*** Work in progress ***
This page gives a brief outline of the major control flows in the execution of a garbage collector in MMTk. For simplicity, we focus on the MarkSweep collector, although much of the discussion will be relevant to other collectors.
This page assumes you have a basic knowledge of garbage collection, for those that don't, please see one of the standard texts such as The Garbage Collection Handbook.
Structure of a Plan
An MMTk Plan is required to provide 5 classes. They are required to have consistent names which start with the same name and have a suffix that indicates which class it inherits from. in the case of the MarkSweep plan, the name is "MS".
- MS - this is a singleton class that is a subclass of
org.mmtk.plan.Plan. This class encapsulates data structures that are shared among multiple threads.
- MSMutator - subclass of org.mmtk.plan.MutatorContext. This class encapsulates data structures that are local to a single mutator thread. In the case of Jikes RVM, a Thread is actually a subclass of this class for efficiency reasons.
- MSCollector - subclass of org.mmtk.plan.CollectorContext. This provides thread-local data structures specific to a garbage collector thread.
- MSConstraints - subclass of org.mmtk.plan.PlanConstraints. This provides configuration information that the host virtual machine might need. It is separated out from the Plan class in order to prevent circular class loading dependencies.
- MSTraceLocal - subclass of org.mmtk.plan.TraceLocal. This provides thread-local data structures specific to a particular way of traversing the heap. In a simple collector like MarkSweep, there is only one of these classes, but in more complex collectors there may be several. For example, in a generational collector, there will be one TraceLocal class for a nursery collection, and another for a full-heap collection.
Spaceclass, and it is in the policy class that the mechanics of a particular mechanism (like mark-sweep) is implemented. The task of a Plan is to create the policy (Space) objects that manage the heap, and to integrate them into the MMTk framework.
org.mmtk.policy.Space, and a particular instance of a policy is known generically as a space. The static initializer of a Plan and its subclasses define the spaces that make up an MMTk plan.
In this code fragment, we see the MS plan defined. Note that we generally also define a static final space descriptor. This is an optimization that allows some rapid operations on spaces.
MMTk provides two methods for allocating an object. These are provided by the MSMutator class, to give each plan the opportunity to use fast, unsynchronized thread-local allocation before falling back to a slower synchronized slow-path.
The version implemented in MarkSweep looks like this:
The basic structure of this method is common to all MMTk plans. First they decide whether the operation applies to this level of abstraction (if (allocator == MS.ALLOC_DEFAULT)), and if so, delegate to the appropriate place, otherwise pass it up the chain to the super-class. In the case of MarkSweep,