priority_queue_node¶
[flow_graph.priority_queue_node]
A class template that forwards messages in a priority order.
// Defined in header <tbb/flow_graph.h>
namespace tbb {
namespace flow {
template< typename T, typename Compare = std::less<T>>
class priority_queue_node : public graph_node, public receiver<T>, public sender<T> {
public:
typedef size_t size_type;
explicit priority_queue_node( graph &g );
priority_queue_node( const priority_queue_node &src );
~priority_queue_node();
bool try_put( const T &v );
bool try_get( T &v );
};
} // namespace flow
} // namespace tbb
Requirements:
The type
T
must meet the CopyConstructible requirements from [copyconstructible] and CopyAssignable requirements from [copyassignable] ISO C++ Standard sections.The type
Compare
must meet the Compare type requirements from [alg.sorting] ISO C++ Standard section. IfCompare
instance throws an exception, then behavior is undefined.
The next message to be forwarded has the largest priority as determined by the Compare
template argument.
priority_queue_node
is a graph_node
, receiver<T>
, and sender<T>
.
priority_queue_node
has a buffering and single-push properties.
Member functions¶
-
explicit
priority_queue_node
(graph &g)¶ Constructs an empty
priority_queue_node
that belongs to the graphg
.
-
priority_queue_node
(const priority_queue_node &src)¶ Constructs an empty
priority_queue_node
that belongs to the same graphg
assrc
. Any intermediate state ofsrc
, including its links to predecessors and successors, is not copied.
-
bool
try_put
(const T &v)¶ Adds
v
to thepriority_queue_node
and tries forwarding to a successor the item with the largest priority among all of the items that were added to the node and have not been yet forwarded to successors.Returns:
true
-
bool
try_get
(T &v)¶ Returns:
true
if a message is available in the node and the node is not currently reserved. Otherwise, returnsfalse
. If the node returnstrue
, the message with the largest priority is copied tov
.
Example¶
Usage scenario is similar to sequencer_node except that the
priority_queue_node
provides local order, passing the message with highest priority of all
stored at the moment, while sequencer_node
enforces global order and does not allow a
“smaller priority” message to pass through before all preceding messages.