which persists the information to the database . For simplicity’s sake , let’s say we have a SubscriptionService , which is our data service for persisting subscriptions . We can discuss this further in the context of an ASP.Net MVC application – where a View is our Presentation layer through which Subscription details are collected. A controller action method is typically invoked to pass along the information to the server.

We can assume for our article purposes that our application provides notifications on Food Recalls. So the member user to our website subscribes to recalls for a certain type of food issued by different organizations like FDA etc. The Subscription in simplicity could be :

Please note : all code is pseudo only , this is not a working solution that can be downloaded and built.

public class RecallsSubscriptionService
{
    Boolean Subscribe( int userId, string food_type, string organization)
    {
           // data access code to insert subscriptions
           return false; 
    }         
}

Most of the times the controller action method would look something like this:

public class SubscriptionController : Controller
{
        [HttpPost]
        public ActionResult Subscribe(int userId, string food_type, string organization)
        {
            try
            {
                 SubscriptionService myservice = new SubscriptionService();
                 myservice.Subscribe(userId, food_type, organization);

                return RedirectToAction("Index");
            }
            catch
            {
                return View();
            }
        }
}

So , we make a decision we will use Entity Framework 6 to implement our data access to store subscription information. The above code will work fine . The code goes into production . However later we decide that due to certain project requirements we have to switch to NHibernate. This is a tough situation – our controller here , who is a client of the SubscriptionService , is heavily dependent on instantiating this specific service which accesses the database with Entity Framework 6. Although we expected the problem could arise we didn’t design our system for this flexibility. Even though we encapsulated the data access code into a Service , we did not free the client from the implementation of data access because the client program is indirectly tied to EF implementation.

We need to make some changes , so our controller is independent of the future changes that could happen to the database access mechanism. To bring transparency into how data access may happen from a client’s perspective we need to introduce interfaces. We write an interface instead for the SubscriptionService :

interface IRecallsSubscriptionService
{
   Boolean Subcribe(int userId, string food_type, string organization);       
}

We could write two implementations of the above interface or we could just use the same implementation we had earlier , and replace it with NHibernate.

public class RecallsSubscriptionServiceEF
{
       Boolean Subscribe(int userId, string food_type, string organization) 
       { 
                //   implement using EF ;
                return false;
       }         
}

public class RecallsSubscriptionServiceNH
{
       Boolean Subscribe(int userId, string food_type, string organization) 
       {
              //implement using NH ;
              return false;
       }         
}
/*( not that the above approach is recommended , where you keep 
two implementations available for the same requirement. 
This is for understanding purposes only )*/

The above mechanism allows us to drive the Subscribe method call through the IRecallsSubscriptionService interface. In order to effectively use the method above , we will need to pass IRecallsSubscriptionService as a parameter to the controller constructor and use dependency injection in this scenario to have the right concrete class to be instantiated during run-time. I will not dive deeper into that because it is outside of the scope of this topic.

This is the whole basis of Dependency Inversion and Injection ( this is also the ‘D’ in SOLID ): here we program to an interface , not an implementation as we saw above. This gave us the flexibility to change our implementation completely without changing the client code. So the basic idea is programming to an interface decouples the client from the internal implementation freeing calling programs from knowing the internals leading to flexibility in changing implementation as the need arises.

Even in scenarios where there are published APIs , when you use objects  go up in hierarchy to program to the interface as opposed to the concrete class. So if you are using a List object and comparing individual strings-  then if this object implements IComparer , then program to IComparer –

instead of writing:

List myList = new List();
myList.Compare( myList[0] , myList[1]);

//Write as :

IComparer myList = new List();
myList.Compare( myList[0], myList[1] );

//This gives you the freedom to use a different flavor of Compare method if you need to ,

IComparer myList = new Array();
myList.Compare( myList[0], myList[1] );

The advantage of the above is ability to switch different comparison methods if they are available. And also test program can easily switch different implementations and see what works the best.

We also need to understand that “Program to an interface” should not be taken literally . Even Abstract classes can act as interfaces in this context and give us the same flexibility.

Interfaces should be used wisely and only when needed. If there is no potential for an implementation to ever change there is no need to bother with interfaces. For example , a Utility class that converts a string to a number. There is no need to write interface to this . Interfaces should also be used in projects where testability is a big concern and mocking may be required.

Design Patterns, Development, Object Oriented Programming, OO, SDLC, Software Architecture

Finding the way to Design Patterns : more SOLID

So continuing into the process of finding our way into design patterns from my last post , we will try and unfold SOLID a bit more. Some of the SOLID principle interpretations and applications can be very subjective and a matter of debate. How do you know the classes that you wrote have adhered to the Single Responsibility Principle ? Is there a way to determine ? What does Single Responsibility exactly mean?  How far do you try and take these things…blah ..blah.

There needs to be a balance in everything of course.One needs to find a mid way between over-engineering and under-engineering. We need to create small classes with very few cohesive/related functions without getting carried away by having so many classes that we cannot manage those either. At the same time , understanding exactly how to create classes with just one relevant behavior or few cohesive functions can get tricky. It’s important to ask the question while writing a class , what is it that will potentially change in this class later , that can be re-factored into a separate class , so minimal changes / or no changes need to be made to the existing implementation when the change needs to be made.

It’s important to ask the question while writing a class , what is it that will potentially change in this class later , that can be re-factored into a separate class , so minimal changes / or no changes need to be made to the existing implementation when the change needs to be made.

If we take the Logging example that we discussed in the previous post , we discussed three functions a logger can do. Initializing a medium to log , Formatting to the medium itself  and Writing to the medium . So, they all look like related functions don’t they ? So they all can go in one class , which is a violation of SRP . If we take one step further into re-factoring  perhaps it’s easy to recognize right away that there are different mediums to log , each requires a different method to write to itself. So we create separate classes for the medium . Yes , we applied SRP here.

What about formatting ?  Can formatting change ? Yes, it can . Say we need to add a new logging medium called Mobile Device. To the mobile device , you want to send text messages whenever severe conditions occur. Doesn’t the format of what goes into a database differ from a mobile device ?  Also , later down the line the potential users of our Logger may require that they want the format of the message a little different. Now if we did not separate the format function into it’s own class , we have it as part of the class that writes to the medium or worse as part of the Logger class. Logger class is actually our client facing class that the client would use to log messages . Just to change  formatting , we have to go and change this Logger class or the medium classes.

At this point we need to consider  whether it’s worth writing something like this:





   1:  interface IFormatter {
   2:   
   3:  public string Format( string message );
   4:   
   5:  }
   6:




and the logger could do something like this :






   1:  public class Logger{
   2:   
   3:  public Write( IFormatter formatter){}
   4:   
   5:  }
   6:




Or let’s go couple of steps further along these lines,






   1:  public interface ILogMedium{
   2:   
   3:  void Write(String Message);
   4:   
   5:  }
   6:








   1:  public class LogToDatabase : ILogMedium{
   2:   
   3:  public void Write(string message){
   4:   
   5:  // medium specific logging
   6:   
   7:  }
   8:   
   9:  }
  10:








   1:  public class Logger{
   2:   
   3:  ILogMedium _logTodb;
   4:   
   5:  IFormatter _formatter;
   6:   
   7:  public void Logger( ILogMedium logToMedium,  IFormatter formatter )
   8:   
   9:  {
  10:   
  11:  _logTodb = DBMediumProvider.Create(); // DBMediumProvider could be a creation class
  12:   
  13:  _formatter = DBFormatProvider.Create(); // DBFormatProvider could be a creation class
  14:   
  15:  }
  16:   
  17:  public Write(String message){
  18:   
  19:  _logTodb.Write( _formatter.Format(message) );
  20:   
  21:  }
  22:   
  23:  }
  24:




Please note : The code above is not a working solution. It is only like pseudo code to demonstrate the thought process .


The advantage of the above is we kept the formatter completely separate from the medium , as well as the Logger class. This allows us to plug in new mediums , formatters and configure them based on our needs. Also , if there are bugs it’s easier to fix a specific class as opposed to one big class which could potentially break other functions.


This brings us to the Open Closed principle , which is the next one and the ‘O’ in SOLID as we all know.


A consistent use of SRP can lead to OCP , which simply states: A class should be open for extension but closed for changes. This does not mean that classes should be completely sealed for change , it means that the class should be in a state where only bug fixes should be made and new functions should be added via new classes , minimizing implementation changes to the existing classes.


Words should not be taken literally here : once you wrote the class does not mean that it cannot be changed at all : however we should get to a point that , when behavior changes in predictable ways, you should not have to make several changes into a single class or several classes in the system. An ideal situation would be where you achieve the change by adding new class / code rather than changing existing code . For anyone who has been in programming for a few years supporting production systems , this will make a lot of logical sense.


Whatever we discussed above with Logger example with reference to SRP will apply to OCP as well , because OCP can be achieved by applying SRP consistently. So had we written the formatting in the Logger or the individual medium classes we would not be able to add new formatters or change existing formatting without changing the Logger or the mediums classes , plus mix and match formatting with mediums . The way we achieved OCP with Logger example is we gave the Logger a Single Responsibility of writing to the medium. We gave the Medium classes a Single Responsibility of initializing / creating the medium and specifically write to that medium as well. And then OCP came into effect when we made it possible for new formatters to be added to the system by simply implementing the interface IFormatter and adding that class to the system as a plugin. So , when a user wants to use the new Formatter , she can do it through the configuration system and that formatter will get automatically used which needs to be implemented through some creation classes of course , which is a separate topic – an example is Factory Method pattern.


Several design patterns use the SRP and OCP , and following the above two will put you in the mode of clean and efficient code . Some popular patterns like Strategy , Factory are all based on OCP . We will continue with this discussion in the next post , happy programming !


Few references :


Wikipedia definition Open-Closed


Interesting read on OCP by Jon Skeet


	


	



			
				


	

	

	

		

						

														
						Development, SDLC, Software Architecture					
									
							

			
			
Technical Knowledge : Breadth and Depth

		

	



	

	
I could have titled this blog “Professional Knowledge : Breadth and Depth “ – however thought that since my blog focuses on a niche readership,  “Technical Knowledge” would sound more appropriate . Anyway, often times at work discussions come up on how mastering a certain subject area leads to growth , especially for technology professionals. Depth plays a key role in technology professions in leading to both job satisfaction and growth. So is depth more important that breadth? I think both are equally important, and they both contribute to an individual’s job performance and satisfaction.


Why Depth?


1) Depth in a subject area establishes you as an expert – the deeper you drill within a subject area focusing on niche fields the better you will do at the design and execution level. Depth is instrumental in achieving high quality results, thus better performance by you as a professional. Say for example , you develop a mastery on ‘Design Patterns’  with regular practice and study – your expertise in that area could play a pivotal role in robust architecture and solid implementation of the architecture which will take the project a long way for years to come.


2) All technical projects / undertakings are team efforts – not individual heroic endeavors. An ‘expert’ in each area of the technical solution will be required to fill the places as opposed to some one who just knows a little bit of all. For example , a software project may have a ‘Single Sign On’ expert just handling the Authentication aspect of the solution where he/she is the ultimate ‘go to’ person  for it. Hence having a niche expertise helps you build your value within  the organization almost always to fill in that spot of your expertise across different projects. A key to job security especially for those who work as consultants.


3) Depth can easily make you a ‘Mentor’ or ‘Leader’ in your area , very important for your own job satisfaction . Let me give you my own example in this case. All along in my career , I made careful choices while consulting – I chose to take up projects which were ‘ASP.Net and C# ‘ centric – this quickly helped me establish myself as a mentor as well as a lead in those areas allowing me to provide expert help and guidance across projects. This leads to great satisfaction , sense of value and achievement.


“Having a niche expertise helps you build your value within  the organization almost always to fill in that spot of your expertise across different projects.”


Why Breadth ?


1) Breadth gives you a vision , an ability to see beyond the purview of a narrow expertise. For example, a business problem can be solved either with a Client Server Architecture or Service Oriented Architecture. If you do not keep up at least with what SOA means , it’s application at a high level , your problem solving abilities are stunted by lack of broader knowledge.


2) If depth establishes you as an expert , breadth can establish you as a sound thinker. A ‘subject matter expert’ may not necessarily be able to lead the overall project , whereas breadth


sound thinker


helps in being a leader and decision maker for the whole project. A typical software project has BAs, QA , Developers, Designers , Project Managers etc. – a professional with a broad understanding of how each works can listen and guide everyone effectively .


3) Breadth just makes you a lot better communicator – it’s easy to communicate in areas where you are deep , however breadth enhances the conversation power many fold because you can quote examples from beyond your forte. A great asset for meetings , hallway brainstorms and white board discussions. This can lead you to opportunities that you want to explore to grow as a professional.


 “Breadth gives you a vision , an ability to see beyond the purview of a narrow expertise.”


The power of knowledge is immense in IT : having both depth and breadth will round you up as a sound professional as well as a leader. Practice gives depth and study can give breadth , combined the result is a highly valued professional.  I always feel in technology you can ‘Read your way up’ –  a small investment in time of may be even an hour a day makes a big difference , it keeps you abreast with the new stuff.  I think if one has the time , if say you work 9 hours day , may be extending it to 10 hours by adding that extra reading time at work itself will better prepare you with your project work in applying and understanding better techniques.