Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I'm having trouble designing my game engine. For example:

When I think in Resources, I think in a ResourceManager class to manage resources on my engine.

This class gets several responsibilities:

  • Load resources.
  • Map resources by an identifier.
  • Ensure that resources are loaded only once.
  • Free unused resources (using smartpointers).

This works for me, but I have read on every OOP design tutorial that managers are ambiguous classes with high coupling and low cohesion. I understand this, and I agree, but I searched almost the whole Internet to find a clear example of a real alternative to Managers but I didn't found it.

Some people explain, for example that a ResourceManager should be divided into smaller classes: A ResourceFactory, a ResourceCollection, a ResourceCache, a ResourceFacade...

I know all this design patterns (Factory, Collection, Facade, etc.) But I don't actually understand how this can be joined to create a (easy to manage) resource management system.

My question is: Is there some tutorial or document with a clear example? Can someone explain an example of this system? I'll thank you if you can write a small example in C++ or another similar language.

Thanks in advance for your help!

share|improve this question
just to avoid confusion (and possible close votes), you might want to edit the title of your question since it has nothing to do with your actual question. The title asks why you shouldn't use managers classes, and the body asks what you should do instead. I assume it's the latter you actually want an answer to, but in either case, edit so the title and body actually ask the same question. :) – jalf Nov 1 '10 at 21:34
Thanks for the tip! I have edited the title... – Dani Nov 2 '10 at 7:11

5 Answers 5

up vote 6 down vote accepted


  • Load resources -> ResourceLoader
  • Map resources by an identifier -> ResourceMapper
  • Ensure that resources are loaded only once -> CachedResourceLoader / this one uses the ResourceLoader when it doesn't already have it loaded
  • Free unused resources (using smartpointers) -> ? / not sure about this one, but load+unload seems like highly cohesive concepts

re extra info in the comment about "Free unused resources":

First, let's clear that we only have 2 of the above involved: ResourceMapper and CachedResourceLoader. As the ResourceLoader instance is used from the CachedResource, it's not exposed to the rest of the code.

Note that the following depends on the domain knowledge, so I'll keep it open / you'll know which of these make sense / applies to the pieces you have. I'd say there are 3 options here:

  • ResourceMapper uses CachedResourceLoader, and you only expose the earlier to the rest of the code.
    • In this approach it there is a single entry point through ResourceMapper, so it makes sense it controls FreeUnused().
    • Once it determines it can free a resource, it'll remove it from the map. If needed it'd call an Unload for specific items to the CachedResourceLoader
  • Both CachedResourceLoader and ResourceMapper are used by the caller.
    • If you only need to FreeUnused from the ResourceMapper, then just add it there.
    • If it needs to be freed from both, one of:
    • .FreeUnused in the ResourceMapper receives a cachedResourceLoader. After determining/removing the items from the map, it passes the list of resources to free to the cachedResourceLoader instance
    • .FreeUnused in the ResourceMapper returns the list of resources freed from the map. The caller calls .Unload on the cachedResourceLoader passing the list of resources to Unload. Maybe you have a nice place in the caller these 2 calls would fit well.
  • You do use a ResourceManager, but instead of having all the implementations in there, it uses the ResourceMapper and CachedResourceLoader. It'd be very thin, just doing calls to the others, in particular the .FreeUnused and .Unload calls in the last sub bullet above.

A final note: I think it's definitely worth it to separate the responsibilities and feel strong about doing so. That said, it's the SOLID principles I follow the most, I don't memorize pattern names and don't pay that much attention to rules like Manager classes are bad.

share|improve this answer
About "Free unused resources": To store resources in memory, I use smartpointers of type "reference counted". So that by reading the reference count on each resource in the ResourceMap I can see what resources are no longer used in my application. If this count is 1, means that the only reference on that resource is in the ResourceMap. So I can free it safely. In my old resource manager, I had a method FreeUnused() to perform this task. But now that the manager is out, where should I put this method? Thanks for your help! – Dani Nov 1 '10 at 20:37
@Dani: Delete it. And then use a real reference-counted smart pointer (such as the one in Boost). A sane smart pointer implementation automatically deletes the object when its reference count reaches zero (and to answer your next question, your ResourceMap can then hold weak pointers, to avoid it keeping objects alive by preventing the the ref counter from reaching zero) – jalf Nov 1 '10 at 21:52
@eglasius: thanks! you have explained very clearly... I'm building a set of classes based on your first approach – Dani Nov 2 '10 at 23:48
@jalf: Great!! I haven't used much weak pointers, but if I understand it, I don't need no FreeUnused method. That's right? When all references on an object are deleted, the resource is freed. And if a process needs the resource again it ask the ResourceMap who will get a bad weak_ptr and reload again with CachedResourceLoader... Is this OK? – Dani Nov 2 '10 at 23:48
@Dani: yep, sounds about right. In general, the magic word is RAII: every resource should have its lifetime mapped to that of a wrapper class. Smart pointers are one example of such wrapper objects (a ref-counted one deletes the resource it owns when the ref counter reaches zero, but many other types exist). In general, this allows you to write C++ code where resources just manage themselves, and are automatically deleted when they're no longer needed. Either when they go out of scope, or when their reference counter reaches zero. – jalf Nov 3 '10 at 0:13

You almost said it already:

This class gets several responsibilities

(original emphasis).

This violates the Single Responsibility Principle. Additionally, the word Manager suggest an object that manages other objects, which is at odds with the object-oriented principle that objects should encapsulate both data and behavior. This quickly leads to the Feature Envy code smell.

Dividing the manager into many smaller classes is the correct thing to do. To keep them manageable, you can implement a Facade over them.

share|improve this answer
I also think some people push OO so hard with all these 'principles' and 'idioms' that it's virtually impossible to write any code that meets them all. Few of these are Holy Writ after all - they are just different peoples' ideas on how to approach OO, not laws. – Mr. Boy Nov 1 '10 at 22:05
@John: No, a Library is a way to represent a library. A "Bookmanager" is... something that manages books. I don't even know what that means. A garage doesn't "manage cars" it just stores cars while they're not in use, sometimes charging money for it. That is exactly the problem with manager classes. It's not clear what they mean. When I encounter a "CarManager" class, should I assume that it just your name for a garage? Or perhaps it's some big controller class that periodically updates the position of every car which is currently driving? Perhaps it is a centralized registry of all cars. – jalf Nov 2 '10 at 14:02
You don't know what it means? Look at the public API. – Mr. Boy Nov 2 '10 at 14:31
And to keep it manageable divide the Facade into many smaller facades each with single responsibility and wrap a Facade over that facades... ) Sorry, I can't be any more constructive, since the answer is just a collection of buzzwords – Alsk Nov 2 '10 at 15:18
@supercat A ConnectionRegistry perhaps? I don't disagree with you that such tasks sometimes exist and need to be carried out by some part of the code. But when it does, give it a descriptive name. "Manager" can mean anything or nothing at all. You don't know what it manages, or how it manages, or just as importantly, which aspects of "managing" it does not do. The first step in building a manager class should always be to ask yourself "so how does it manage", and when you have the answer to that, you can rename it. ;) – jalf Nov 13 '12 at 8:03

But I don't think that there is necessarily something wrong with your solution. IMHO if you think about stuff you said from Aspect Oriented Programming's point of view, it's just an aspect on your resources that will be handled by your class.

Although if you think in large and your code base may evolved in hundred of line of code, it will be better to break down your Infrastructure functions(Domain Driven Design Patterns).

I think your class is a cohesive one and the manager name is not always a bad sign except that it consolidates the control flow of many possibly unrelated classes that collaborate with each other to accomplish a task.

I comment that if your requirements about caching and mapping is prone to change maybe it will be better to Separate your Concerns.

share|improve this answer
+1 Well argued. – CesarGon Nov 1 '10 at 19:36

You don't need to be dogmatic about design patterns or a particular architecture. Just do whatever makes sense and document it well.

In other words, decomposing a class into smaller classes because the larger class has multiple responsabilities is a good principle, but not a law. You don't want to follow it at any cost. Look at the pros and cons of applying it. Sometimes, decomposing a class into smaller classes gives you more control over responsaibilities, but at the expense of a great deal of communication among those classes. In your example, you might as well implement different classes for resource loading, caching, mapping, saving, etc. But if each class needs to talk to the others in order to perform its work, then the decomposition is not worth doing, because it entails high coupling, which is bad; keep it all in a single class.

Sometimes I think that design patterns have brought about as much damage as clarity to the software development world! :-)

share|improve this answer
I agree whole-heartedly with you on all of your 2nd and 3rd paragraph points... in a word or few: "nailed it!" However, the 'document it well' is a sore-spot in our little shop. There are classes that have more comments than lines of code by five-fold. I contend (and contend and contend) that if your classes are well-named (i.e. FileDownloader) and name your methods clearly (i.e. downloadFileAsynchronously), you shouldn't have to document "well", you should only have to document enough to make future support a manageable task. I even think this is true for open source projects... – jeremy.mooer Nov 1 '10 at 21:15
@jeremy.mooer: +1 "Document well" doesn't mean "document too much" or "document the hell out of it". It means just what it says: document it well. Carefully chosen names for classes and methods plus a few extra comment lines for specially difficult logic code sections is all you need to achieve what I mean by "document it well". I fully agree with you! – CesarGon Nov 1 '10 at 21:22
@CesarGon - I guess when I hear "document it well" I hear the stirring echoes of friendly arguments past in which I'm accused of the opposite: not documenting well enough. Could be a personal problem.... :-) – jeremy.mooer Nov 1 '10 at 21:52
I agree with your last paragraph, but you picked a really bad example for it. If all of your classes need to talk to all the others in order to perform their work, then your entire architecture is broken. Then you have that much more reason to decompose the classes, rather than just saying "oh well, can't be done, I'll just go on with my big huge God Class" – jalf Nov 1 '10 at 21:56
@jeremy.mooer: Happens to me too :-) – CesarGon Nov 2 '10 at 8:54

I know all this design patterns (Factory, Collection, Facade, etc.) But I don't actually understand how this can be joined to create a (easy to manage) resource management system.

Who says they should be joined together? Then you're back where you started, aren't you? The entire point in breaking up manager classes is that you end up with multiple simpler components. If you need the caching functionality, you talk to the cache. If you need the resource loading functionality you talk to the resource loader.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.