autoptr ~main
Smart pointers.
To use this package, run the following command in your project's root directory:
Manual usage
Put the following dependency into your project's dependences section:
Autoptr
Content of autpotr repository was moved to BTL repository as subpackage btl:autoptr
Documentation
https://submada.github.io/btl
C++-style smart pointers for D.
This library contains:
SharedPtr
is a smart pointer that retains shared ownership of an object through a pointer. Support weak pointers and aliasing like C++ std::shared_ptr. Pointer to managed object is separated from pointer to control block conataining reference counter.SharedPtr
contains 2 pointers or 2 pointers + length if managed object is slice).RcPtr
is a smart pointer that retains shared ownership of an object through a pointer. Support weak pointers and only limited aliasing unlikeSharedPtr
. Managed object must be allcoated with control block (reference counter) in one continuous memory block.RcPtr
contains only 1 pointer or 1 pointer + length if managed object is slice.IntrusivePtr
is a smart pointer that retains shared ownership of an object through a pointer. Support weak pointers and only limited aliasing unlikeSharedPtr
. Managed object must contain control block (autoptr.common.ControlBlock
).IntrusivePtr
contains only 1 pointer and type of managed object must bestruct
orclass
UniquePtr
is a smart pointer that owns and manages object through a pointer and disposes of that object when theUniquePtr
goes out of scope.UniquePtr
is alias toRcPtr
with immutable_ControlType
.
SharedPtr
, RcPtr
and UniquePtr
have 3 template parameters:
_Type
type of managed object._DestructorType
type reprezenting attributes of destructor for managed object.- This parameter is inferred from parameter
_Type
like this:autoptr.common.DestructorType!_Type
. _ControlType
type representing control block. This parameter specify reference counting for smart pointer.- Default value for
UniquePtr
isautoptr.common.ControlBlock!void
which mean that there is no reference counting. - Default value for
SharedPtr
andRefPtr
isautoptr.common.ControlBlock!(int, int)
which mean that type of reference counter is int and weak reference counter type is int.autoptr.common.ControlBlock!(int, void)
disable weak reference counting. - If control block is shared then reference counting is atomic. Qualiffier shared is inferred from
_Type
for_ControlType
. If_Type
is shared then_ControlType
is shared too.
IntrusivePtr
has only 1 template parameters, _Type
.
_DestructorType
is inferred from_Type
._ControlType
is inferred from_Type
.
Smart pointers can be created with static methods make
and alloc
.
make
create smart pointer with stateless allocator (defaultMallocator
)alloc
create smart pointer using allocator with state. Allocator is saved in control block.
Constructors of smart pointers never allocate memory, only static methods make
and alloc
allocate.
@safe:
- Creating smart pointer with
make
oralloc
is @safe if constructor of type_Type
is @safe (assumption is that constructor doesn't leakthis
pointer). - Smart pointers assume that deallocation with custom allocator is @safe if allocation is @safe even if method
deallcoate
is @system. - Methods returning reference/pointer (
get()
,element()
,opUnary!"*"()
) to managed object are all @system because of this:auto trustedGet(Ptr)(ref scope Ptr ptr)@trusted{ return ptr.get(); }
struct S{
long x; this(long x)@safe{ this.x = x; } ~this()@safe{ this.x = -1; }
}
void main()@safe{
auto p = SharedPtr!S.make(42); (scope ref S s)@safe{ assert(s.x == 42); p = null; ///release pointer assert(s.x == -1); ///`s` is dangling reference }(p.trustedGet);
}
@safe access to managed object:
struct S{ long x;
this(long x)@safe{ this.x = x; } ~this()@safe{ this.x = -1; }
}
void main()@safe{
auto p = SharedPtr!S.make(42); p.apply!((scope ref S s)@safe{ assert(p.useCount == 2); assert(s.x == 42); p = null; ///release assert(s.x == 42); ///`s` is NOT dangling reference });
}
Examples
class Foo{
int i;
this(int i)pure nothrow @safe @nogc{
this.i = i;
}
}
class Bar : Foo{
double d;
this(int i, double d)pure nothrow @safe @nogc{
super(i);
this.d = d;
}
}
class Zee : Bar{
bool b;
this(int i, double d, bool b)pure nothrow @safe @nogc{
super(i, d);
this.b = b;
}
~this()nothrow @system{
}
}
SharedPtr
unittest{
///simple:
{
SharedPtr!long a = SharedPtr!long.make(42);
assert(a.useCount == 1);
SharedPtr!(const long) b = a;
assert(a.useCount == 2);
SharedPtr!long.WeakType w = a.weak; //or WeakPtr!long
assert(a.useCount == 2);
assert(a.weakCount == 1);
SharedPtr!long c = w.lock;
assert(a.useCount == 3);
assert(a.weakCount == 1);
assert(*c == 42);
assert(c.get == 42);
}
///polymorphism and aliasing:
{
///create SharedPtr
SharedPtr!Foo foo = SharedPtr!Bar.make(42, 3.14);
SharedPtr!Zee zee = SharedPtr!Zee.make(42, 3.14, false);
///dynamic cast:
SharedPtr!Bar bar = dynCast!Bar(foo);
assert(bar != null);
assert(foo.useCount == 2);
///this doesnt work because Foo destructor attributes are more restrictive then Zee's:
//SharedPtr!Foo x = zee;
///this does work:
SharedPtr!(Foo, DestructorType!(Foo, Zee)) x = zee;
assert(zee.useCount == 2);
///aliasing (shared ptr `d` share ref counting with `bar`):
SharedPtr!double d = SharedPtr!double(bar, &bar.get.d);
assert(d != null);
assert(*d == 3.14);
assert(foo.useCount == 3);
}
///multi threading:
{
///create SharedPtr with atomic ref counting
SharedPtr!(shared Foo) foo = SharedPtr!(shared Bar).make(42, 3.14);
///this doesnt work:
//foo.get.i += 1;
import core.atomic : atomicFetchAdd;
atomicFetchAdd(foo.get.i, 1);
assert(foo.get.i == 43);
///creating `shared(SharedPtr)`:
shared SharedPtr!(shared Bar) bar = share(dynCast!Bar(foo));
///`shared(SharedPtr)` is not lock free but `RcPtr` is lock free.
static assert(typeof(bar).isLockFree == false);
///multi thread operations (`load`, `store`, `exchange` and `compareExchange`):
SharedPtr!(shared Bar) bar2 = bar.load();
assert(bar2 != null);
assert(bar2.useCount == 3);
SharedPtr!(shared Bar) bar3 = bar.exchange(null);
assert(bar3 != null);
assert(bar3.useCount == 3);
}
///dynamic array:
{
import std.algorithm : all, equal;
SharedPtr!(long[]) a = SharedPtr!(long[]).make(10, -1);
assert(a.length == 10);
assert(a.get.length == 10);
assert(a.get.all!(x => x == -1));
for(long i = 0; i < a.length; ++i){
a.get[i] = i;
}
assert(a.get[] == [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]);
///aliasing:
SharedPtr!long a6 = SharedPtr!long(a, &a.get[6]);
assert(*a6 == a.get[6]);
}
}
UniquePtr:
unittest{
import core.lifetime : move;
///simple:
{
UniquePtr!long a = UniquePtr!long.make(42);
UniquePtr!(const long) b = move(a);
assert(a == null);
assert(*b == 42);
assert(b.get == 42);
}
///polymorphism:
{
///create UniquePtr
UniquePtr!Foo foo = UniquePtr!Bar.make(42, 3.14);
UniquePtr!Zee zee = UniquePtr!Zee.make(42, 3.14, false);
///dynamic cast:
UniquePtr!Bar bar = dynCastMove!Bar(foo);
assert(foo == null);
assert(bar != null);
///this doesnt work because Foo destructor attributes are more restrictive then Zee's:
//UniquePtr!Foo x = move(zee);
///this does work:
UniquePtr!(Foo, DestructorType!(Foo, Zee)) x = move(zee);
assert(zee == null);
}
///multi threading:
{
///create SharedPtr with atomic ref counting
UniquePtr!(shared Foo) foo = UniquePtr!(shared Bar).make(42, 3.14);
///this doesnt work:
//foo.get.i += 1;
import core.atomic : atomicFetchAdd;
atomicFetchAdd(foo.get.i, 1);
assert(foo.get.i == 43);
///creating `shared(UniquePtr)`:
shared UniquePtr!(shared Bar) bar = share(dynCastMove!Bar(foo));
///`shared(UniquePtr)` is lock free.
static assert(typeof(bar).isLockFree == true);
///multi thread operations (`store`, `exchange`):
UniquePtr!(shared Bar) bar2 = bar.exchange(null);
}
///dynamic array:
{
import std.algorithm : all, equal;
UniquePtr!(long[]) a = UniquePtr!(long[]).make(10, -1);
assert(a.length == 10);
assert(a.get.length == 10);
assert(a.get.all!(x => x == -1));
for(long i = 0; i < a.length; ++i){
a.get[i] = i;
}
assert(a.get[] == [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]);
}
}
RcPtr:
unittest{
///simple:
{
RcPtr!long a = RcPtr!long.make(42);
assert(a.useCount == 1);
RcPtr!(const long) b = a;
assert(a.useCount == 2);
RcPtr!long.WeakType w = a.weak; //or WeakRcPtr!long
assert(a.useCount == 2);
assert(a.weakCount == 1);
RcPtr!long c = w.lock;
assert(a.useCount == 3);
assert(a.weakCount == 1);
assert(*c == 42);
assert(c.get == 42);
}
///polymorphism and aliasing:
{
///create RcPtr
RcPtr!Foo foo = RcPtr!Bar.make(42, 3.14);
RcPtr!Zee zee = RcPtr!Zee.make(42, 3.14, false);
///dynamic cast:
RcPtr!Bar bar = dynCast!Bar(foo);
assert(bar != null);
assert(foo.useCount == 2);
///this doesnt work because Foo destructor attributes are more restrictive then Zee's:
//RcPtr!Foo x = zee;
///this does work:
RcPtr!(Foo, DestructorType!(Foo, Zee)) x = zee;
assert(zee.useCount == 2);
}
///multi threading:
{
///create RcPtr with atomic ref counting
RcPtr!(shared Foo) foo = RcPtr!(shared Bar).make(42, 3.14);
///this doesnt work:
//foo.get.i += 1;
import core.atomic : atomicFetchAdd;
atomicFetchAdd(foo.get.i, 1);
assert(foo.get.i == 43);
///creating `shared(RcPtr)`:
shared RcPtr!(shared Bar) bar = share(dynCast!Bar(foo));
///`shared(RcPtr)` is lock free (except `load` and `useCount`/`weakCount`).
static assert(typeof(bar).isLockFree == true);
///multi thread operations (`load`, `store`, `exchange` and `compareExchange`):
RcPtr!(shared Bar) bar2 = bar.load();
assert(bar2 != null);
assert(bar2.useCount == 3);
RcPtr!(shared Bar) bar3 = bar.exchange(null);
assert(bar3 != null);
assert(bar3.useCount == 3);
}
///dynamic array:
{
import std.algorithm : all, equal;
RcPtr!(long[]) a = RcPtr!(long[]).make(10, -1);
assert(a.length == 10);
assert(a.get.length == 10);
assert(a.get.all!(x => x == -1));
for(long i = 0; i < a.length; ++i){
a.get[i] = i;
}
assert(a.get[] == [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]);
}
}
IntrusivePtr:
nothrow unittest{
static struct Struct{
ControlBlock!(int, int) control;
int i;
this(int i)pure nothrow @safe @nogc{
this.i = i;
}
}
static class Base{
int i;
ControlBlock!(int, int) control;
this(int i)pure nothrow @safe @nogc{
this.i = i;
}
}
static class Derived : Base{
double d;
this(int i, double d)pure nothrow @safe @nogc{
super(i);
this.d = d;
}
}
static class Class : Derived{
bool b;
this(int i, double d, bool b)pure nothrow @safe @nogc{
super(i, d);
this.b = b;
}
/+~this()nothrow @system{
}+/
}
///simple:
{
IntrusivePtr!Struct a = IntrusivePtr!Struct.make(42);
assert(a.useCount == 1);
IntrusivePtr!(const Struct) b = a;
assert(a.useCount == 2);
IntrusivePtr!Struct.WeakType w = a.weak;
assert(a.useCount == 2);
assert(a.weakCount == 1);
IntrusivePtr!Struct c = w.lock;
assert(a.useCount == 3);
assert(a.weakCount == 1);
assert(c.get.i == 42);
}
///polymorphism and aliasing:
{
///create IntrusivePtr
IntrusivePtr!Base foo = IntrusivePtr!Derived.make(42, 3.14);
IntrusivePtr!Class zee = IntrusivePtr!Class.make(42, 3.14, false);
///dynamic cast:
IntrusivePtr!Derived bar = dynCast!Derived(foo);
assert(bar != null);
assert(foo.useCount == 2);
///this doesnt work because Foo destructor attributes are more restrictive then Class's:
//IntrusivePtr!Class x = zee;
///this does work:
IntrusivePtr!Base x = zee;
assert(zee.useCount == 2);
}
///multi threading:
{
///create IntrusivePtr with atomic ref counting
IntrusivePtr!(shared Base) foo = IntrusivePtr!(shared Derived).make(42, 3.14);
///this doesnt work:
//foo.get.i += 1;
import core.atomic : atomicFetchAdd;
atomicFetchAdd(foo.get.i, 1);
assert(foo.get.i == 43);
///creating `shared(IntrusivePtr)`:
shared IntrusivePtr!(shared Derived) bar = share(dynCast!Derived(foo));
///`shared(IntrusivePtr)` is lock free (except `load` and `useCount`/`weakCount`).
static assert(typeof(bar).isLockFree == true);
///multi thread operations (`load`, `store`, `exchange` and `compareExchange`):
IntrusivePtr!(shared Derived) bar2 = bar.load();
assert(bar2 != null);
assert(bar2.useCount == 3);
IntrusivePtr!(shared Derived) bar3 = bar.exchange(null);
assert(bar3 != null);
assert(bar3.useCount == 3);
}
}
- ~main released 2 years ago
- submada/autoptr
- Boost Software License - Version 1.0
- Copyright © 2022, Adam Búš
- Authors:
- Dependencies:
- btl:autoptr
- Versions:
-
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