.. sources:
``_
``_
.. index::
single: collection
single: garbage collection
.. _topic-collection:
Garbage collection
==================
.. index::
single: chain; generation
single: generation chain
Generation chains
-----------------
A :term:`generation chain` describes the structure of the
:term:`generations` in a set of :term:`automatically managed
` :term:`pools`. The same generation
chain should be used for all pools whose blocks live and die together.
Create a generation chain by preparing an array of
:c:type:`mps_gen_param_s` structures giving the *capacity* (in
kilobytes) and *predicted mortality* (between 0 and 1) of each
generation, and passing them to :c:func:`mps_chain_create`.
When the size of the generation exceeds the capacity, the MPS will be
prepared to start collecting the generation. See
:ref:`topic-collection-schedule` below.
For example::
mps_gen_param_s gen_params[] = {
{ 1024, 0.8 },
{ 2048, 0.4 },
};
mps_chain_t chain;
mps_res_t res;
res = mps_chain_create(&chain, arena,
sizeof(gen_params) / sizeof(gen_params[0]),
gen_params);
if (res != MPS_RES_OK) error("Couldn't create chain");
.. c:type:: mps_chain_t
The type of :term:`generation chains`. A
generation chain describes the structure of :term:`generations` in a :term:`pool`.
.. c:type:: mps_gen_param_s
The type of the structure used to specify a :term:`generation` in
a :term:`generation chain`. ::
typedef struct mps_gen_param_s {
size_t mps_capacity;
double mps_mortality;
} mps_gen_param_s;
``mps_capacity`` is the capacity of the generation, in
:term:`kilobytes`. When the size of the generation
exceeds this, the MPS will be prepared to start collecting it.
``mps_mortality`` is the predicted mortality of the generation:
the proportion (between 0 and 1) of blocks in the generation that
are expected to be :term:`dead` when the generation is collected.
These numbers are hints to the MPS that it may use to make
decisions about when and what to collect: nothing will go wrong
(other than suboptimal performance) if you make poor
choices. See :ref:`topic-collection-schedule`.
.. c:function:: mps_res_t mps_chain_create(mps_chain_t *chain_o, mps_arena_t arena, size_t gen_count, mps_gen_param_s *gen_params)
Create a :term:`generation chain`.
``chain_o`` points to a location that will hold a pointer to the
new generation chain.
``arena`` is the arena to which the generation chain will belong.
``gen_count`` is the number of :term:`generations` in
the chain.
``gen_params`` points to an array describing the generations.
Returns :c:macro:`MPS_RES_OK` if the generation chain is created
successfully, or another :term:`result code` if it fails.
The generation chain persists until it is destroyed by calling
:c:func:`mps_chain_destroy`.
.. c:function:: void mps_chain_destroy(mps_chain_t chain)
Destroy a :term:`generation chain`.
``chain`` is the generation chain.
It is an error to destroy a generation chain if there exists a
:term:`pool` using the chain. The pool must be destroyed first.
.. index::
single: collection; scheduling
single: garbage collection; scheduling
.. _topic-collection-schedule:
Scheduling of collections
-------------------------
.. note::
It's likely that the algorithm the MPS uses to schedule its
collections will change in future releases. There's a lot of room
for improvement here.
The :dfn:`new size` of a generation is the total size of the newly
allocated (in generation 0) or newly promoted (in other generations)
blocks in that generation. These are the blocks that have not been
:term:`condemned ` since they were allocated or
promoted into this generation. In pools like :ref:`pool-amc` where the
survivors get promoted to the next generation in the chain, the *new
size* of each generation (other than the topmost) is the same as its
total size, but in pools like :ref:`pool-ams` where survivors do not
get promoted, the two sizes can be different.
The first generation in a pool's chain is the :term:`nursery space`.
When the nursery's *new size* exceeds its capacity, the MPS considers
collecting the pool. (How long it takes to get around to it depends on
which other collections on other pools are in progress.)
.. note::
You can affect the decision as to when to collect the nursery
space by using the :ref:`ramp allocation pattern
`.
If the MPS decides to collect a pool at all, all generations are
collected below the first generation whose *new size* is less than its
capacity.
In pools such as :ref:`pool-amc`, blocks in generation *g* that
survive collection get promoted to generation *g*\+1. If the last
generation in the chain is collected, the survivors are promoted into
an :term:`arena`\-wide "top" generation.
The predicted mortality is used to estimate how long the collection
will take, and this is used in turn to decide how much work the
collector will do each time it has an opportunity to do some work. The constraints here are:
1. The :term:`client program` might have specified a limit on the
acceptable length of the pause if the work is being done inside
:c:func:`mps_arena_step`.
2. The collector needs to keep up with the :term:`client program`:
that is, it has to collect garbage at least as fast as the client
is producing it, otherwise the amount of garbage will grow without
bound.
With perfect prediction, the collector's work should be smoothly
distributed, with a small maximum pause time. Getting the predicted
mortality wrong leads to "lumpy" distribution of collection work with
a longer maximum pause time. If the predicted mortality is too high,
the collector will start out by taking small time slices and then find
that it has to catch up later by taking larger time slices. If the
predicted mortality is too low, the collector will take larger time
slices up front and then find that it is idle later on.
.. index::
single: garbage collection; start message
single: message; garbage collection start
Garbage collection start messages
---------------------------------
.. c:function:: mps_message_type_t mps_message_type_gc_start(void)
Return the :term:`message type` of garbage collection start
messages.
Garbage collection start messages contain information about why
the :term:`garbage collection` started.
The access method specific to a :term:`message` of this message
type is:
* :c:func:`mps_message_gc_start_why` returns a string that
describes why the garbage collection started.
.. seealso::
:ref:`topic-message`.
.. c:function:: const char *mps_message_gc_start_why(mps_arena_t arena, mps_message_t message)
Return a string that describes why the :term:`garbage collection`
that posted a :term:`message` started.
``arena`` is the arena which posted the message.
``message`` is a message retrieved by :c:func:`mps_message_get` and
not yet discarded. It must be a garbage collection message: see
:c:func:`mps_message_type_gc`.
Returns a pointer to a string that is describes (in English) why
this collection started. The contents of the string must not be
modified by the client. The string and the pointer are valid until
the message is discarded with :c:func:`mps_message_discard`.
.. seealso::
:ref:`topic-message`.
.. index::
pair: garbage collection; message
Garbage collection messages
---------------------------
.. c:function:: mps_message_type_t mps_message_type_gc(void)
Return the :term:`message type` of garbage collection statistic
messages.
Garbage collection statistic messages are used by the MPS to give
the :term:`client program` information about a :term:`garbage
collection` that has taken place. Such information may be useful in
analysing the client program's memory usage over time.
The access methods specific to a message of this type are:
* :c:func:`mps_message_gc_live_size` returns the total size of the
:term:`condemned set` that survived the garbage collection that
generated the message;
* :c:func:`mps_message_gc_condemned_size` returns the approximate
size of :term:`condemned set` in the garbage collection that
generated the message;
* :c:func:`mps_message_gc_not_condemned_size` returns the
approximate size of the set of objects that were in collected
:term:`pools`, but were not condemned in the garbage
collection that generated the message.
.. seealso::
:ref:`topic-message`.
.. c:function:: size_t mps_message_gc_condemned_size(mps_arena_t arena, mps_message_t message)
Return the "condemned size" property of a :term:`message`.
``arena`` is the arena which posted the message.
``message`` is a message retrieved by :c:func:`mps_message_get` and
not yet discarded. It must be a garbage collection message: see
:c:func:`mps_message_type_gc`.
The "condemned size" property is the approximate :term:`size` of
the :term:`condemned set` in the :term:`garbage collection` that
generated the message.
.. seealso::
:ref:`topic-message`.
.. c:function:: size_t mps_message_gc_live_size(mps_arena_t arena, mps_message_t message)
Return the "live size" property of a :term:`message`.
``arena`` is the arena which posted the message.
``message`` is a message retrieved by :c:func:`mps_message_get` and
not yet discarded. It must be a garbage collection message: see
:c:func:`mps_message_type_gc`.
The "live size" property is the total size of the set of objects
that survived the :term:`garbage collection` that generated the
message.
.. seealso::
:ref:`topic-message`.
.. c:function:: size_t mps_message_gc_not_condemned_size(mps_arena_t arena, mps_message_t message)
Return the "not condemned size" property of a :term:`message`.
``arena`` is the arena which posted the message.
``message`` is a message retrieved by :c:func:`mps_message_get` and
not yet discarded. It must be a garbage collection message: see
:c:func:`mps_message_type_gc`.
The "not condemned size" property is the approximate size of the
set of objects that were in collected :term:`pools`, but
were not in the :term:`condemned set` in the :term:`garbage
collection` that generated the message.
.. seealso::
:ref:`topic-message`.