The OpenD Programming Language

AffixAllocator

Allocator that adds some extra data before (of type Prefix) and/or after (of type Suffix) any allocation made with its parent allocator. This is useful for uses where additional allocation-related information is needed, such as mutexes, reference counts, or walls for debugging memory corruption errors.

If Prefix is not void, Allocator must guarantee an alignment at least as large as Prefix.alignof.

Suffixes are slower to get at because of alignment rounding, so prefixes should be preferred. However, small prefixes blunt the alignment so if a large alignment with a small affix is needed, suffixes should be chosen.

The following methods are defined if Allocator defines them, and forward to it: deallocateAll, empty, owns.

struct AffixAllocator (
Allocator
Prefix
Suffix = void
) {
static if(!(hasStaticallyKnownAlignment!Allocator))
static if(is(Prefix == void))
enum uint alignment;
static if(!(hasStaticallyKnownAlignment!Allocator))
static if(!(is(Prefix == void)))
enum uint alignment;
version(!StdDdoc)
static shared
static if(is(typeof(Allocator.instance) == shared))
AffixAllocator instance;
version(!StdDdoc)
__gshared
static if(!(is(typeof(Allocator.instance) == shared)))
static if(!(is(Allocator == shared)))
static if(stateSize!Allocator == 0)
AffixAllocator instance;
}

Members

Functions

allocate
void[] allocate(size_t )
deallocate
bool deallocate(void[] b)
deallocateAll
bool deallocateAll()
empty
Ternary empty()
expand
bool expand(void[] b, size_t delta)

Standard allocator methods. Each is defined if and only if the parent allocator defines the homonym method (except for goodAllocSize, which may use the global default). Also, the methods will be shared if the parent allocator defines them as such.

goodAllocSize
size_t goodAllocSize(size_t )
owns
Ternary owns(void[] )
reallocate
bool reallocate(void[] b, size_t s)

Standard allocator methods. Each is defined if and only if the parent allocator defines the homonym method (except for goodAllocSize, which may use the global default). Also, the methods will be shared if the parent allocator defines them as such.

suffix
auto ref suffix(T[] b)

Affix access functions offering references to the affixes of a block b previously allocated with this allocator. b may not be null. They are defined if and only if the corresponding affix is not void.

Static functions

prefix
auto ref prefix(T[] b)

Affix access functions offering references to the affixes of a block b previously allocated with this allocator. b may not be null. They are defined if and only if the corresponding affix is not void.

Static variables

instance
AffixAllocator instance;

The instance singleton is defined if and only if the parent allocator has no state and defines its own it object.

Variables

_parent
Allocator _parent;

If the parent allocator Allocator is stateful, an instance of it is stored as a member. Otherwise, AffixAllocator uses Allocator.instance. In either case, the name _parent is uniformly used for accessing the parent allocator.

alignment
enum uint alignment;

If Prefix is void, the alignment is that of the parent. Otherwise, the alignment is the same as the Prefix's alignment.

Examples

import std.experimental.allocator.mallocator : Mallocator;
// One word before and after each allocation.
alias A = AffixAllocator!(Mallocator, size_t, size_t);
auto b = A.instance.allocate(11);
A.instance.prefix(b) = 0xCAFE_BABE;
A.instance.suffix(b) = 0xDEAD_BEEF;
assert(A.instance.prefix(b) == 0xCAFE_BABE
    && A.instance.suffix(b) == 0xDEAD_BEEF);

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