MySQL 8.0.40
Source Code Documentation
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Lock-free, fixed-size bounded, multiple-producer (MP), multiple-consumer (MC), circular FIFO queue for integral elements. More...
#include <integrals_lockfree_queue.h>
Classes | |
class | Iterator |
Iterator helper class to iterate over the queue staring at the virtual index pointed to by the head, up until the virtual index pointed to by the tail. More... | |
Public Types | |
enum class | enum_queue_state : short { SUCCESS = 0 , NO_MORE_ELEMENTS = -1 , NO_SPACE_AVAILABLE = -2 } |
using | pointer_type = T * |
using | const_pointer_type = T const * |
using | reference_type = T & |
using | const_reference_type = T const & |
using | value_type = T |
using | const_value_type = T const |
using | element_type = std::atomic< T > |
using | index_type = unsigned long long |
using | array_type = container::Atomics_array< T, I, A > |
using | atomic_type = memory::Aligned_atomic< index_type > |
Public Member Functions | |
template<typename D = T, T M = Null, T F = Erased, typename J = I, typename B = A, std::enable_if_t<!std::is_same< B, std::nullptr_t >::value > * = nullptr> | |
Integrals_lockfree_queue (A &alloc, size_t size) | |
Constructor allowing a specific memory allocator and a specific queue capacity. More... | |
template<typename D = T, T M = Null, T F = Erased, typename J = I, typename B = A, std::enable_if_t< std::is_same< B, std::nullptr_t >::value > * = nullptr> | |
Integrals_lockfree_queue (size_t size) | |
Constructor allowing specific queue capacity. More... | |
Integrals_lockfree_queue (Integrals_lockfree_queue< T, Null, Erased, I, A > const &rhs)=delete | |
Integrals_lockfree_queue (Integrals_lockfree_queue< T, Null, Erased, I, A > &&rhs)=delete | |
virtual | ~Integrals_lockfree_queue ()=default |
Destructor for the class. More... | |
Integrals_lockfree_queue< T, Null, Erased, I, A > & | operator= (Integrals_lockfree_queue< T, Null, Erased, I, A > const &rhs)=delete |
Integrals_lockfree_queue< T, Null, Erased, I, A > & | operator= (Integrals_lockfree_queue< T, Null, Erased, I, A > &&rhs)=delete |
array_type & | array () |
Returns the underlying instance of memory::Atomics_array which holds the allocated memory for the array of std::atomic<T> elements. More... | |
void | clear () |
Sets all queue positions to Null and points the head and tail of the queue to the 0 virtual index. More... | |
bool | is_empty () const |
Retrieves whether or not the head and tail of the queue are pointing to the same virtual index. More... | |
bool | is_full () const |
Retrieves whether or not the tail of the queue is pointing to the same virtual index as the computed by adding the queue capacity() to the virtual index pointed to by the head of the queue. More... | |
index_type | head () const |
Retrieves the virtual index that the head of the queue is pointing to. More... | |
index_type | tail () const |
Retrieves the virtual index that the tail of the queue is pointing to. More... | |
value_type | front () const |
Retrieves the element at the front of the queue, i.e. More... | |
value_type | back () const |
Retrieves the value of the position at the back of the queue, i.e. More... | |
Integrals_lockfree_queue< T, Null, Erased, I, A > & | operator>> (reference_type out) |
Retrieves the value at the virtual index pointed by the head of the queue, clears that position, updates the virtual index stored in the head and clears the value returned by get_state() , setting it to SUCCESS . More... | |
Integrals_lockfree_queue< T, Null, Erased, I, A > & | operator<< (const_reference_type to_push) |
Takes the value passed on as a parameter, stores it in the virtual index pointed to by the tail of the queue, updates the virtual index stored in the tail and clears the value returned by get_state() , setting it to SUCCESS . More... | |
value_type | pop () |
Retrieves the value at the virtual index pointed by the head of the queue, clears that position, updates the virtual index stored in the head and clears the value returned by get_state() , setting it to SUCCESS . More... | |
Integrals_lockfree_queue< T, Null, Erased, I, A > & | push (value_type to_push) |
Takes the value passed on as a parameter, stores it in the virtual index pointed to by the tail of the queue, updates the virtual index stored in the tail and clears the value returned by get_state() , setting it to SUCCESS . More... | |
Iterator | begin () const |
Retrieves an iterator instance that points to the same position pointed by the head of the queue. More... | |
Iterator | end () const |
Retrieves an iterator instance that points to the same position pointed by the tail of the queue. More... | |
template<typename D = T, T M = Null, T F = Erased, typename J = I, typename B = A, typename Pred , std::enable_if_t< M !=F > * = nullptr> | |
size_t | erase_if (Pred predicate) |
Erases values from the queue. More... | |
size_t | capacity () const |
Returns the maximum number of elements allowed to coexist in the queue. More... | |
size_t | allocated_size () const |
Returns the amount of bytes needed to store the maximum number of elements allowed to coexist in the queue. More... | |
Integrals_lockfree_queue< T, Null, Erased, I, A > & | clear_state () |
Clears the error state of the last performed operations, if any. More... | |
enum_queue_state | get_state () const |
Retrieves the error/success state of the last performed operation. More... | |
std::string | to_string () const |
Return this queue textual representation. More... | |
Static Public Attributes | |
static constexpr T | null_value = Null |
static constexpr T | erased_value = Erased |
static constexpr index_type | set_bit = 1ULL << 63 |
static constexpr index_type | clear_bit = set_bit - 1 |
Private Member Functions | |
size_t | translate (index_type from) const |
Translates a virtual monotonically increasing index into an index bounded to the queue capacity. More... | |
enum_queue_state & | state () const |
Retrieves the thread storage duration operation state variable. More... | |
Private Attributes | |
size_t | m_capacity {0} |
The maximum allowed number of element allowed to coexist in the queue. More... | |
array_type | m_array |
The array of atomics in which the elements will be stored. More... | |
atomic_type | m_head {0} |
The virtual index being pointed to by the head of the queue. More... | |
atomic_type | m_tail {0} |
The virtual index being pointed to by the tail of the queue. More... | |
Friends | |
std::ostream & | operator<< (std::ostream &out, Integrals_lockfree_queue< T, Null, Erased, I, A > const &in) |
Lock-free, fixed-size bounded, multiple-producer (MP), multiple-consumer (MC), circular FIFO queue for integral elements.
Monotonically ever increasing virtual indexes are used to keep track of the head and tail pointer for the size-bounded circular queue. Virtual indexes are translated into memory indexes by calculating the remainder of the integer division of the virtual index by the queue capacity. The maximum value of a virtual index is 2^63 - 1.
Head is the pointer to the virtual index of the first position that holds an element to be popped, if any.
Tail is the pointer to the virtual index of the first available position to push an element to, if any.
Template parameters are as follows:
T
: The integral type for the queue elements.Null
: Value of type T
, that will be used to mark a queue position as empty.Erased
: Value of type T
, that will be used to mark an queue position as erased.I
: Type of indexing to be used by the underlying array in the form of a class. Available classes are container::Padded_indexing
and container::Interleaved_indexing
, check the classes documentation for further details. The parameter defaults to container::Padded_indexing
.A
: Type of memory allocator to be used, in the form of a class (defaults to no allocator).All the available operations are thread-safe, in the strict sense of no memory problems rise from multiple threads trying to perform operations concurrently.
However, being a lock-free structure, the queue may be changing at the same time as operations access both pointers and values or a client of the API evaluates the result of the invoked operation. The operation results and returning states are always based on the thread local view of the queue state, which may be safe or unsafe to proceed with the given operation. Therefore, extra validations, client-side serialization and/or retry mechanisms may be needed while using the queue operations.
Available methods are:
pop
: if the head of the queue points to a virtual index different from the one pointed by the tail of the queue, removes the element pointed to by the head of the queue, points the head to the next virtual index and returns the retrieved value. If head and tail of the queue point to the same virtual index, the queue is empty, Null
is returned and the thread operation state is set to NO_MORE_ELEMENTS
.push
: if the tail of the queue points to a virtual index different from the one pointed by head-plus-queue-capacity, sets the position pointed by tail with the provided element and points the tail to the next virtual index. If tail and head plus queue capacity point to the same virtual index, the queue is full, no operation is performed and the thread operation state is set to NO_SPACE_AVAILABLE
.capacity
: maximum number of elements allowed to coexist in the queue.head
: pointer to the virtual index of the first available element, if any.tail
: pointer to the virtual index of the first available position to add an element to. Additionally, the value returned by tail()
can also give an lower-than approximation of the total amount of elements already pushed into the queue -in between reading the virtual index tail is pointing to and evaluating it, some more elements may have been pushed.front
: the first available element. If none, Null
is returned.back
: the last available element. If none, Null
is returned.clear
: sets all positions of the underlying array to Null
and resets the virtual index pointed to by both the head and the tail of the queue to 0
.is_empty
: whether or not the head and tail of the queue point to the same virtual index.is_full
: whether or not the tail and head-plus-queue-capacity point to the same virtual index.erase_if
: traverses the queue, starting at the queue relative memory index 0, stopping at the relative memory index capacity() - 1
and invoking the passed-on predicate over each position value, while disregarding positions that have Null
or Erased
values.Note that, if Null
and Erased
hold the same value, the resulting class will not include the erase_if
method.
using container::Integrals_lockfree_queue< T, Null, Erased, I, A >::array_type = container::Atomics_array<T, I, A> |
using container::Integrals_lockfree_queue< T, Null, Erased, I, A >::atomic_type = memory::Aligned_atomic<index_type> |
using container::Integrals_lockfree_queue< T, Null, Erased, I, A >::const_pointer_type = T const * |
using container::Integrals_lockfree_queue< T, Null, Erased, I, A >::const_reference_type = T const & |
using container::Integrals_lockfree_queue< T, Null, Erased, I, A >::const_value_type = T const |
using container::Integrals_lockfree_queue< T, Null, Erased, I, A >::element_type = std::atomic<T> |
using container::Integrals_lockfree_queue< T, Null, Erased, I, A >::index_type = unsigned long long |
using container::Integrals_lockfree_queue< T, Null, Erased, I, A >::pointer_type = T * |
using container::Integrals_lockfree_queue< T, Null, Erased, I, A >::reference_type = T & |
using container::Integrals_lockfree_queue< T, Null, Erased, I, A >::value_type = T |
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container::Integrals_lockfree_queue< T, Null, Erased, I, A >::Integrals_lockfree_queue | ( | A & | alloc, |
size_t | size | ||
) |
Constructor allowing a specific memory allocator and a specific queue capacity.
The queue allocated memory may differ from capacity() * sizeof(T)
since additional space may be required to prevent false sharing between threads.
alloc | The memory allocator instance |
size | The queue maximum capacity |
container::Integrals_lockfree_queue< T, Null, Erased, I, A >::Integrals_lockfree_queue | ( | size_t | size | ) |
Constructor allowing specific queue capacity.
The queue allocated memory may differ from capacity() * sizeof(T)
since additional space may be required to prevent false sharing between threads.
size | The queue maximum capacity |
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delete |
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delete |
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virtualdefault |
Destructor for the class.
size_t container::Integrals_lockfree_queue< T, Null, Erased, I, A >::allocated_size |
Returns the amount of bytes needed to store the maximum number of elements allowed to coexist in the queue.
container::Integrals_lockfree_queue< T, Null, Erased, I, A >::array_type & container::Integrals_lockfree_queue< T, Null, Erased, I, A >::array |
Returns the underlying instance of memory::Atomics_array
which holds the allocated memory for the array of std::atomic<T>
elements.
memory::Atomics_array
container::Integrals_lockfree_queue< T, Null, Erased, I, A >::value_type container::Integrals_lockfree_queue< T, Null, Erased, I, A >::back |
Retrieves the value of the position at the back of the queue, i.e.
the value stored in the virtual index just prior to the virtual index pointed to by the tail of the queue.
The returned value may be Null
or Erased
, whatever value that is held by the given virtual index position.
As this method is an alias for array()[tail()]
, the queue may be changed concurrently and it is possible for this method to return a value assigned to a position outside the bounds of the head and tail of the queue (between thread-local fetch of the tail pointer and the access to the position indexed by the local value, operations moved the head to a virtual index higher than the locally stored). This means that Null
may be returned or that a value that is currently being popped may be returned.
container::Integrals_lockfree_queue< T, Null, Erased, I, A >::Iterator container::Integrals_lockfree_queue< T, Null, Erased, I, A >::begin | ( | void | ) | const |
Retrieves an iterator instance that points to the same position pointed by the head of the queue.
Please, be aware that, while using standard library features that use the Iterator
requirement, like for_each
loops, std::find
, std::find_if
, etc:
Null
values at the beginning of the iteration because elements were popped just after the queue begin()
method is invoked, the moment when the iterator pointing to the same virtual index as the head of the queue is computed.size_t container::Integrals_lockfree_queue< T, Null, Erased, I, A >::capacity |
Returns the maximum number of elements allowed to coexist in the queue.
void container::Integrals_lockfree_queue< T, Null, Erased, I, A >::clear |
Sets all queue positions to Null
and points the head and tail of the queue to the 0
virtual index.
container::Integrals_lockfree_queue< T, Null, Erased, I, A > & container::Integrals_lockfree_queue< T, Null, Erased, I, A >::clear_state |
Clears the error state of the last performed operations, if any.
The operation state is a thread storage duration variable, making it a per-thread state.
this
object, for chaining purposes. container::Integrals_lockfree_queue< T, Null, Erased, I, A >::Iterator container::Integrals_lockfree_queue< T, Null, Erased, I, A >::end | ( | void | ) | const |
Retrieves an iterator instance that points to the same position pointed by the tail of the queue.
Please, be aware that, while using standard library features that use the Iterator
requirement, like for_each
loops, std::find
, std::find_if
, etc:
end()
method is invoked, the moment when the iterator pointing to the same virtual index has the tail of the queue is computed.size_t container::Integrals_lockfree_queue< T, Null, Erased, I, A >::erase_if | ( | Pred | predicate | ) |
Erases values from the queue.
The traversing is linear and not in between the virtual indexes pointed to by the head and the tail of the queue but rather between 0 and Integrals_lockfree_queue::capacity() - 1
.
An element may be conditionally erased according to the evaluation of the predicate predicate
which should be any predicate which is translatable to [](value_type value) -> bool
. If the predicate evaluates to true
, the value is replace by Erased
.
If both Null
and Erased
evaluate to the same value, this method will not be available after the template substitutions since erased values must be identifiable by the pop and push operations.
Check C++ documentation for the definition of Predicate
named requirement for more information.
predicate | The predicate invoked upon a given queue position and if evaluated to true will force the removal of such element. |
container::Integrals_lockfree_queue< T, Null, Erased, I, A >::value_type container::Integrals_lockfree_queue< T, Null, Erased, I, A >::front |
Retrieves the element at the front of the queue, i.e.
the value stored in the virtual index pointed to by the head of the queue.
The returned value may be Null
, Erased
or whatever value that is held by the given virtual index position at the moment it's accessed.
As this method is an alias for array()[head()]
, the queue may be changed concurrently and, because it is a circular queue, it is possible for this method to return a value that has not been popped yet and it will not be popped in the next call for pop()
(the circular queue logic made the tail to wrap and overlap the thread local value of head).
container::Integrals_lockfree_queue< T, Null, Erased, I, A >::enum_queue_state container::Integrals_lockfree_queue< T, Null, Erased, I, A >::get_state |
Retrieves the error/success state of the last performed operation.
The operation state is a thread storage duration variable, making it a per-thread state.
Possible values are:
SUCCESS
if the operation was successfulNO_MORE_ELEMENTS
if there are no more elements to popNO_SPACE_AVAILABLE
if there is no more room for pushing elementsState may be changed by any of the pop
, push
operations.
container::Integrals_lockfree_queue< T, Null, Erased, I, A >::index_type container::Integrals_lockfree_queue< T, Null, Erased, I, A >::head |
Retrieves the virtual index that the head of the queue is pointing to.
bool container::Integrals_lockfree_queue< T, Null, Erased, I, A >::is_empty |
Retrieves whether or not the head and tail of the queue are pointing to the same virtual index.
No evaluation of the value held in the given position is made. If, for instance, head and tail point to consecutive virtual indexes and the value stored in the position pointed to by head is Erased
, is_empty
will return false and pop
will return Null
and trigger a NO_MORE_ELEMENTS
state change.
bool container::Integrals_lockfree_queue< T, Null, Erased, I, A >::is_full |
Retrieves whether or not the tail of the queue is pointing to the same virtual index as the computed by adding the queue capacity()
to the virtual index pointed to by the head of the queue.
No evaluation of the value held in the given position is made. If, for instance, all the values stored in the positions between head and tail are Erased
, is_full
will return true and pop
will return Null
and trigger a NO_MORE_ELEMENTS
state change.
container::Integrals_lockfree_queue< T, Null, Erased, I, A > & container::Integrals_lockfree_queue< T, Null, Erased, I, A >::operator<< | ( | const_reference_type | to_push | ) |
Takes the value passed on as a parameter, stores it in the virtual index pointed to by the tail of the queue, updates the virtual index stored in the tail and clears the value returned by get_state()
, setting it to SUCCESS
.
If the tail of the queue points to a virtual index that has already an element assigned (queue is full), the operation fails and the value returned by get_state()
is NO_SPACE AVAILABLE
.
to_push | The value to push into the queue. |
this
object, for chaining purposes.
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delete |
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delete |
container::Integrals_lockfree_queue< T, Null, Erased, I, A > & container::Integrals_lockfree_queue< T, Null, Erased, I, A >::operator>> | ( | reference_type | out | ) |
Retrieves the value at the virtual index pointed by the head of the queue, clears that position, updates the virtual index stored in the head and clears the value returned by get_state()
, setting it to SUCCESS
.
If the head of the queue points to a virtual index that has no element assigned (queue is empty), the operation fails, Null
is stored in the out
parameter and the value returned by get_state()
is NO_MORE_ELEMENTS
.
out | The variable reference to store the value in. |
this
object, for chaining purposes. T container::Integrals_lockfree_queue< T, Null, Erased, I, A >::pop |
Retrieves the value at the virtual index pointed by the head of the queue, clears that position, updates the virtual index stored in the head and clears the value returned by get_state()
, setting it to SUCCESS
.
If the head of the queue points to a virtual index that has no element assigned yet (queue is empty), the operation returns Null
and the value returned by get_state()
is NO_MORE_ELEMENTS
.
Null
if no element is available for popping container::Integrals_lockfree_queue< T, Null, Erased, I, A > & container::Integrals_lockfree_queue< T, Null, Erased, I, A >::push | ( | value_type | to_push | ) |
Takes the value passed on as a parameter, stores it in the virtual index pointed to by the tail of the queue, updates the virtual index stored in the tail and clears the value returned by get_state()
, setting it to SUCCESS
.
If the tail of the queue points to a virtual index that has already an element assigned (queue is full), the operation fails and the value returned by get_state()
is NO_SPACE AVAILABLE
.
to_push | The value to push into the queue. |
this
object, for chaining purposes.
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private |
Retrieves the thread storage duration operation state variable.
container::Integrals_lockfree_queue< T, Null, Erased, I, A >::index_type container::Integrals_lockfree_queue< T, Null, Erased, I, A >::tail |
Retrieves the virtual index that the tail of the queue is pointing to.
std::string container::Integrals_lockfree_queue< T, Null, Erased, I, A >::to_string |
Return this
queue textual representation.
this
queue.
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private |
Translates a virtual monotonically increasing index into an index bounded to the queue capacity.
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friend |
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staticconstexpr |
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staticconstexpr |
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private |
The array of atomics in which the elements will be stored.
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private |
The maximum allowed number of element allowed to coexist in the queue.
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private |
The virtual index being pointed to by the head of the queue.
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private |
The virtual index being pointed to by the tail of the queue.
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staticconstexpr |
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staticconstexpr |