A lot of the answers here are answers about teaching OOP to Perl programmers who don't use it, but your question sounds like you're stymied on how to teach a course on code quality, in light of the fact that your Perl programmers do not use OOP, not specifically that you want to teach OOP to non-OO programmers and force them into that paradigm.
That leaves us with two other paradigms of programming which Perl supports well enough:
- Good ol' fashioned Structured Programming also Modular Programming
- Functional programming support in Perl (also Higher-Order Perl)
I use both of these--combined with a healthy dose of objects, as well. So, I use objects for the same reason that I use good structure and modules and functional pipelines. Using the tool that brings order and sanity to the programming process. For example, object-oriented programming is the main form of polymorphism--but OOP is not polymorphism itself. Thus if you are writing idioms that assist in polymorphism, they assist in polymorphism, they don't have to be stuck in some ad-hoc library "class" and called like
UtilClass->meta_operator( $object ) which has little polymorphism itself.
Moose is a great object language, but you don't call
Moose->has( attribute => is => 'rw', isa => 'object' ). You call the operator
has. The power of
Moose lies in a library of objects that encapsulate the meta-operations on classes--but also in simple expressive operators that the rather open syntax of Perl allows. I would call that the appreciation of solving the problems that OOP solves with objects.
Also, I guess I have a problem with your problem, because "not OOP" is a big field. It can range from everything-in-the-mainline coding to not-strictly-OOP (where the process of programming is not simply OOP analysis). So I think you have to know your audience and know what it is they use to keep that code structured and sane. I can't imagine a modern Perl audience that isn't at least object-users.
From there, Perl Best Practices (often abbreviated PBP) can help you. But so would learning that
- simply because OOP is one of the best supports for polymorphism it isn't polymorphism in itself
- simply because OOP is one of the best supports for encapsulation it isn't encapsulation in itself.
- That OOP has been assisted by structured and modular programming--and is not by itself those things. Some of its power is simply just those disciplines.
In addition, as big as an object author and consumer I am, OOP is not the way I think. Reusability is the way I think: What have I done before that I do not want to write again? What have I written that is similar? How can I make my current task just an adapter of what has been written before. (And often: how can I sneak my behavior branch an established module in a single line?)
As a result, a number of my constructs would fail the pedestrian goal of OOP. To give you a better view: I divide code into two "domains": Highly abstract and polymorphic Library code, and the Scripting that I need to do to get the particular function that I'm required in a current project. (this is essentially what "application" means, but I don't think it would be as clear). As a result, polymorphism is mainly instrumental in providing adaptability, but the adaptation itself is whatever takes the least lines of code. My optimum system would be a library that allows scripting/adaptation at any juncture between library behavior and a set of configurations or scripts that address a particular problem. Again, if I had my druthers, configuration would be injected from the scripted domain and no library code would say "I need a properties file" by itself, unless it was a library module encapsulating the algorithm of configuration instanced in properties files. It would just know that it needs "policies" (or decisions from the application domain) in order to fulfil its function.
I will often (later) revise a special-purpose object and push it further back into the library domain as I find that I need to write something like this again. All objects in the library domain are just on some level of the spectrum of specified behavior. Also, I arrange "data networks" where there is a
Sourced type of class that simply encapsulates the behavior of accessing data either in the object itself or another source object. This helps speed my solutions immensely, but I've never seen it addressed in any duck-cat-dog-car-truck OOP primer. Also templating--especially when combined with "data networks"--immensely useful in coding solutions in a half-dozen lines or a half-day of work.
So I guess I'm saying, to the extent that you only know OOP for structuring programming, you won't be able to appreciate how much some older, sound practices or other paradigms do for you--or how things that qualify as OOP can promote mediocre adaptability. (Besides components are far more current than "objects".) Encapsulation solves many problems, but it also promotes the lack of data where you need it. The idea is to get data where you need it so that your canned behavior can realize the specifics of the problem and operate on that.
- Reread some stuff on structured programming
- Read some stuff on functional programming (assuming that you're not already familiar with it.)
Also it's possible that even an established, "productive" Perl team is writing ... crap. If they are not OOP programmers because they are simply writing crap code, then by all means teach them OOP and if they lack even structured programming *shove both of them down their throats* (I have a hard time considering the label "professional", here).