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FIFO_Sloppy_Collection
is a COLLECTION
meant to be used as a building block in a cache: specifically a cache with a First In First Out replacement policy.
Attempting to insert a supernumerary element causes the oldest least-recently write-promoted (i.e., the least-recently added) element to be removed. Thus, the cache implementation simply needs to use promote_read
and promote_write
according to cache accesses to obtain a FIFO replacement policy.
In addition, accounting in FIFO_Sloppy_Collection
is sloppy: remove
d elements count towards the size-bound until enough elements have been inserted that the removed elements disappears.
node
s are boxes that contain data. Boxes are never meant to be returned to the end user (they can be unsafe), they are meant to build some abstraction on top of the buffer.
In order to make the module safe and remove all notion of box, use the functor Misc.Unbox
.
val data : 'a node -> 'a
data n
is the value contained in the node n
.
val create : int -> 'a t
create n
allocates a buffer that can hold up to n
elements.
val capacity : 'a t -> int
capacity b
is the number of elements that b
can hold.
val length : 'a t -> int
length b
is the number of elements that are currently in b
.
add b v
adds the value v
to the buffer b
. If the buffer b
already has capacity b
values, then a value is dropped.
adds b v
returns the node containing the value v
. This node can be used to promote
or remove
the value v
from the buffer b
.
add_and_return_erased b v
has the same effect as add b v
but it returns the dropped value when applicable (and None
otherwise).
add_list b vs
adds each element of the list vs
in the order they appear in the list. It returns a list of nodes, for each of the inserted elements.
If length vs > capacity b
, then each value from vs
is added, but the ones at the front of the list are popped. In this case, add_list b vs
returns a list of capacity b
nodes only.
val clear : 'a t -> unit
clear b
removes all values from the buffer b
.
fold b ~init ~f
folds over the value of the buffer b
, newest to oldest.
fold_oldest_first b ~init ~f
folds over the value of the buffer b
, oldest to newest.
elements b
is a list of nodes from b
. They appear oldest first, newest last.
val elements_data : 'a t -> 'a list
elements_data b
is a list of the data content of the nodes of b
. It is equivalent to List.map data (elements b)
but with better performance.
oldest_element b
returns the oldest inserted element from the buffer b
if any.
newest_element b
returns the oldest inserted element from the buffer b
if any.
remove b n
removes the node n
from the buffer b
.
The behavior of this function is undefined if n
is not part of b
, i.e., if List.exists ((==) n) (elements b)
is false
.
It is the responsibility of the user of this library (presumably, another library wrapping the primitives of this one) to ensure this is never the case.
remove_oldest b
removes and returns the oldest inserted element from the buffer b
or None
if the buffer is empty.
remove_newest b
removes and returns the most recently inserted element from the buffer b
or None
if the buffer is empty.
promote b n
places the node n
to the front of the buffer b
, making the node n
the newest of the nodes of the buffer b
.
promote b n
is similar to remove b n; ignore (add b @@ data n)
except that: it is more efficient, and it keeps the value data n
in the same node it was originally inserted in.
The behavior of this function is undefined if n
is not part of b
, i.e., if List.exists ((==) n) (elements b)
is false
.