API referenceC++ APIHoloscanClasses

holoscan::CudaBufferAvailableCondition

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Condition based on data availability in a cuda buffer.

A component which specifies the availability of data at the receiver based on the CudaBuffer present in incoming messages.

This condition applies to a specific input port of the operator as determined by setting the “receiver” argument.

Note: The nvidia::gxf::CudaBuffer class is currently unused by Holoscan SDK. This condition is intended exclusively for interoperation with wrapped GXF Codelets that use GXF’s CudaBuffer type.

==Parameters==

  • receiver (std::string): The receiver to check for a CudaBuffer. This should be specified by the name of the Operator’s input port the condition will apply to. The Holoscan SDK will then automatically replace the port name with the actual receiver object at application run time.
#include <holoscan/cuda_buffer_available.hpp>

Inherits from: holoscan::gxf::GXFCondition (public)

Constructors

CudaBufferAvailableCondition

inlineexplicit
template <typename ArgT,
          typename... ArgsT,
          typename = std::enable_if_t<!std::is_base_of_v<::holoscan::Condition, std::decay_t<ArgT>> &&   (std::is_same_v<::holoscan::Arg, std::decay_t<ArgT>> ||   std::is_same_v<::holoscan::ArgList, std::decay_t<ArgT>>)>>
holoscan::CudaBufferAvailableCondition::CudaBufferAvailableCondition(holoscan::CudaBufferAvailableCondition::CudaBufferAvailableCondition(
    ArgT &&arg,
    ArgsT &&... args
)

Methods

gxf_typename

const char * holoscan::CudaBufferAvailableCondition::gxf_typename() const override

setup

void holoscan::CudaBufferAvailableCondition::setup(
    ComponentSpec &spec
) override

Define the condition specification.

Parameters

spec
ComponentSpec &

The reference to the component specification.

receiver

inline
void holoscan::CudaBufferAvailableCondition::receiver(
    std::shared_ptr<Receiver> receiver
)

get

nvidia::gxf::CudaBufferAvailableSchedulingTerm * holoscan::CudaBufferAvailableCondition::get() const

initialize

void holoscan::CudaBufferAvailableCondition::initialize() override

Initialize the component.

This method is called only once when the component is created for the first time, and use of light-weight initialization.

add_to_graph_entity

void holoscan::CudaBufferAvailableCondition::add_to_graph_entity(
    Operator *op
)

to_yaml_node

YAML::Node holoscan::CudaBufferAvailableCondition::to_yaml_node() const override

Get a YAML representation of the condition.

Returns: YAML node including type and spec of the condition in addition to the base component properties.

reset_backend_objects

void holoscan::CudaBufferAvailableCondition::reset_backend_objects() override

Reset any backend-specific state.

check

virtual void holoscan::Condition::check(
    int64_t timestamp,
    SchedulingStatusType *status_type,
    int64_t *target_timestamp
) const

Check the condition status before allowing execution.

If the condition is waiting for a time event ‘target_timestamp’ will contain the target timestamp.

Parameters

timestamp
int64_t

The current timestamp

status_type
SchedulingStatusType *

The status of the condition

target_timestamp
int64_t *

The target timestamp (used if the term is waiting for a time event).

on_execute

virtual void holoscan::Condition::on_execute(
    int64_t timestamp
)

Called each time after the entity of this term was executed.

Parameters

timestamp
int64_t

The current timestamp

update_state

virtual void holoscan::Condition::update_state(
    int64_t timestamp
)

Checks if the state of the condition can be updated and updates it.

Parameters

timestamp
int64_t

The current timestamp

condition_type

ConditionComponentType holoscan::Condition::condition_type() const

Get the condition type.

Returns: The condition type.

name

Condition & holoscan::Condition::name(Condition & holoscan::Condition::name(
    const std::string &name
) &

Set the name of the condition.

Returns: The reference to the condition.

Parameters

name
const std::string &

The name of the condition.

fragment

Condition & holoscan::Condition::fragment(Condition & holoscan::Condition::fragment(
    Fragment *fragment
)

Set the fragment of the condition.

Returns: The reference to the condition.

Parameters

fragment
Fragment *

The pointer to the fragment of the condition.

spec

Condition & holoscan::Condition::spec(Condition & holoscan::Condition::spec(
    const std::shared_ptr<ComponentSpec> &spec
)

Set the component specification to the condition.

Returns: The reference to the condition.

Parameters

spec
const std::shared_ptr<ComponentSpec> &

The component specification.

spec_shared

std::shared_ptr<ComponentSpec> holoscan::Condition::spec_shared()

Get the shared pointer to the component spec.

Returns: The shared pointer to the component spec.

add_arg

void holoscan::Condition::add_arg(
    const std::shared_ptr<Resource> &arg
)

Add a resource to the condition.

Parameters

arg
const std::shared_ptr<Resource> &

The resource to add.

resources

std::unordered_map<std::string, std::shared_ptr<Resource>> & holoscan::Condition::resources()

Get the resources of the condition.

Returns: The resources of the condition.

transmitter

std::optional<std::shared_ptr<Transmitter>> holoscan::Condition::transmitter(
    const std::string &port_name
)

Return the Transmitter corresponding to a specific output port of the Operator associated with this condition.

Returns: The Transmitter corresponding to the output port, if it exists. Otherwise, return nullopt.

Parameters

port_name
const std::string &

The name of the output port.

wrapper_cid

void holoscan::Condition::wrapper_cid(
    int64_t cid
)

Store the component ID for this condition in the underlying backend implementation.

This method may not be needed for all backends.

Parameters

cid
int64_t

Component id corresponding to the underlying framework

notify_scheduler

bool holoscan::Condition::notify_scheduler()

Notify the scheduler that an asynchronous event has completed.

This method is used by event-based conditions (those returning kWaitEvent from check()) to signal to the scheduler that the condition is now ready to be re-evaluated.

This method can be called from any thread (e.g., a CUDA host callback or a worker thread). It is thread-safe.

Example usage:

Returns: true if the notification was successful, false otherwise.

Example

// In a CUDA host callback or worker thread
void my_callback(void* user_data) {
    auto* condition = static_cast<MyCondition*>(user_data);
    condition->state_.store(State::EVENT_COMPLETE);
    condition->notify_scheduler();
}

See also: SchedulingStatusType::kWaitEvent

set_parameters

void holoscan::Condition::set_parameters() override

Set the parameters based on defaults (sets GXF parameters for GXF components).

id

int64_t holoscan::ComponentBase::id() const

Get the identifier of the component.

By default, the identifier is set to -1. It is set to a valid value when the component is initialized.

With the default executor (GXFExecutor), the identifier is set to the GXF component ID.

Returns: The identifier of the component.

args

std::vector<Arg> & holoscan::ComponentBase::args()

Get the list of arguments.

Returns: The vector of arguments.

description

std::string holoscan::ComponentBase::description() const

Get a description of the component.

Returns: YAML string.

See also: to_yaml_node()

service

template <typename ServiceT = DefaultFragmentService>
std::shared_ptr<ServiceT> holoscan::ComponentBase::service(
    std::string_view id = ""
) const

Retrieve a registered fragment service or resource.

Retrieves a previously registered fragment service or resource by its type and optional identifier. Returns nullptr if no service/resource is found with the specified type and identifier.

Note that any changes to the service retrieval logic in this method should be synchronized with the implementation in Fragment::service() method to maintain consistency.

Returns: The shared pointer to the service/resource, or nullptr if not found or if type casting fails.

Template parameters

ServiceT
typename

The type of the service/resource to retrieve. Must inherit from either Resource or FragmentService. Defaults to DefaultFragmentService if not specified.

Parameters

id
std::string_viewDefaults to ""

The identifier of the service/resource. If empty, retrieves by type only.

get_service_by_type_info

std::shared_ptr<FragmentService> holoscan::ComponentBase::get_service_by_type_info(
    const std::type_info &service_type,
    std::string_view id = ""
) const

Retrieve a registered fragment service or resource for Python bindings.

This is a helper method for Python bindings to retrieve a service by its C++ type info.

Returns: The shared pointer to the base service, or nullptr if not found.

Parameters

service_type
const std::type_info &

The type info of the service/resource to retrieve.

id
std::string_viewDefaults to ""

The identifier of the service/resource. If empty, retrieves by type only.

gxf_context

void holoscan::gxf::GXFComponent::gxf_context(
    gxf_context_t gxf_context
)

gxf_eid

void holoscan::gxf::GXFComponent::gxf_eid(
    gxf_uid_t gxf_eid
)

gxf_tid

void holoscan::gxf::GXFComponent::gxf_tid(
    gxf_tid_t gxf_tid
)

gxf_cid

void holoscan::gxf::GXFComponent::gxf_cid(
    gxf_uid_t gxf_cid
)

gxf_cname

std::string & holoscan::gxf::GXFComponent::gxf_cname()

gxf_graph_entity

std::shared_ptr<nvidia::gxf::GraphEntity> holoscan::gxf::GXFComponent::gxf_graph_entity()

gxf_entity_group_name

std::string holoscan::gxf::GXFComponent::gxf_entity_group_name()

The name of the entity group this component belongs to.

gxf_entity_group_id

gxf_uid_t holoscan::gxf::GXFComponent::gxf_entity_group_id()

The group id of the entity group this component belongs to.

gxf_cptr

void * holoscan::gxf::GXFComponent::gxf_cptr()

gxf_component

nvidia::gxf::Handle<nvidia::gxf::Component> holoscan::gxf::GXFComponent::gxf_component()

gxf_initialize

void holoscan::gxf::GXFComponent::gxf_initialize()

set_gxf_parameter

void holoscan::gxf::GXFComponent::set_gxf_parameter(
    const std::string &component_name,
    const std::string &key,
    ParameterWrapper &param_wrap
)

Set a given parameter on the underlying GXF component.

reset_gxf_graph_entity

void holoscan::gxf::GXFComponent::reset_gxf_graph_entity()

set_operator

void holoscan::Condition::set_operator(
    Operator *op
)

Set the Operator this condition is associated with.

Parameters

op
Operator *

The pointer to the Operator object.

update_params_from_args

void holoscan::Condition::update_params_from_args()

Update parameters based on the specified arguments.

service_provider

void holoscan::ComponentBase::service_provider(
    FragmentServiceProvider *provider
)

Set the service provider that owns this component.

Static methods

register_converter

template <typename typeT>
static void holoscan::ComponentBase::register_converter()

Register the argument setter for the given type.

If an operator or resource has an argument with a custom type, the argument setter must be registered using this method.

The argument setter is used to set the value of the argument from the YAML configuration.

This method can be called in the initialization phase of the operator/resource (e.g., initialize()). The example below shows how to register the argument setter for the custom type (Vec3):

It is assumed that YAML::convert<T>::encode and YAML::convert<T>::decode are implemented for the given type. You need to specialize the YAML::convert<> template class.

For example, suppose that you had a Vec3 class with the following members:

You can define the YAML::convert<Vec3> as follows in a ‘.cpp’ file:

Please refer to the yaml-cpp documentation for more details.

Template parameters

typeT
typename

The type of the argument to register.

Example

void MyOp::initialize() {
  register_converter<Vec3>();
}

Example

struct Vec3 {
  // make sure you have overloaded operator==() for the comparison
  double x, y, z;
};

Example

namespace YAML {
template<>
struct convert<Vec3> {
  static Node encode(const Vec3& rhs) {
    Node node;
    node.push_back(rhs.x);
    node.push_back(rhs.y);
    node.push_back(rhs.z);
    return node;
  }
  static bool decode(const Node& node, Vec3& rhs) {
    if(!node.IsSequence() || node.size() != 3) {
      return false;
    }
    rhs.x = node[0].as<double>();
    rhs.y = node[1].as<double>();
    rhs.z = node[2].as<double>();
    return true;
  }
};
}

register_argument_setter

template <typename typeT>
void holoscan::ComponentBase::register_argument_setter()

Register the argument setter for the given type.

Please refer to the documentation of register_converter() for more details.

Template parameters

typeT
typename

The type of the argument to register.

Types

ConditionComponentType

Resource type used for the initialization of the resource.

NameValueDescription
kNativeNative condition.
kGXFGXF condition (scheduling term).

Member variables

NameTypeDescription
receiver_Parameter< std::shared_ptr< Receiver > >
is_initialized_boolWhether the condition is initialized.
resources_std::unordered_map< std::string, std::shared_ptr< Resource > >The resources used by the condition.
condition_type_ConditionComponentTypeThe type of the component.
op_Operator *The operator this condition is associated with.
wrapper_cid_int64_tComponent ID of underlying GXFSchedulingTermWrapper.
spec_std::shared_ptr< ComponentSpec >The component specification.
id_int64_tThe ID of the component.
name_std::stringName of the component.
fragment_Fragment *Pointer to the fragment that owns this component.
args_std::vector< Arg >List of arguments.
service_provider_FragmentServiceProvider *Pointer to the service provider.
gxf_context_gxf_context_t
gxf_eid_gxf_uid_t
gxf_tid_gxf_tid_t
gxf_cid_gxf_uid_t
gxf_graph_entity_std::shared_ptr< nvidia::gxf::GraphEntity >
gxf_cname_std::string
gxf_component_nvidia::gxf::Handle< nvidia::gxf::Component >
gxf_cptr_void *