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I'm using Eclipse and Java, but the answer doesn't need to be specific to those. I'm sure platform specific answers will get plenty of upvotes if they're far quicker than non-platform specific ones.

Right now I'm using

    grep "classname" find . -regex .*\.java > uses_classname.txt

to find code that might be affected by a change to the class. If there are only a few lines returned by this, I can look at it manually as it is. Otherwise, I can grep again to find the specific methods I'm modifying. Is there a better way to do this?

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Assuming that by 'refactoring` you mean 'renaming': In Eclipse, Right-click the method name, References -> Workspace? –  The Nail Jan 3 '12 at 22:09
    
What about... performing the refactoring? If you are using version control and you don't have any uncommitted changes, all modified files are the ones touched by refactoring. –  Tomasz Nurkiewicz Jan 3 '12 at 22:12
    
Tomasz, that assumes you've checked out the whole code base into your workspace, rather than a portion of the code base that compiles independently. (Which may itself not be the best practice.) –  Douglas Treadwell Jan 3 '12 at 22:23
    
@TheNail, I don't mean renaming, I mean possibly eliminating a method or changing parameters or something along those lines. Obviously another possible refactoring would be to leave it as is, and add new methods so the old one can gradually be used in less code. –  Douglas Treadwell Jan 3 '12 at 23:04
    
Ok, then this Eclipse feature should also be useful. It simply shows you where the method is currently being used. BTW, the grep-method suffers from the same limitation as a refactoring in Eclipse if you haven't checked out a portion of the code. –  The Nail Jan 3 '12 at 23:07

2 Answers 2

A good solution is to use JUnit and practice test-driven development. After refactoring, re-running your test cases will tell you whether any existing functionality has been damaged. Moreover, since you are actually testing the code rather than grep'ing over method names, you can get full backtrace, making debugging much easier. A good introduction to JUnit can be found here.

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