Report a bug
If you spot a problem with this page, click here to create a Bugzilla issue.
Improve this page
Quickly fork, edit online, and submit a pull request for this page.
Requires a signed-in GitHub account. This works well for small changes.
If you'd like to make larger changes you may want to consider using
a local clone.
std.experimental.allocator.building_blocks.allocator_list
- struct
AllocatorList
(Factory, BookkeepingAllocator = GCAllocator);
templateAllocatorList
(alias factoryFunction, BookkeepingAllocator = GCAllocator) - Given an object factory of type Factory or a factory function factoryFunction, and optionally also BookkeepingAllocator as a supplemental allocator for bookkeeping,
AllocatorList
creates an allocator that lazily creates as many allocators are needed for satisfying client allocation requests.An embedded list builds a most-recently-used strategy: the most recent allocators used in calls to either allocate, owns (successful calls only), or deallocate are tried for new allocations in order of their most recent use. Thus, although core operations take in theory Ο(k) time for k allocators in current use, in many workloads the factor is sublinear. Details of the actual strategy may change in future releases.AllocatorList
is primarily intended for coarse-grained handling of allocators, i.e. the number of allocators in the list is expected to be relatively small compared to the number of allocations handled by each allocator. However, the per-allocator overhead is small so usingAllocatorList
with a large number of allocators should be satisfactory as long as the most-recently-used strategy is fast enough for the application.AllocatorList
makes an effort to return allocated memory back when no longer used. It does so by destroying empty allocators. However, in order to avoid thrashing (excessive creation/destruction of allocators under certain use patterns), it keeps unused allocators for a while.Parameters:factoryFunction A function or template function (including function literals). New allocators are created by calling factoryFunction(n) with strictly positive numbers n. Delegates that capture their enviroment are not created amid concerns regarding garbage creation for the environment. When the factory needs state, a Factory object should be used. BookkeepingAllocator Allocator used for storing bookkeeping data. The size of bookkeeping data is proportional to the number of allocators. If BookkeepingAllocator is NullAllocator, then AllocatorList
is "ouroboros-style", i.e. it keeps the bookkeeping data in memory obtained from the allocators themselves. Note that for ouroboros-style management, the size n passed to make will be occasionally different from the size requested by client code.Factory Type of a factory object that returns new allocators on a need basis. For an object sweatshop of type Factory, sweatshop(n) should return an allocator able to allocate at least n bytes (i.e. Factory must define opCall(size_t) to return an allocator object). Usually the capacity of allocators created should be much larger than n such that an allocator can be used for many subsequent allocations. n is passed only to ensure the minimum necessary for the next allocation. The factory object is allowed to hold state, which will be stored inside AllocatorList
as a direct public member called factory.Examples:import std.algorithm.comparison : max; import std.experimental.allocator.building_blocks.free_list : ContiguousFreeList; import std.experimental.allocator.building_blocks.null_allocator : NullAllocator; import std.experimental.allocator.building_blocks.region : Region; import std.experimental.allocator.building_blocks.segregator : Segregator; import std.experimental.allocator.gc_allocator : GCAllocator; import std.experimental.allocator.mmap_allocator : MmapAllocator; // Ouroboros allocator list based upon 4MB regions, fetched directly from // mmap. All memory is released upon destruction. alias A1 = AllocatorList!((n) => Region!MmapAllocator(max(n, 1024 * 4096)), NullAllocator); // Allocator list based upon 4MB regions, fetched from the garbage // collector. All memory is released upon destruction. alias A2 = AllocatorList!((n) => Region!GCAllocator(max(n, 1024 * 4096))); // Ouroboros allocator list based upon 4MB regions, fetched from the garbage // collector. Memory is left to the collector. alias A3 = AllocatorList!( (n) => Region!NullAllocator(new ubyte[max(n, 1024 * 4096)]), NullAllocator); // Allocator list that creates one freelist for all objects alias A4 = Segregator!( 64, AllocatorList!( (n) => ContiguousFreeList!(NullAllocator, 0, 64)( cast(ubyte[])(GCAllocator.instance.allocate(4096)))), GCAllocator); A4 a; auto small = a.allocate(64); assert(small); a.deallocate(small); auto b1 = a.allocate(1024 * 8192); assert(b1 !is null); // still works due to overdimensioning b1 = a.allocate(1024 * 10); writeln(b1.length); // 1024 * 10
- alias
Allocator
= typeof(Factory.init(1)); - Alias for typeof(Factory()(1)), i.e. the type of the individual allocators.
- BookkeepingAllocator
bkalloc
; - If BookkeepingAllocator is not NullAllocator,
bkalloc
is defined and accessible. - this(ref Factory
plant
);
this(Factoryplant
); - Constructs an AllocatorList given a factory object. This constructor is defined only if Factory has state.
- enum uint
alignment
; - The alignment offered.
- void[]
allocate
(size_ts
); - Allocate a block of size
s
. First tries to allocate from the existing list of already-created allocators. If neither can satisfy the request, creates a new allocator by calling make(s
) and delegates the request to it. However, if the allocation fresh off a newly created allocator fails, subsequent calls toallocate
will not cause more calls to make. - void[]
alignedAllocate
(size_ts
, uinttheAlignment
); - Allocate a block of size
s
with alignment a. First tries to allocate from the existing list of already-created allocators. If neither can satisfy the request, creates a new allocator by calling make(s
+ a - 1) and delegates the request to it. However, if the allocation fresh off a newly created allocator fails, subsequent calls toalignedAllocate
will not cause more calls to make. - Ternary
owns
(void[]b
); - Defined only if Allocator defines
owns
. Tries each allocator in turn, in most-recently-used order. If the owner is found, it is moved to the front of the list as a side effect under the assumption it will be used soon.Returns:Ternary.yes if one allocator was found to return Ternary.yes, Ternary.no if all component allocators returned Ternary.no, and Ternary.unknown if no allocator returned Ternary.yes and at least one returned Ternary.unknown. - bool
expand
(ref void[]b
, size_tdelta
); - Defined only if Allocator.
expand
is defined. Finds the owner ofb
and callsexpand
for it. The owner is not brought to the head of the list. - bool
reallocate
(ref void[]b
, size_ts
); - Defined only if Allocator.
reallocate
is defined. Finds the owner ofb
and callsreallocate
for it. If that fails, calls the globalreallocate
, which allocates a new block and moves memory. - bool
deallocate
(void[]b
); - Defined if Allocator.
deallocate
and Allocator.owns are defined. - bool
deallocateAll
(); - Defined only if Allocator.owns and Allocator.
deallocateAll
are defined. - const pure nothrow @nogc @safe Ternary
empty
(); - Returns Ternary.yes if no allocators are currently active, Ternary.no otherwise. This methods never returns Ternary.unknown.
Copyright © 1999-2022 by the D Language Foundation | Page generated by
Ddoc on (no date time)