I've been experimenting with programming language design, and have come to the point of needing to implement a garbage collection system. Now the first thing that came to mind was reference counting, but this won't handle reference loops. Most of the pages that I come across when searching for algorithms are references on tuning the garbage collectors in existing languages, such as Java. When I do find anything describing specific algorithms, I'm not getting enough detail for implementation. For example, most of the descriptions include "when your program runs low on memory...", which isn't likely to happen anytime soon on a 4 GB system with plenty of swap. So what I'm looking for is some tutorials with good implementation details such as how to tune when to kick off the garbage collector (i.e., collect after X number of memory allocations, or every Y minutes, etc).
To give a couple more details on what I'm trying to do, I'm starting off with writing a stack-based interpreter similar to Postscript, and my next attempt will be probably an S-expression language based on one of the Lisp dialects. I am implementing in straight C. My goal is both self education, and to document the various stages into a "how to design and write an interpreter" tutorial.
As for what I've done so far, I've written a simple interpreter which implements a C style imperative language, which gets parsed and processed by a stack machine style VM (see lang2e.sourceforge.net). But this language doesn't allocate new memory on entering any function, and doesn't have any pointer data types so there wasn't really a need at the time for any type of advanced memory management. For my next project I'm thinking of starting off with reference counting for non-pointer type objects (integers, strings, etc), and then keeping track of any pointer-type object (which can generate circular references) in a separate memory pool. Then, whenever the pool grows more than X allocation units more than it was at the end of the previous garbage collection cycle, kick off the collector again.
My requirements is that it not be too inefficient, yet easy to implement and document clearly (remember, I want to develop this into a paper or book for others to follow). The algorithm I've currently got at the front is tri-color marking, but it looks like a generational collector would be a bit better, but harder to document and understand. So I'm looking for some clear reference material (preferably available online) that includes enough implementation details to get me started.