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Codebase size has a lot to do with complexity of a software system (the higher the size the higher the costs for maintenance and extensions). A way to map codebase size is the simple 'lines of code (LOC)' metric (see also blog-entry 'implications of codebase-size').

I wondered how many of you out there are using this metric as a part for retrospective to create awareness (for removing unused functionality or dead code). I think creating awareness that more lines-of-code mean more complexity in maintenance and extension can be valuable.

I am not taking the LOC as fine grained metric (on method or function level), but on subcomponent or complete product level.

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I find it a bit useless. Some kinds of functions - user input handling, for example , are going to be a bit long winded no matter what. I'd much rather use some form of complexity metric. Of course, you can combine the two, and/or any other metrics that take your fancy. All you need is a good tool - I use Source Monitor (with whom I have no relationship other than satisfied user) which is free and can do you both LOC and complexity metrics.

I use SM when writing code to make me notice methods that have got too complex. I then go back and take a look at them. About half the time I say, OK, that NEEDS to be that complicated. What I'd really like is (free) tool as good as SM but which also supports a tag list of some sort which says "ignore methods X,Y & Z - they need to be complicated". But I guess that could be dangerous, which is why I have so far not suggested the feature to SM's author.

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sorry, forgot to mention: i mean the overall lines-of-code metric, which the whole codebase has. not too fine grained per method or function. i am taking it more as a metric for the overall software-process and being aware and keep the lines-of-code of the whole codebase as low as possible, there was a saying something like 'beauty is not when there is nothing more to add but when there is nothing to take away') – manuel aldana May 9 '10 at 20:12
@Manuel At the codebase level it's meaningless - how can you know how many LOC's you need or are good? You can't. – anon May 9 '10 at 20:32
You misunderstand me. I don't mean to see it as absolute metric (i.e. saying you need 1K LOC to implement this x feature is absolutely nonsense). I merely see LOC as a process metric to be more aware that maintaining big systems (which high LOC expresses) comes with a high cost. Nowadays one of the big problems with software systems is the fraction of dead-code (I read different numbers from 20-60% code) and dead/unused-features. With "LOC awareness" on process level I see one way to fight against it. – manuel aldana May 9 '10 at 22:00
@Manuel Well if dead code (not sure what that is) is your concern, then that, rather than LOC should surely be your metric of interest. As I'm not sure what you mean by the term, I can't offer any further advice. – anon May 9 '10 at 22:03
dead-code is: code which is never executed, dead-features: features which are deprecated or are never used by users and thus can be removed. LOC metric does NOT tell you: from 100K 10K can be removed (you just don't know the dead code fraction). I see LOC more as a process metric to take action, e.g.: "Codebase has increased 25K in the last month, in next sprint we plan dedicated clean-up effort." In my view being LOC aware in the whole team you can create a culture of YAGNI and get a better feeling of size. Higher LOC means higher costs in maintenance + extension. – manuel aldana May 9 '10 at 22:38

I'm thinking it could be used to reward the team when the LOC decreases (assuming they are still producing valuable software and readable code...).

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Not always true. While it is usually preferable to have a low LOC, it doesn't mean the code is any less complex. In fact, its usually more-so. Code thats been optimized to get the minimal number of cycles can be completely unreadable, even by the person who wrote it a week later.

As an example from a recent project, imagine setting individual color values (RGBa) from a PNG file. You can do this a bunch of ways, the most compact being just 1 line using bitshifts. This is a lot less readable and maintainable then another approach, such as using bitfields, which would take a structure definition and many more lines.

It also depends on the tool doing the LOC calculations. Does it consider lines with just a single symbol on them as code (Ex: { and } in C-style languages)? That definitely doesn't make it more complex, but does make it more readable.

Just my two cents.

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i get your point. that is why i said not to quantify the metric. i am just arguing, when you have an existing product. the more code you will produce on this product the more complex it will be to adapt in future. – manuel aldana May 9 '10 at 20:14

LOCs are easy to obtain and deliver reasonable information whithin one not trivial project. My first step in a new project is always counting LOCs.

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