join_node
Contents
join_node#
[flow_graph.join_node]
A node that creates a tuple from a set of messages received at its input ports and broadcasts the tuple to all of its successors.
// Defined in header <oneapi/tbb/flow_graph.h>
namespace oneapi {
namespace tbb {
namespace flow {
using tag_value = /*implementation-specific*/;
template<typename OutputTuple, class JoinPolicy = /*implementation-defined*/>
class join_node : public graph_node, public sender< OutputTuple > {
public:
using input_ports_type = /*implementation-defined*/;
explicit join_node( graph &g );
join_node( const join_node &src );
input_ports_type &input_ports( );
bool try_get( OutputTuple &v );
};
template<typename OutputTuple, typename K, class KHash=tbb_hash_compare<K> >
class join_node< OutputTuple, key_matching<K,KHash> > : public graph_node, public sender< OutputTuple > {
public:
using input_ports_type = /*implementation-defined*/;
explicit join_node( graph &g );
join_node( const join_node &src );
template<typename B0, typename B1>
join_node( graph &g, B0 b0, B1 b1 );
template<typename B0, typename B1, typename B2>
join_node( graph &g, B0 b0, B1 b1, B2 b2 );
template<typename B0, typename B1, typename B2, typename B3>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3 );
template<typename B0, typename B1, typename B2, typename B3, typename B4>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4 );
template<typename B0, typename B1, typename B2, typename B3, typename B5>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4, B5 b5 );
template<typename B0, typename B1, typename B2, typename B3, typename B5, typename B6>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4, B5 b5, B6 b6 );
template<typename B0, typename B1, typename B2, typename B3, typename B5, typename B6, typename B6>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4, B5 b5, B6 b6, B7 b7 );
template<typename B0, typename B1, typename B2, typename B3, typename B5, typename B6, typename B7>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4, B5 b5, B6 b6, B7 b7 );
template<typename B0, typename B1, typename B2, typename B3, typename B5, typename B6, typename B7, typename B8>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4, B5 b5, B6 b6, B7 b7, B8 b8 );
template<typename B0, typename B1, typename B2, typename B3, typename B5, typename B6, typename B7, typename B8, typename B9>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4, B5 b5, B6 b6, B7 b7, B8 b8, B9 b9 );
input_ports_type &input_ports( );
bool try_get( OutputTuple &v );
};
} // namespace flow
} // namespace tbb
} // namespace oneapi
Requirements:
The type
OutputTuple
must be an instantiation ofstd::tuple
. Each type that the tuple stores must meet the DefaultConstructible requirements from [defaultconstructible], CopyConstructible requirements from [copyconstructible] and CopyAssignable requirements from [copyassignable] ISO C++ Standard sections.The
JoinPolicy
type must be specified as one of buffering policies forjoin_node
.The
KHash
type must meet the HashCompare requirements.The
Bi
types must meet the JoinNodeFunctionObject requirements.
A join_node
is a graph_node
and a sender<OutputTuple>
.
It contains a tuple of input ports, each of which is a receiver<Type>
for each Type in
OutputTuple
. It supports multiple input receivers with distinct types and broadcasts a tuple
of received messages to all of its successors. All input ports of a join_node
must use the same
buffering policy.
The behavior of a join_node
is based on its buffering policy.
The function template input_port simplifies the syntax for getting a reference to a specific input port.
join_node
has a buffering and broadcast-push properties.
Member types#
input_ports_type
is an alias to a tuple of input ports.
Member functions#
explicit join_node( graph &g );
Constructs an empty join_node
that belongs to the graph g
.
template<typename B0, typename B1>
join_node( graph &g, B0 b0, B1 b1 );
template<typename B0, typename B1, typename B2>
join_node( graph &g, B0 b0, B1 b1, B2 b2 );
template<typename B0, typename B1, , typename B2, typename B3>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3 );
template<typename B0, typename B1, , typename B2, typename B3, typename B4>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4 );
template<typename B0, typename B1, , typename B2, typename B3, typename B5>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4, B5 b5 );
template<typename B0, typename B1, , typename B2, typename B3, typename B5, typename B6>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4, B5 b5, B6 b6 );
template<typename B0, typename B1, , typename B2, typename B3, typename B5, typename B6, typename B6>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4, B5 b5, B6 b6, B7 b7 );
template<typename B0, typename B1, , typename B2, typename B3, typename B5, typename B6, typename B7>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4, B5 b5, B6 b6, B7 b7 );
template<typename B0, typename B1, , typename B2, typename B3, typename B5, typename B6, typename B7, typename B8>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4, B5 b5, B6 b6, B7 b7, B8 b8 );
template<typename B0, typename B1, , typename B2, typename B3, typename B5, typename B6, typename B7, typename B8, typename B9>
join_node( graph &g, B0 b0, B1 b1, B2 b2, B3 b3, B4 b4, B5 b5, B6 b6, B7 b7, B8 b8, B9 b9 );
A constructor only available in the key_matching
specialization of join_node
.
Creates a join_node
that uses the function objects b0
, b1
, … , bN
to determine
the tags for the input ports 0
through N
.
Caution
Function objects passed to the join_node constructor must not throw. They are called in parallel, and should be pure, take minimal time, and be non-blocking.
join_node( const join_node &src )
Creates a join_node
that has the same initial state that
src
had at its construction. The list of predecessors,
messages in the input ports, and successors are not copied.
input_ports_type &input_ports( )
Returns: a std::tuple
of receivers. Each element inherits values from receiver<T>
, where
T
is the type of message expected at that input. Each tuple element can be used like any
other receiver<T>
. The behavior of the ports is based on the selected join_node
policy.
bool try_get( output_type &v )
Attempts to generate a tuple based on the buffering policy of the join_node
.
If it can successfully generate a tuple, it copies it to v
and returns true
.
Otherwise, it returns false
.
Non-Member Types#
using tag_value = /*implementation-specific*/;
tag_value
is an unsigned integral type for defining the tag_matching
policy.
Deduction Guides#
template <typename Body, typename... Bodies>
join_node(graph&, Body, Bodies...)
->join_node<std::tuple<std::decay_t<input_t<Body>>, std::decay_t<input_t<Bodies>>...>, key_matching<output_t<Body>>>;
Where:
input_t
is an alias to the input argument type of the passed function object.output_t
is an alias to the return type of the passed function object.