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I need to test a tree implementation and different "move" actions for its nodes. My tree is save to DB (in our case it is mongoDB but it is not that important). What would be the best approach? I am using JUnit.

My thoughts so far as follow:

  • Have a setUp method that creates a tree structure and saves it to the DB
  • Let the setUp method create an in-memory copy of the tree with the following details per node: parent id, position, name
  • run each test function I want to test. E.g. move node from A to B
  • compare the in-memory to the new in-DB version. Propagate each diff found
  • assert that the diff changes are expected

The reason for creating an in-memory copy is to test against a complex tree (several levels and nodes per level). Otherwise, I have to test each node for every test.

Does this make sense? Any better approach (or better: a library that can do it for me)?


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Do you mean a JTree i.e. a GUI component or data structure (non-GUI)? – a_horse_with_no_name Jul 29 '12 at 14:55
non-gui (that is data structure) – checklist Jul 29 '12 at 19:01

3 Answers 3

up vote 1 down vote accepted

Your approach sounds good. I would suggest one change: Instead of a database write two recursive methods that generate a string XML representation of a given tree and that recreate a tree from a given XML representation.

You can store your initial tree and expected tree as XML strings for each test case and the assertion for a test case is whether the string XML representation of a tree after a set of actions equals() the expected XML string.

It should be easy to visually inspect the various XML strings and debugging would be easier because when a test fails you can see the actual XML and visually compare it to the expected XML. In fact, you can even run test cases in record mode where they simply write out the resulting XML for your review and approval.

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I think this approach is quite different than mine. I do like (especially the recording). Just need to see that it really is simple. Will give it a shot! Thanks! – checklist Jul 29 '12 at 19:05
I see more similarities than differences. Your test strategy and individual tests are the same. It's just a different representation for the actual comparisons. – Chris Gerken Jul 29 '12 at 19:10
Well..I implemented it and it is great! Thanks. – checklist Jul 30 '12 at 10:14

The approach seems pretty fair- build a tree with a in-memory replica, now start moving nodes in the tree under test and the in memory instance and see if they are the same.

But I thing that the most important thing is to use both predefined use cases-

  • empty tree
  • only right/left son
  • recursive move
  • leaf move
  • ...

and another tests that uses a random tree.

This will probably cover most of the cases and you should fell pretty confedent in the code after that.

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Ideally, your code that provides persistence for the tree should be independent of the code that manipulates it. This way you can test and modify them independently.

For testing purposes, you might consider a tree construction method that takes a nested parenthesized string. Add a toString method to the same format and you have an ideal testing and debugging facility.

For example:

Tree sut( "(root,left,(right,a,b))" );
ASSERT_EQUALS( "(root,(left,c,),(right,a,b))", sut.methodUnderTest(c).toString());

What I've shown as root, left, right, etc, might actually be more complex representations of your actual structure such as "{root,x,y,name,value}".

The point is to make tests that are quickly created and easily understood so that you take less time understanding each test and have time to create enough tests to cover you code.

It is important to isolate your tests from changes to your tree data. To facilitate this, instead of using .toString(), you can add .toTestString() that changes less frequently. That way you can add to your tree object and change .toString() without breaking tests. Similarly, your tree construction method from a string might be a separate class.

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