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I'm always striving to improve the quality of my work. And so I came to read Kent Beck's great little book Smalltalk Best Practice Patterns. I'm not a Smalltalk programmer but many of the patterns are language agnostic. Like the one I'm talking about here. Right in the first pattern he gives this recommendation:

Devide your program into methods that perform one identifiable task. Keep all of the operations in a method at the same level of abstraction. This will naturally result in programs with many small methods, each a few lines long.

I think I understand the meaning and relevance. Though I struggle with keeping all operations at the same level of abstractions part. I try my best to follow this advice, which is written in many books on software development. Still I sometimes have a hard time to identify the right levels of abstraction.

Are there any techniques to identify levels of abstraction? Is it just about experience? How do you go about it?

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closed as not constructive by djechlin, Dukeling, Jai, Sankar Ganesh, Sudarshan Feb 18 '13 at 5:09

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This is not a constructive question for SO and should be closed but last I read the FAQ may be a good question for programmers.stackexchange.com. –  djechlin Feb 17 '13 at 16:29

5 Answers 5

up vote 5 down vote accepted

Choosing right label of abstraction is indeed an art. You will need to go through various iterations before you will get it right . All great object oriented designs are very difficult ( if not impossible to get right ) the first time . So you need to think deep and hard to decide on your abstractions . Basically abstractions can go all the way down to hardware and all the way upto entire subsystems (like in facade pattern).

You need to write down your problem statement and then you need to identify the following :

  1. Nouns ( these generally become the classes)
  2. verbs ( these become the methods).
  3. Next you need to find out which verbs go with which nouns and these would form the types and their interfaces.
  4. next you need to think about collaboration about objects and then use inheritance and composition to model those relations .

All in all this is an art and I recommend you to read a good design pattern book like GoF book which presents a catalog of patterns that you should be able to map to based on the problem you are trying to solve .

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I haven't read the book you mention, but as you say the concept of levels of abstraction is used or explained in several books.

Robert C. Martin, in his book "Clean Code", writes a section about it in the chapter dedicated to functions. He gives the example of functions in which there are concepts at very different levels of abstraction:

  • totalUsers += 1;: Low level of abstraction
  • User actual = new User(id, username);: Middle level of abstraction
  • return getActiveUsers(): High level of abstraction

As he states, you can see in functions which are written this way that they break the single responsability principle, since they are doing lots of different things. If you think (as I do) that this example is not enough, this one from Jeff Atwood's blog is much better and will clarify more doubts.

So what Martin proposes is to write down the functions as a top-down narrative. This is what sometimes we intuitively do when we comment parts of a method:

public Foo processEntries(string argument) {
    // Find some specific entries
    // ...
    for(...) {
        if(...) {
            // Process some of them
        // ...
        // Calculate a global result
    // ...
    // Create and return new Foo

And separating them in their respective layers the result should be something like this:

public Foo processEntries(string argument) {
    List<Entry> entries = getSpecificEntries(argument);
    Result total = calculateGlobalResult(entries);
    return createConcreteFoo(total);

public List<Entry> getSpecificEntries(string argument){ ... }

public Result calculateGlobalResult(List<Entry> entries)
    Result total;
    for(Entry entry : entries)
        processEntry(entry, total);
    return total;

public void processEntry(Entry actual, Result total)
        // ...
    // ...

public Foo createConcreteFoo(Result total){ ... }

This is a very abstract example, but for instance this happens very frequently when the Transaction script is used. I've seen lots of times this situation in PHP applications, where in the same script there are concepts of almost all the layers of abstraction (mysql_ functions, string contatenations, creating objects, and so on).

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I kind of see abstraction as a "zoom" factor when programming.

The lower the abstraction, the more intricate code details there is. Kind of like zooming in and out of a map.

So if we have a MortgageApplication Class, this would be abstraction level 1.

By Zooming in: we might have : (Bank, Credit, Loan) classes. Which would be abstraction level 2. So on and so forth.

Source: http://www.dofactory.com/Patterns/PatternFacade.aspx

So to quote the author: "Keep all of the operations in a method at the same level of abstraction"

I won't go and write a Class called: StringBuilder in level 2 under the MortgageApplication. Which would make things very confusing indeed. People would expect Level 2 abstraction items to be related to level 1 in some sensible and logical way.

-My 2 Cents!

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One of the fundamental reasons for engaging in the task of abstraction in software analysis, design and development is to reduce the complexity to a certain level, So that the “relevant” aspects of the requirements, design and development may be easily articulated and understood. This starts with the requirements definition through design to actual code implementation.

You have to define levels of abstractions by yourself. This is an approach , not any algorithm. enter image description here

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I like to derive my levels of abstraction from the way that the algorithm is structured.

Let us say I have a method doCertainTask() which well ... does a certain task. The algorithm for the task could look like:

  • first do subtask_1
  • then calculateResult_2
  • then performOperation_3

Now this set of subtasks/operations/calculations logically completes the task that doCertainTask() is supposed to perform. The bullets algorithm above list the subtasks at 1 level of abstraction.

Have a look at an expanded version of the same algorithm below:

  • first do subtask_1
    • Start subtask_1
    • first do activity_1
    • then create dataStructure_2
    • then evaluate condition_3
    • End subtask_1
  • then calculateResult_2
  • then performOperation_3

Now the modified algorithm shows a deeper level of abstraction (subtasks of subtask_1) than the stated name of the method. The steps that are at this lower level should probably be moved to another method.

This is just my way of looking at this. Hope this helps.

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