@Name(value="c10::intrusive_ptr<c10::ivalue::Future>") @NoOffset @Properties(inherit=torch.class) public class FuturePtr extends Pointer
Pointer.CustomDeallocator, Pointer.Deallocator, Pointer.NativeDeallocator, Pointer.ReferenceCounter
Constructor and Description |
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FuturePtr() |
FuturePtr(Future target,
DontIncreaseRefcount arg1) |
FuturePtr(FuturePtr rhs) |
FuturePtr(long size)
Native array allocator.
|
FuturePtr(Pointer p)
Pointer cast constructor.
|
FuturePtr(PointerPointer arg0) |
Modifier and Type | Method and Description |
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Future |
access() |
boolean |
asBoolean() |
boolean |
defined() |
Future |
get() |
FuturePtr |
getPointer(long i) |
Future |
multiply() |
FuturePtr |
position(long position) |
FuturePtr |
put(FuturePtr rhs) |
static FuturePtr |
reclaim_copy(Future owning_ptr)
Takes an owning pointer to TTarget* and creates an intrusive_ptr
representing a new reference, i.e.
|
static FuturePtr |
reclaim(Future owning_ptr)
Takes an owning pointer to TTarget* and creates an intrusive_ptr that takes
over ownership.
|
Future |
release()
Returns an owning (!) pointer to the underlying object and makes the
intrusive_ptr instance invalid.
|
void |
reset() |
void |
swap(FuturePtr rhs) |
boolean |
unique() |
static FuturePtr |
unsafe_adapt_non_heap_allocated(Future raw_ptr,
long expected_decrefs)
Turn an instance of TTarget that should not be reference counted
(e.g., allocated into an arena with placement new) into an
intrusive_ptr.
|
static FuturePtr |
unsafe_reclaim_from_nonowning(Future raw_ptr)
Turn a **non-owning raw pointer** to an intrusive_ptr.
|
static FuturePtr |
unsafe_steal_from_new(Future raw_ptr)
Turn a new instance of TTarget (e.g., literally allocated
using new TTarget(...) into an intrusive_ptr.
|
long |
use_count() |
long |
weak_use_count() |
address, asBuffer, asByteBuffer, availablePhysicalBytes, calloc, capacity, capacity, close, deallocate, deallocate, deallocateReferences, deallocator, deallocator, equals, fill, formatBytes, free, getDirectBufferAddress, getPointer, getPointer, getPointer, hashCode, interruptDeallocatorThread, isNull, isNull, limit, limit, malloc, maxBytes, maxPhysicalBytes, memchr, memcmp, memcpy, memmove, memset, offsetAddress, offsetof, offsetof, parseBytes, physicalBytes, physicalBytesInaccurate, position, put, realloc, referenceCount, releaseReference, retainReference, setNull, sizeof, sizeof, toString, totalBytes, totalCount, totalPhysicalBytes, withDeallocator, zero
public FuturePtr(Pointer p)
Pointer(Pointer)
.public FuturePtr(long size)
Pointer.position(long)
.public FuturePtr()
public FuturePtr(@ByVal @Cast(value="std::nullptr_t*") PointerPointer arg0)
public FuturePtr(Future target, @ByVal DontIncreaseRefcount arg1)
public FuturePtr getPointer(long i)
getPointer
in class Pointer
@ByRef @Name(value="operator =") @NoException(value=true) public FuturePtr put(@ByRef(value=true) FuturePtr rhs)
@NoException(value=true) public Future get()
@Name(value="operator ->") @NoException(value=true) public Future access()
@Cast(value="bool") @Name(value="operator bool") @NoException(value=true) public boolean asBoolean()
@NoException(value=true) public void reset()
@NoException(value=true) public void swap(@ByRef FuturePtr rhs)
@Cast(value="bool") @NoException(value=true) public boolean defined()
@Cast(value="size_t") @NoException(value=true) public long use_count()
@Cast(value="size_t") @NoException(value=true) public long weak_use_count()
@Cast(value="bool") @NoException(value=true) public boolean unique()
@NoException(value=true) public Future release()
@ByVal public static FuturePtr reclaim(Future owning_ptr)
@ByVal public static FuturePtr reclaim_copy(Future owning_ptr)
@ByVal public static FuturePtr unsafe_steal_from_new(Future raw_ptr)
@ByVal public static FuturePtr unsafe_adapt_non_heap_allocated(Future raw_ptr, @Cast(value="size_t") long expected_decrefs)
expected_decrefs
is a debugging parameter: it indicates the
number of strong owners the intrusive_ptr_target in question is
expected to get. In most use cases, this will likely be 1.
The reason this method exists is for manually sharing
StorageImpls across Tensors in the static runtime. It needs
access to private intrusive_ptr members so that the refcounts can
be initialized to custom values.@ByVal public static FuturePtr unsafe_reclaim_from_nonowning(Future raw_ptr)
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