composite_node¶
[flow_graph.composite_node]
A node that encapsulates a collection of other nodes as a first class graph node.
// Defined in header <oneapi/tbb/flow_graph.h>
namespace oneapi {
namespace tbb {
namespace flow {
template< typename InputTuple, typename OutputTuple > class composite_node;
// composite_node with both input ports and output ports
template< typename... InputTypes, typename... OutputTypes>
class composite_node <std::tuple<InputTypes...>, std::tuple<OutputTypes...> > : public graph_node {
public:
typedef std::tuple< receiver<InputTypes>&... > input_ports_type;
typedef std::tuple< sender<OutputTypes>&... > output_ports_type;
composite_node( graph &g );
virtual ~composite_node();
void set_external_ports(input_ports_type&& input_ports_tuple, output_ports_type&& output_ports_tuple);
input_ports_type& input_ports();
output_ports_type& output_ports();
};
// composite_node with only input ports
template< typename... InputTypes>
class composite_node <std::tuple<InputTypes...>, std::tuple<> > : public graph_node{
public:
typedef std::tuple< receiver<InputTypes>&... > input_ports_type;
composite_node( graph &g );
virtual ~composite_node();
void set_external_ports(input_ports_type&& input_ports_tuple);
input_ports_type& input_ports();
};
// composite_nodes with only output_ports
template<typename... OutputTypes>
class composite_node <std::tuple<>, std::tuple<OutputTypes...> > : public graph_node{
public:
typedef std::tuple< sender<OutputTypes>&... > output_ports_type;
composite_node( graph &g );
virtual ~composite_node();
void set_external_ports(output_ports_type&& output_ports_tuple);
output_ports_type& output_ports();
};
} // namespace flow
} // namespace tbb
} // namespace oneapi
The
InputTuple
andOutputTuple
must be instantiations ofstd::tuple
.
composite_node
is a graph_node
, receiver<T>
, and sender<T>
.
The composite_node
can package any number of other nodes. It maintains input and output port
references to nodes in the package that border the composite_node
. This allows the references to
be used to make edges to other nodes outside of the composite_node
. The InputTuple
is a
tuple of input types. The composite_node
has an input port for each type in InputTuple
.
Likewise, the OutputTuple
is a tuple of output types. The composite_node
has an output port
for each type in OutputTuple
.
The composite_node is a multi-port node with three specializations.
A multi-port node with multi-input ports and multi-output ports: This specialization has a tuple of input ports, each of which is a
receiver
of a type inInputTuple
. Each input port is a reference to a port of a node that thecomposite_node
encapsulates. Similarly, this specialization also has a tuple of output ports, each of which is asender
of a type inOutputTuple
. Each output port is a reference to a port of a node that thecomposite_node
encapsulates.A multi-port node with only input ports and no output ports: This specialization only has a tuple of input ports.
A multi-port node with only output ports and no input_ports: This specialization only has a tuple of output ports.
The function template input_port can be used to get a reference to a specific input port and the function template output_port can be used to get a reference to a specific output port.
Construction of a composite_node
is done in two stages:
Defining the
composite_node
with specification ofInputTuple
andOutputTuple
.Making aliases from the encapsulated nodes that border the
composite_node
to the input and output ports of thecomposite_node
. This step is mandatory as without it thecomposite_node
input and output ports are not bound to any actual nodes. Making the aliases is achieved by calling the methodset_external_ports
.
The composite_node does not meet the CopyConstructible requirements from [copyconstructible] ISO C++ Standard section.
Member functions¶
-
void set_external_ports(input_ports_type &&input_ports_tuple, output_ports_type &&output_ports_tuple)¶
Creates input and output ports of the
composite_node
as aliases to the ports referenced byinput_ports_tuple
andoutput_ports_tuple
, respectively. That is, a port referenced at positionN
ininput_ports_tuple
is mapped as theNth
input port of thecomposite_node
, similarly for output ports.
-
input_ports_type &input_ports()¶
Returns: A
std::tuple
ofreceivers
. Each element is a reference to the actual node or input port that was aliased to that position inset_external_ports()
.Caution
Calling
input_ports()
without a prior call toset_external_ports()
results in undefined behavior.
-
output_ports_type &output_ports()¶
Returns: A
std::tuple
ofsenders
. Each element is a reference to the actual node or output port that was aliased to that position inset_external_ports()
.Caution
Calling
output_ports()
without a prior call toset_external_ports()
results in undefined behavior.
See also: