PMDK C++ bindings
1.5.2
This is the C++ bindings documentation for PMDK's libpmemobj.
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Persistent pointer class. More...
#include <libpmemobj++/persistent_ptr.hpp>
Public Types | |
template<class U > | |
using | rebind = pmem::obj::persistent_ptr< U > |
Rebind to a different type of pointer. | |
using | persistency_type = p< T > |
The persistency type to be used with this pointer. | |
using | bool_type = bool |
The used bool_type. | |
using | iterator_category = std::random_access_iterator_tag |
The persistent_ptr iterator category. | |
using | difference_type = std::ptrdiff_t |
The persistent_ptr difference type. | |
using | value_type = T |
The type of the value pointed to by the persistent_ptr. | |
using | reference = T & |
The reference type of the value pointed to by the persistent_ptr. | |
using | pointer = persistent_ptr< T > |
The pointer type. | |
Public Member Functions | |
persistent_ptr (persistent_ptr< void > const &rhs) noexcept | |
Explicit void specialization of the converting constructor. | |
persistent_ptr (persistent_ptr< const void > const &rhs) noexcept | |
Explicit const void specialization of the converting constructor. | |
operator persistent_ptr< void > () const noexcept | |
Persistent pointer to void conversion operator. | |
pmem::detail::sp_dereference< T >::type | operator* () const noexcept |
Dereference operator. | |
pmem::detail::sp_member_access< T >::type | operator-> () const noexcept |
Member access operator. | |
template<typename = typename std::enable_if<!std::is_void<T>::value>> | |
pmem::detail::sp_array_access< T >::type | operator[] (std::ptrdiff_t i) const noexcept |
Array access operator. More... | |
persistent_ptr< T > & | operator++ () |
Prefix increment operator. | |
persistent_ptr< T > | operator++ (int) |
Postfix increment operator. | |
persistent_ptr< T > & | operator-- () |
Prefix decrement operator. | |
persistent_ptr< T > | operator-- (int) |
Postfix decrement operator. | |
persistent_ptr< T > & | operator+= (std::ptrdiff_t s) |
Addition assignment operator. | |
persistent_ptr< T > & | operator-= (std::ptrdiff_t s) |
Subtraction assignment operator. | |
void | persist (pool_base &pop) |
Persists the content of the underlying object. More... | |
void | persist (void) |
Persists what the persistent pointer points to. More... | |
void | flush (pool_base &pop) |
Flushes what the persistent pointer points to. More... | |
void | flush (void) |
Flushes what the persistent pointer points to. More... | |
Static Public Member Functions | |
static persistent_ptr< T > | pointer_to (T &ref) |
Create a persistent pointer from a given reference. More... | |
Persistent pointer class.
persistent_ptr implements a smart ptr. It encapsulates the PMEMoid fat pointer and provides member access, dereference and array access operators.
Template parameter type has following requirements:
Even if all of the above requirements are met, type representation may vary depending on ABI and compiler optimizations (as stated in [class.mem]: "the order of allocation of non-static data members with different access control is unspecified"). To enforce the same layout for all ABIs and optimization levels type should satisfy StandardLayoutType requirement.
If persistent_ptr is used with array type, additional requirement is:
The persistent_ptr is not designed to work with polymorphic types, as they have runtime RTTI info embedded, which is implementation specific and thus not consistently rebuildable. Such constructs as polymorphic members or members of a union defined within a class held in a persistent_ptr will also yield undefined behavior.
C++ standard states that lifetime of an object is a runtime property [basic.lifetime]. Conditions which must be fulfilled for object's lifetime to begin, imply that using any non-trivially constructible object with persistent_ptr is undefined behaviour. This is being partially addressed by the following proposal: https://groups.google.com/a/isocpp.org/forum/#!topic/std-proposals/bk8esqk-Qoo
Another caveat is that snapshotting elements in a transaction and performing rollback uses memcpy internally. Using memcpy on an object in C++ is allowed by the standard only if the type satisfies TriviallyCopyable requirement.
This type does NOT manage the life-cycle of the object. The typical usage example would be:
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inline |
Flushes what the persistent pointer points to.
[in] | pop | Pmemobj pool |
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inline |
Flushes what the persistent pointer points to.
pool_error | when cannot get pool from persistent pointer |
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inlinenoexcept |
Array access operator.
Contains run-time bounds checking for static arrays.
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inline |
Persists the content of the underlying object.
[in] | pop | Pmemobj pool |
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inline |
Persists what the persistent pointer points to.
pool_error | when cannot get pool from persistent pointer |
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inlinestatic |
Create a persistent pointer from a given reference.
This can create a persistent_ptr to a volatile object, use with extreme caution.
ref | reference to an object. |