Require new PyBindGen; make it work for Python 2.3.
from pybindgen import Module, FileCodeSink, param, retval, cppclass
def register_types(module):
root_module = module.get_root()
## timer.h: ns3::Timer [class]
module.add_class('Timer')
## timer.h: ns3::Timer::DestroyPolicy [enumeration]
module.add_enum('DestroyPolicy', ['CANCEL_ON_DESTROY', 'REMOVE_ON_DESTROY', 'CHECK_ON_DESTROY'], outer_class=root_module['ns3::Timer'])
## timer.h: ns3::Timer::State [enumeration]
module.add_enum('State', ['RUNNING', 'EXPIRED', 'SUSPENDED'], outer_class=root_module['ns3::Timer'])
## timer-impl.h: ns3::TimerImpl [class]
module.add_class('TimerImpl', allow_subclassing=True)
## nstime.h: ns3::TimeUnit<1> [class]
module.add_class('Time')
## nstime.h: ns3::TimeUnit<0> [class]
module.add_class('Scalar')
## watchdog.h: ns3::Watchdog [class]
module.add_class('Watchdog')
## simulator.h: ns3::Simulator [class]
module.add_class('Simulator', is_singleton=True)
## event-id.h: ns3::EventId [class]
module.add_class('EventId')
## event-impl.h: ns3::EventImpl [class]
module.add_class('EventImpl', allow_subclassing=True)
## high-precision-128.h: ns3::HighPrecision [class]
module.add_class('HighPrecision')
## nstime.h: ns3::TimeChecker [class]
module.add_class('TimeChecker', parent=root_module['ns3::AttributeChecker'])
## scheduler.h: ns3::Scheduler [class]
module.add_class('Scheduler', parent=root_module['ns3::Object'])
## scheduler.h: ns3::Scheduler::EventKey [struct]
module.add_class('EventKey', outer_class=root_module['ns3::Scheduler'])
## nstime.h: ns3::TimeValue [class]
module.add_class('TimeValue', parent=root_module['ns3::AttributeValue'])
## heap-scheduler.h: ns3::HeapScheduler [class]
module.add_class('HeapScheduler', parent=root_module['ns3::Scheduler'])
## list-scheduler.h: ns3::ListScheduler [class]
module.add_class('ListScheduler', parent=root_module['ns3::Scheduler'])
## map-scheduler.h: ns3::MapScheduler [class]
module.add_class('MapScheduler', parent=root_module['ns3::Scheduler'])
## Register a nested module for the namespace internal
nested_module = module.add_cpp_namespace('internal')
register_types_ns3_internal(nested_module)
## Register a nested module for the namespace TimeStepPrecision
nested_module = module.add_cpp_namespace('TimeStepPrecision')
register_types_ns3_TimeStepPrecision(nested_module)
## Register a nested module for the namespace Config
nested_module = module.add_cpp_namespace('Config')
register_types_ns3_Config(nested_module)
## Register a nested module for the namespace olsr
nested_module = module.add_cpp_namespace('olsr')
register_types_ns3_olsr(nested_module)
def register_types_ns3_internal(module):
root_module = module.get_root()
def register_types_ns3_TimeStepPrecision(module):
root_module = module.get_root()
## nstime.h: ns3::TimeStepPrecision::precision_t [enumeration]
module.add_enum('precision_t', ['S', 'MS', 'US', 'NS', 'PS', 'FS'])
def register_types_ns3_Config(module):
root_module = module.get_root()
def register_types_ns3_olsr(module):
root_module = module.get_root()
def register_methods(root_module):
register_Ns3Timer_methods(root_module, root_module['ns3::Timer'])
register_Ns3TimerImpl_methods(root_module, root_module['ns3::TimerImpl'])
register_Ns3Time_methods(root_module, root_module['ns3::Time'])
register_Ns3Scalar_methods(root_module, root_module['ns3::Scalar'])
register_Ns3Watchdog_methods(root_module, root_module['ns3::Watchdog'])
register_Ns3Simulator_methods(root_module, root_module['ns3::Simulator'])
register_Ns3EventId_methods(root_module, root_module['ns3::EventId'])
register_Ns3EventImpl_methods(root_module, root_module['ns3::EventImpl'])
register_Ns3HighPrecision_methods(root_module, root_module['ns3::HighPrecision'])
register_Ns3TimeChecker_methods(root_module, root_module['ns3::TimeChecker'])
register_Ns3Scheduler_methods(root_module, root_module['ns3::Scheduler'])
register_Ns3SchedulerEventKey_methods(root_module, root_module['ns3::Scheduler::EventKey'])
register_Ns3TimeValue_methods(root_module, root_module['ns3::TimeValue'])
register_Ns3HeapScheduler_methods(root_module, root_module['ns3::HeapScheduler'])
register_Ns3ListScheduler_methods(root_module, root_module['ns3::ListScheduler'])
register_Ns3MapScheduler_methods(root_module, root_module['ns3::MapScheduler'])
return
def register_Ns3Timer_methods(root_module, cls):
## timer.h: ns3::Timer::Timer() [constructor]
cls.add_constructor([])
## timer.h: ns3::Timer::Timer(ns3::Timer::DestroyPolicy destroyPolicy) [constructor]
cls.add_constructor([param('ns3::Timer::DestroyPolicy', 'destroyPolicy')])
## timer.h: void ns3::Timer::SetDelay(ns3::Time const & delay) [member function]
cls.add_method('SetDelay',
'void',
[param('ns3::Time&', 'delay', is_const=True)])
## timer.h: ns3::Time ns3::Timer::GetDelay() const [member function]
cls.add_method('GetDelay',
'ns3::Time',
[],
is_const=True)
## timer.h: ns3::Time ns3::Timer::GetDelayLeft() const [member function]
cls.add_method('GetDelayLeft',
'ns3::Time',
[],
is_const=True)
## timer.h: void ns3::Timer::Cancel() [member function]
cls.add_method('Cancel',
'void',
[])
## timer.h: void ns3::Timer::Remove() [member function]
cls.add_method('Remove',
'void',
[])
## timer.h: bool ns3::Timer::IsExpired() const [member function]
cls.add_method('IsExpired',
'bool',
[],
is_const=True)
## timer.h: bool ns3::Timer::IsRunning() const [member function]
cls.add_method('IsRunning',
'bool',
[],
is_const=True)
## timer.h: bool ns3::Timer::IsSuspended() const [member function]
cls.add_method('IsSuspended',
'bool',
[],
is_const=True)
## timer.h: ns3::Timer::State ns3::Timer::GetState() const [member function]
cls.add_method('GetState',
'ns3::Timer::State',
[],
is_const=True)
## timer.h: void ns3::Timer::Schedule() [member function]
cls.add_method('Schedule',
'void',
[])
## timer.h: void ns3::Timer::Schedule(ns3::Time delay) [member function]
cls.add_method('Schedule',
'void',
[param('ns3::Time', 'delay')])
## timer.h: void ns3::Timer::Suspend() [member function]
cls.add_method('Suspend',
'void',
[])
## timer.h: void ns3::Timer::Resume() [member function]
cls.add_method('Resume',
'void',
[])
return
def register_Ns3TimerImpl_methods(root_module, cls):
## timer-impl.h: ns3::EventId ns3::TimerImpl::Schedule(ns3::Time const & delay) [member function]
cls.add_method('Schedule',
'ns3::EventId',
[param('ns3::Time&', 'delay', is_const=True)],
is_pure_virtual=True, is_virtual=True)
## timer-impl.h: void ns3::TimerImpl::Invoke() [member function]
cls.add_method('Invoke',
'void',
[],
is_pure_virtual=True, is_virtual=True)
cls.add_constructor([])
return
def register_Ns3Time_methods(root_module, cls):
## nstime.h: ns3::TimeUnit<1>::TimeUnit(std::string const & s) [constructor]
cls.add_constructor([param('std::string&', 's', is_const=True)])
## nstime.h: ns3::TimeUnit<1>::TimeUnit() [constructor]
cls.add_constructor([])
## nstime.h: ns3::TimeUnit<1>::TimeUnit(ns3::TimeUnit<1> const & o) [copy constructor]
cls.add_constructor([param('ns3::Time&', 'o', is_const=True)])
## nstime.h: ns3::TimeUnit<1>::TimeUnit(ns3::HighPrecision data) [constructor]
cls.add_constructor([param('ns3::HighPrecision', 'data')])
## nstime.h: int64_t ns3::TimeUnit<1>::GetFemtoSeconds() const [member function]
cls.add_method('GetFemtoSeconds',
'int64_t',
[],
is_const=True)
## nstime.h: ns3::HighPrecision const & ns3::TimeUnit<1>::GetHighPrecision() const [member function]
cls.add_method('GetHighPrecision',
retval('ns3::HighPrecision&', is_const=True),
[],
is_const=True)
## nstime.h: int64_t ns3::TimeUnit<1>::GetMicroSeconds() const [member function]
cls.add_method('GetMicroSeconds',
'int64_t',
[],
is_const=True)
## nstime.h: int64_t ns3::TimeUnit<1>::GetMilliSeconds() const [member function]
cls.add_method('GetMilliSeconds',
'int64_t',
[],
is_const=True)
## nstime.h: int64_t ns3::TimeUnit<1>::GetNanoSeconds() const [member function]
cls.add_method('GetNanoSeconds',
'int64_t',
[],
is_const=True)
## nstime.h: int64_t ns3::TimeUnit<1>::GetPicoSeconds() const [member function]
cls.add_method('GetPicoSeconds',
'int64_t',
[],
is_const=True)
## nstime.h: double ns3::TimeUnit<1>::GetSeconds() const [member function]
cls.add_method('GetSeconds',
'double',
[],
is_const=True)
## nstime.h: int64_t ns3::TimeUnit<1>::GetTimeStep() const [member function]
cls.add_method('GetTimeStep',
'int64_t',
[],
is_const=True)
## nstime.h: bool ns3::TimeUnit<1>::IsNegative() const [member function]
cls.add_method('IsNegative',
'bool',
[],
is_const=True)
## nstime.h: bool ns3::TimeUnit<1>::IsPositive() const [member function]
cls.add_method('IsPositive',
'bool',
[],
is_const=True)
## nstime.h: bool ns3::TimeUnit<1>::IsStrictlyNegative() const [member function]
cls.add_method('IsStrictlyNegative',
'bool',
[],
is_const=True)
## nstime.h: bool ns3::TimeUnit<1>::IsStrictlyPositive() const [member function]
cls.add_method('IsStrictlyPositive',
'bool',
[],
is_const=True)
## nstime.h: bool ns3::TimeUnit<1>::IsZero() const [member function]
cls.add_method('IsZero',
'bool',
[],
is_const=True)
## nstime.h: ns3::HighPrecision * ns3::TimeUnit<1>::PeekHighPrecision() [member function]
cls.add_method('PeekHighPrecision',
'ns3::HighPrecision *',
[])
## nstime.h: static uint64_t ns3::TimeUnit<1>::UnitsToTimestep(uint64_t unitValue, uint64_t unitFactor) [member function]
cls.add_method('UnitsToTimestep',
'uint64_t',
[param('uint64_t', 'unitValue'), param('uint64_t', 'unitFactor')],
is_static=True)
cls.add_output_stream_operator()
return
def register_Ns3Scalar_methods(root_module, cls):
## nstime.h: ns3::TimeUnit<0>::TimeUnit(double scalar) [constructor]
cls.add_constructor([param('double', 'scalar')])
## nstime.h: ns3::TimeUnit<0>::TimeUnit() [constructor]
cls.add_constructor([])
## nstime.h: ns3::TimeUnit<0>::TimeUnit(ns3::TimeUnit<0> const & o) [copy constructor]
cls.add_constructor([param('ns3::Scalar&', 'o', is_const=True)])
## nstime.h: ns3::TimeUnit<0>::TimeUnit(ns3::HighPrecision data) [constructor]
cls.add_constructor([param('ns3::HighPrecision', 'data')])
## nstime.h: double ns3::TimeUnit<0>::GetDouble() const [member function]
cls.add_method('GetDouble',
'double',
[],
is_const=True)
## nstime.h: ns3::HighPrecision const & ns3::TimeUnit<0>::GetHighPrecision() const [member function]
cls.add_method('GetHighPrecision',
retval('ns3::HighPrecision&', is_const=True),
[],
is_const=True)
## nstime.h: bool ns3::TimeUnit<0>::IsNegative() const [member function]
cls.add_method('IsNegative',
'bool',
[],
is_const=True)
## nstime.h: bool ns3::TimeUnit<0>::IsPositive() const [member function]
cls.add_method('IsPositive',
'bool',
[],
is_const=True)
## nstime.h: bool ns3::TimeUnit<0>::IsStrictlyNegative() const [member function]
cls.add_method('IsStrictlyNegative',
'bool',
[],
is_const=True)
## nstime.h: bool ns3::TimeUnit<0>::IsStrictlyPositive() const [member function]
cls.add_method('IsStrictlyPositive',
'bool',
[],
is_const=True)
## nstime.h: bool ns3::TimeUnit<0>::IsZero() const [member function]
cls.add_method('IsZero',
'bool',
[],
is_const=True)
## nstime.h: ns3::HighPrecision * ns3::TimeUnit<0>::PeekHighPrecision() [member function]
cls.add_method('PeekHighPrecision',
'ns3::HighPrecision *',
[])
return
def register_Ns3Watchdog_methods(root_module, cls):
## watchdog.h: ns3::Watchdog::Watchdog() [constructor]
cls.add_constructor([])
## watchdog.h: void ns3::Watchdog::Ping(ns3::Time delay) [member function]
cls.add_method('Ping',
'void',
[param('ns3::Time', 'delay')])
return
def register_Ns3Simulator_methods(root_module, cls):
## simulator.h: static void ns3::Simulator::SetScheduler(ns3::Ptr<ns3::Scheduler> scheduler) [member function]
cls.add_method('SetScheduler',
'void',
[param('ns3::Ptr< ns3::Scheduler >', 'scheduler')],
is_static=True)
## simulator.h: static void ns3::Simulator::EnableLogTo(char const * filename) [member function]
cls.add_method('EnableLogTo',
'void',
[param('char *', 'filename', transfer_ownership=False, is_const=True)],
is_static=True)
## simulator.h: static void ns3::Simulator::Destroy() [member function]
cls.add_method('Destroy',
'void',
[],
is_static=True)
## simulator.h: static bool ns3::Simulator::IsFinished() [member function]
cls.add_method('IsFinished',
'bool',
[],
is_static=True)
## simulator.h: static ns3::Time ns3::Simulator::Next() [member function]
cls.add_method('Next',
'ns3::Time',
[],
is_static=True)
## simulator.h: static void ns3::Simulator::Run() [member function]
cls.add_method('Run',
'void',
[],
is_static=True)
## simulator.h: static void ns3::Simulator::Stop() [member function]
cls.add_method('Stop',
'void',
[],
is_static=True)
## simulator.h: static void ns3::Simulator::Stop(ns3::Time const & time) [member function]
cls.add_method('Stop',
'void',
[param('ns3::Time&', 'time', is_const=True)],
is_static=True)
## simulator.h: static void ns3::Simulator::Remove(ns3::EventId const & id) [member function]
cls.add_method('Remove',
'void',
[param('ns3::EventId&', 'id', is_const=True)],
is_static=True)
## simulator.h: static void ns3::Simulator::Cancel(ns3::EventId const & id) [member function]
cls.add_method('Cancel',
'void',
[param('ns3::EventId&', 'id', is_const=True)],
is_static=True)
## simulator.h: static bool ns3::Simulator::IsExpired(ns3::EventId const & id) [member function]
cls.add_method('IsExpired',
'bool',
[param('ns3::EventId&', 'id', is_const=True)],
is_static=True)
## simulator.h: static ns3::Time ns3::Simulator::Now() [member function]
cls.add_method('Now',
'ns3::Time',
[],
is_static=True)
## simulator.h: static ns3::Time ns3::Simulator::GetDelayLeft(ns3::EventId const & id) [member function]
cls.add_method('GetDelayLeft',
'ns3::Time',
[param('ns3::EventId&', 'id', is_const=True)],
is_static=True)
## simulator.h: static ns3::Time ns3::Simulator::GetMaximumSimulationTime() [member function]
cls.add_method('GetMaximumSimulationTime',
'ns3::Time',
[],
is_static=True)
return
def register_Ns3EventId_methods(root_module, cls):
## event-id.h: ns3::EventId::EventId(ns3::EventId const & arg0) [copy constructor]
cls.add_constructor([param('ns3::EventId&', 'arg0', is_const=True)])
## event-id.h: ns3::EventId::EventId() [constructor]
cls.add_constructor([])
## event-id.h: ns3::EventId::EventId(ns3::Ptr<ns3::EventImpl> const & impl, uint64_t ts, uint32_t uid) [constructor]
cls.add_constructor([param('ns3::Ptr< ns3::EventImpl >&', 'impl', is_const=True), param('uint64_t', 'ts'), param('uint32_t', 'uid')])
## event-id.h: void ns3::EventId::Cancel() [member function]
cls.add_method('Cancel',
'void',
[])
## event-id.h: bool ns3::EventId::IsExpired() const [member function]
cls.add_method('IsExpired',
'bool',
[],
is_const=True)
## event-id.h: bool ns3::EventId::IsRunning() const [member function]
cls.add_method('IsRunning',
'bool',
[],
is_const=True)
## event-id.h: ns3::EventImpl * ns3::EventId::PeekEventImpl() const [member function]
cls.add_method('PeekEventImpl',
'ns3::EventImpl *',
[],
is_const=True)
## event-id.h: uint64_t ns3::EventId::GetTs() const [member function]
cls.add_method('GetTs',
'uint64_t',
[],
is_const=True)
## event-id.h: uint32_t ns3::EventId::GetUid() const [member function]
cls.add_method('GetUid',
'uint32_t',
[],
is_const=True)
return
def register_Ns3EventImpl_methods(root_module, cls):
## event-impl.h: ns3::EventImpl::EventImpl() [constructor]
cls.add_constructor([])
## event-impl.h: void ns3::EventImpl::Ref() const [member function]
cls.add_method('Ref',
'void',
[],
is_const=True)
## event-impl.h: void ns3::EventImpl::Unref() const [member function]
cls.add_method('Unref',
'void',
[],
is_const=True)
## event-impl.h: void ns3::EventImpl::Invoke() [member function]
cls.add_method('Invoke',
'void',
[])
## event-impl.h: void ns3::EventImpl::Cancel() [member function]
cls.add_method('Cancel',
'void',
[])
## event-impl.h: bool ns3::EventImpl::IsCancelled() [member function]
cls.add_method('IsCancelled',
'bool',
[])
## event-impl.h: void ns3::EventImpl::Notify() [member function]
cls.add_method('Notify',
'void',
[],
is_pure_virtual=True, visibility='protected', is_virtual=True)
return
def register_Ns3HighPrecision_methods(root_module, cls):
## high-precision-128.h: ns3::HighPrecision::HighPrecision(ns3::HighPrecision const & arg0) [copy constructor]
cls.add_constructor([param('ns3::HighPrecision&', 'arg0', is_const=True)])
## high-precision-128.h: ns3::HighPrecision::HighPrecision() [constructor]
cls.add_constructor([])
## high-precision-128.h: ns3::HighPrecision::HighPrecision(int64_t value, bool dummy) [constructor]
cls.add_constructor([param('int64_t', 'value'), param('bool', 'dummy')])
## high-precision-128.h: ns3::HighPrecision::HighPrecision(double value) [constructor]
cls.add_constructor([param('double', 'value')])
## high-precision-128.h: static void ns3::HighPrecision::PrintStats() [member function]
cls.add_method('PrintStats',
'void',
[],
is_static=True)
## high-precision-128.h: int64_t ns3::HighPrecision::GetInteger() const [member function]
cls.add_method('GetInteger',
'int64_t',
[],
is_const=True)
## high-precision-128.h: double ns3::HighPrecision::GetDouble() const [member function]
cls.add_method('GetDouble',
'double',
[],
is_const=True)
## high-precision-128.h: bool ns3::HighPrecision::Add(ns3::HighPrecision const & o) [member function]
cls.add_method('Add',
'bool',
[param('ns3::HighPrecision&', 'o', is_const=True)])
## high-precision-128.h: bool ns3::HighPrecision::Sub(ns3::HighPrecision const & o) [member function]
cls.add_method('Sub',
'bool',
[param('ns3::HighPrecision&', 'o', is_const=True)])
## high-precision-128.h: bool ns3::HighPrecision::Mul(ns3::HighPrecision const & o) [member function]
cls.add_method('Mul',
'bool',
[param('ns3::HighPrecision&', 'o', is_const=True)])
## high-precision-128.h: bool ns3::HighPrecision::Div(ns3::HighPrecision const & o) [member function]
cls.add_method('Div',
'bool',
[param('ns3::HighPrecision&', 'o', is_const=True)])
## high-precision-128.h: int ns3::HighPrecision::Compare(ns3::HighPrecision const & o) const [member function]
cls.add_method('Compare',
'int',
[param('ns3::HighPrecision&', 'o', is_const=True)],
is_const=True)
## high-precision-128.h: static ns3::HighPrecision ns3::HighPrecision::Zero() [member function]
cls.add_method('Zero',
'ns3::HighPrecision',
[],
is_static=True)
return
def register_Ns3TimeChecker_methods(root_module, cls):
cls.add_constructor([])
return
def register_Ns3Scheduler_methods(root_module, cls):
## scheduler.h: static ns3::TypeId ns3::Scheduler::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## scheduler.h: void ns3::Scheduler::Insert(ns3::EventId const & id) [member function]
cls.add_method('Insert',
'void',
[param('ns3::EventId&', 'id', is_const=True)],
is_pure_virtual=True, is_virtual=True)
## scheduler.h: bool ns3::Scheduler::IsEmpty() const [member function]
cls.add_method('IsEmpty',
'bool',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## scheduler.h: ns3::EventId ns3::Scheduler::PeekNext() const [member function]
cls.add_method('PeekNext',
'ns3::EventId',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## scheduler.h: ns3::EventId ns3::Scheduler::RemoveNext() [member function]
cls.add_method('RemoveNext',
'ns3::EventId',
[],
is_pure_virtual=True, is_virtual=True)
## scheduler.h: bool ns3::Scheduler::Remove(ns3::EventId const & id) [member function]
cls.add_method('Remove',
'bool',
[param('ns3::EventId&', 'id', is_const=True)],
is_pure_virtual=True, is_virtual=True)
cls.add_constructor([])
return
def register_Ns3SchedulerEventKey_methods(root_module, cls):
## scheduler.h: ns3::Scheduler::EventKey::m_ts [variable]
cls.add_instance_attribute('m_ts', 'uint64_t', is_const=False)
## scheduler.h: ns3::Scheduler::EventKey::m_uid [variable]
cls.add_instance_attribute('m_uid', 'uint32_t', is_const=False)
cls.add_constructor([])
return
def register_Ns3TimeValue_methods(root_module, cls):
## nstime.h: ns3::TimeValue::TimeValue() [constructor]
cls.add_constructor([])
## nstime.h: ns3::TimeValue::TimeValue(ns3::Time const & value) [constructor]
cls.add_constructor([param('ns3::Time&', 'value', is_const=True)])
## nstime.h: void ns3::TimeValue::Set(ns3::Time const & value) [member function]
cls.add_method('Set',
'void',
[param('ns3::Time&', 'value', is_const=True)])
## nstime.h: ns3::Time ns3::TimeValue::Get() const [member function]
cls.add_method('Get',
'ns3::Time',
[],
is_const=True)
## nstime.h: ns3::Ptr<ns3::AttributeValue> ns3::TimeValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_const=True, is_virtual=True)
## nstime.h: std::string ns3::TimeValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True, is_virtual=True)
## nstime.h: bool ns3::TimeValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_virtual=True)
return
def register_Ns3HeapScheduler_methods(root_module, cls):
## heap-scheduler.h: ns3::HeapScheduler::HeapScheduler() [constructor]
cls.add_constructor([])
## heap-scheduler.h: void ns3::HeapScheduler::Insert(ns3::EventId const & id) [member function]
cls.add_method('Insert',
'void',
[param('ns3::EventId&', 'id', is_const=True)],
is_virtual=True)
## heap-scheduler.h: bool ns3::HeapScheduler::IsEmpty() const [member function]
cls.add_method('IsEmpty',
'bool',
[],
is_const=True, is_virtual=True)
## heap-scheduler.h: ns3::EventId ns3::HeapScheduler::PeekNext() const [member function]
cls.add_method('PeekNext',
'ns3::EventId',
[],
is_const=True, is_virtual=True)
## heap-scheduler.h: ns3::EventId ns3::HeapScheduler::RemoveNext() [member function]
cls.add_method('RemoveNext',
'ns3::EventId',
[],
is_virtual=True)
## heap-scheduler.h: bool ns3::HeapScheduler::Remove(ns3::EventId const & ev) [member function]
cls.add_method('Remove',
'bool',
[param('ns3::EventId&', 'ev', is_const=True)],
is_virtual=True)
return
def register_Ns3ListScheduler_methods(root_module, cls):
## list-scheduler.h: ns3::ListScheduler::ListScheduler() [constructor]
cls.add_constructor([])
## list-scheduler.h: void ns3::ListScheduler::Insert(ns3::EventId const & id) [member function]
cls.add_method('Insert',
'void',
[param('ns3::EventId&', 'id', is_const=True)],
is_virtual=True)
## list-scheduler.h: bool ns3::ListScheduler::IsEmpty() const [member function]
cls.add_method('IsEmpty',
'bool',
[],
is_const=True, is_virtual=True)
## list-scheduler.h: ns3::EventId ns3::ListScheduler::PeekNext() const [member function]
cls.add_method('PeekNext',
'ns3::EventId',
[],
is_const=True, is_virtual=True)
## list-scheduler.h: ns3::EventId ns3::ListScheduler::RemoveNext() [member function]
cls.add_method('RemoveNext',
'ns3::EventId',
[],
is_virtual=True)
## list-scheduler.h: bool ns3::ListScheduler::Remove(ns3::EventId const & ev) [member function]
cls.add_method('Remove',
'bool',
[param('ns3::EventId&', 'ev', is_const=True)],
is_virtual=True)
return
def register_Ns3MapScheduler_methods(root_module, cls):
## map-scheduler.h: ns3::MapScheduler::MapScheduler() [constructor]
cls.add_constructor([])
## map-scheduler.h: void ns3::MapScheduler::Insert(ns3::EventId const & id) [member function]
cls.add_method('Insert',
'void',
[param('ns3::EventId&', 'id', is_const=True)],
is_virtual=True)
## map-scheduler.h: bool ns3::MapScheduler::IsEmpty() const [member function]
cls.add_method('IsEmpty',
'bool',
[],
is_const=True, is_virtual=True)
## map-scheduler.h: ns3::EventId ns3::MapScheduler::PeekNext() const [member function]
cls.add_method('PeekNext',
'ns3::EventId',
[],
is_const=True, is_virtual=True)
## map-scheduler.h: ns3::EventId ns3::MapScheduler::RemoveNext() [member function]
cls.add_method('RemoveNext',
'ns3::EventId',
[],
is_virtual=True)
## map-scheduler.h: bool ns3::MapScheduler::Remove(ns3::EventId const & ev) [member function]
cls.add_method('Remove',
'bool',
[param('ns3::EventId&', 'ev', is_const=True)],
is_virtual=True)
return
def register_functions(root_module):
module = root_module
## high-precision.h: extern ns3::HighPrecision ns3::Max(ns3::HighPrecision const & a, ns3::HighPrecision const & b) [free function]
module.add_function('Max',
'ns3::HighPrecision',
[param('ns3::HighPrecision&', 'a', is_const=True), param('ns3::HighPrecision&', 'b', is_const=True)])
## nstime.h: extern ns3::Time ns3::FemtoSeconds(uint64_t fs) [free function]
module.add_function('FemtoSeconds',
'ns3::Time',
[param('uint64_t', 'fs')])
## nstime.h: extern ns3::Time ns3::MicroSeconds(uint64_t us) [free function]
module.add_function('MicroSeconds',
'ns3::Time',
[param('uint64_t', 'us')])
## simulator.h: extern ns3::Time ns3::Now() [free function]
module.add_function('Now',
'ns3::Time',
[])
## nstime.h: extern ns3::Time ns3::MilliSeconds(uint64_t ms) [free function]
module.add_function('MilliSeconds',
'ns3::Time',
[param('uint64_t', 'ms')])
## nstime.h: extern ns3::Time ns3::NanoSeconds(uint64_t ns) [free function]
module.add_function('NanoSeconds',
'ns3::Time',
[param('uint64_t', 'ns')])
## high-precision.h: extern ns3::HighPrecision ns3::Abs(ns3::HighPrecision const & value) [free function]
module.add_function('Abs',
'ns3::HighPrecision',
[param('ns3::HighPrecision&', 'value', is_const=True)])
## nstime.h: extern ns3::Ptr<ns3::AttributeChecker const> ns3::MakeTimeChecker() [free function]
module.add_function('MakeTimeChecker',
'ns3::Ptr< ns3::AttributeChecker const >',
[])
## nstime.h: extern ns3::Time ns3::Seconds(double seconds) [free function]
module.add_function('Seconds',
'ns3::Time',
[param('double', 'seconds')])
## nstime.h: extern ns3::Time ns3::PicoSeconds(uint64_t ps) [free function]
module.add_function('PicoSeconds',
'ns3::Time',
[param('uint64_t', 'ps')])
## high-precision.h: extern ns3::HighPrecision ns3::Min(ns3::HighPrecision const & a, ns3::HighPrecision const & b) [free function]
module.add_function('Min',
'ns3::HighPrecision',
[param('ns3::HighPrecision&', 'a', is_const=True), param('ns3::HighPrecision&', 'b', is_const=True)])
## nstime.h: extern ns3::Time ns3::TimeStep(uint64_t ts) [free function]
module.add_function('TimeStep',
'ns3::Time',
[param('uint64_t', 'ts')])
register_functions_ns3_internal(module.get_submodule('internal'), root_module)
register_functions_ns3_TimeStepPrecision(module.get_submodule('TimeStepPrecision'), root_module)
register_functions_ns3_Config(module.get_submodule('Config'), root_module)
register_functions_ns3_olsr(module.get_submodule('olsr'), root_module)
return
def register_functions_ns3_internal(module, root_module):
return
def register_functions_ns3_TimeStepPrecision(module, root_module):
## nstime.h: extern void ns3::TimeStepPrecision::Set(ns3::TimeStepPrecision::precision_t precision) [free function]
module.add_function('Set',
'void',
[param('ns3::TimeStepPrecision::precision_t', 'precision')])
## nstime.h: extern ns3::TimeStepPrecision::precision_t ns3::TimeStepPrecision::Get() [free function]
module.add_function('Get',
'ns3::TimeStepPrecision::precision_t',
[])
return
def register_functions_ns3_Config(module, root_module):
return
def register_functions_ns3_olsr(module, root_module):
return