from pybindgen import Module, FileCodeSink, param, retval, cppclass
def register_types(module):
root_module = module.get_root()
## csma-channel.h: ns3::WireState [enumeration]
module.add_enum('WireState', ['IDLE', 'TRANSMITTING', 'PROPAGATING'])
## csma-channel.h: ns3::CsmaDeviceRec [class]
module.add_class('CsmaDeviceRec')
## backoff.h: ns3::Backoff [class]
module.add_class('Backoff')
## csma-channel.h: ns3::CsmaChannel [class]
module.add_class('CsmaChannel', parent=root_module['ns3::Channel'])
## csma-net-device.h: ns3::CsmaNetDevice [class]
module.add_class('CsmaNetDevice', parent=root_module['ns3::NetDevice'])
## csma-net-device.h: ns3::CsmaNetDevice::EncapsulationMode [enumeration]
module.add_enum('EncapsulationMode', ['ETHERNET_V1', 'IP_ARP', 'RAW', 'LLC'], outer_class=root_module['ns3::CsmaNetDevice'])
## 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()
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_Ns3CsmaDeviceRec_methods(root_module, root_module['ns3::CsmaDeviceRec'])
register_Ns3Backoff_methods(root_module, root_module['ns3::Backoff'])
register_Ns3CsmaChannel_methods(root_module, root_module['ns3::CsmaChannel'])
register_Ns3CsmaNetDevice_methods(root_module, root_module['ns3::CsmaNetDevice'])
return
def register_Ns3CsmaDeviceRec_methods(root_module, cls):
## csma-channel.h: ns3::CsmaDeviceRec::devicePtr [variable]
cls.add_instance_attribute('devicePtr', 'ns3::Ptr< ns3::CsmaNetDevice >', is_const=False)
## csma-channel.h: ns3::CsmaDeviceRec::active [variable]
cls.add_instance_attribute('active', 'bool', is_const=False)
## csma-channel.h: ns3::CsmaDeviceRec::CsmaDeviceRec(ns3::CsmaDeviceRec const & arg0) [copy constructor]
cls.add_constructor([param('ns3::CsmaDeviceRec const &', 'arg0')])
## csma-channel.h: ns3::CsmaDeviceRec::CsmaDeviceRec() [constructor]
cls.add_constructor([])
## csma-channel.h: ns3::CsmaDeviceRec::CsmaDeviceRec(ns3::Ptr<ns3::CsmaNetDevice> device) [constructor]
cls.add_constructor([param('ns3::Ptr< ns3::CsmaNetDevice >', 'device')])
## csma-channel.h: bool ns3::CsmaDeviceRec::IsActive() [member function]
cls.add_method('IsActive',
'bool',
[])
return
def register_Ns3Backoff_methods(root_module, cls):
## backoff.h: ns3::Backoff::m_minSlots [variable]
cls.add_instance_attribute('m_minSlots', 'uint32_t', is_const=False)
## backoff.h: ns3::Backoff::m_maxSlots [variable]
cls.add_instance_attribute('m_maxSlots', 'uint32_t', is_const=False)
## backoff.h: ns3::Backoff::m_ceiling [variable]
cls.add_instance_attribute('m_ceiling', 'uint32_t', is_const=False)
## backoff.h: ns3::Backoff::m_maxRetries [variable]
cls.add_instance_attribute('m_maxRetries', 'uint32_t', is_const=False)
## backoff.h: ns3::Backoff::m_slotTime [variable]
cls.add_instance_attribute('m_slotTime', 'ns3::Time', is_const=False)
## backoff.h: ns3::Backoff::Backoff(ns3::Backoff const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Backoff const &', 'arg0')])
## backoff.h: ns3::Backoff::Backoff() [constructor]
cls.add_constructor([])
## backoff.h: ns3::Backoff::Backoff(ns3::Time slotTime, uint32_t minSlots, uint32_t maxSlots, uint32_t ceiling, uint32_t maxRetries) [constructor]
cls.add_constructor([param('ns3::Time', 'slotTime'), param('uint32_t', 'minSlots'), param('uint32_t', 'maxSlots'), param('uint32_t', 'ceiling'), param('uint32_t', 'maxRetries')])
## backoff.h: ns3::Time ns3::Backoff::GetBackoffTime() [member function]
cls.add_method('GetBackoffTime',
'ns3::Time',
[])
## backoff.h: void ns3::Backoff::ResetBackoffTime() [member function]
cls.add_method('ResetBackoffTime',
'void',
[])
## backoff.h: bool ns3::Backoff::MaxRetriesReached() [member function]
cls.add_method('MaxRetriesReached',
'bool',
[])
## backoff.h: void ns3::Backoff::IncrNumRetries() [member function]
cls.add_method('IncrNumRetries',
'void',
[])
return
def register_Ns3CsmaChannel_methods(root_module, cls):
## csma-channel.h: ns3::CsmaChannel::CsmaChannel(ns3::CsmaChannel const & arg0) [copy constructor]
cls.add_constructor([param('ns3::CsmaChannel const &', 'arg0')])
## csma-channel.h: static ns3::TypeId ns3::CsmaChannel::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## csma-channel.h: ns3::CsmaChannel::CsmaChannel() [constructor]
cls.add_constructor([])
## csma-channel.h: int32_t ns3::CsmaChannel::Attach(ns3::Ptr<ns3::CsmaNetDevice> device) [member function]
cls.add_method('Attach',
'int32_t',
[param('ns3::Ptr< ns3::CsmaNetDevice >', 'device')])
## csma-channel.h: bool ns3::CsmaChannel::Detach(ns3::Ptr<ns3::CsmaNetDevice> device) [member function]
cls.add_method('Detach',
'bool',
[param('ns3::Ptr< ns3::CsmaNetDevice >', 'device')])
## csma-channel.h: bool ns3::CsmaChannel::Detach(uint32_t deviceId) [member function]
cls.add_method('Detach',
'bool',
[param('uint32_t', 'deviceId')])
## csma-channel.h: bool ns3::CsmaChannel::Reattach(uint32_t deviceId) [member function]
cls.add_method('Reattach',
'bool',
[param('uint32_t', 'deviceId')])
## csma-channel.h: bool ns3::CsmaChannel::Reattach(ns3::Ptr<ns3::CsmaNetDevice> device) [member function]
cls.add_method('Reattach',
'bool',
[param('ns3::Ptr< ns3::CsmaNetDevice >', 'device')])
## csma-channel.h: bool ns3::CsmaChannel::TransmitStart(ns3::Ptr<ns3::Packet> p, uint32_t srcId) [member function]
cls.add_method('TransmitStart',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'p'), param('uint32_t', 'srcId')])
## csma-channel.h: bool ns3::CsmaChannel::TransmitEnd() [member function]
cls.add_method('TransmitEnd',
'bool',
[])
## csma-channel.h: void ns3::CsmaChannel::PropagationCompleteEvent() [member function]
cls.add_method('PropagationCompleteEvent',
'void',
[])
## csma-channel.h: int32_t ns3::CsmaChannel::GetDeviceNum(ns3::Ptr<ns3::CsmaNetDevice> device) [member function]
cls.add_method('GetDeviceNum',
'int32_t',
[param('ns3::Ptr< ns3::CsmaNetDevice >', 'device')])
## csma-channel.h: ns3::WireState ns3::CsmaChannel::GetState() [member function]
cls.add_method('GetState',
'ns3::WireState',
[])
## csma-channel.h: bool ns3::CsmaChannel::IsBusy() [member function]
cls.add_method('IsBusy',
'bool',
[])
## csma-channel.h: bool ns3::CsmaChannel::IsActive(uint32_t deviceId) [member function]
cls.add_method('IsActive',
'bool',
[param('uint32_t', 'deviceId')])
## csma-channel.h: uint32_t ns3::CsmaChannel::GetNumActDevices() [member function]
cls.add_method('GetNumActDevices',
'uint32_t',
[])
## csma-channel.h: uint32_t ns3::CsmaChannel::GetNDevices() const [member function]
cls.add_method('GetNDevices',
'uint32_t',
[],
is_const=True, is_virtual=True)
## csma-channel.h: ns3::Ptr<ns3::NetDevice> ns3::CsmaChannel::GetDevice(uint32_t i) const [member function]
cls.add_method('GetDevice',
'ns3::Ptr< ns3::NetDevice >',
[param('uint32_t', 'i')],
is_const=True, is_virtual=True)
## csma-channel.h: ns3::Ptr<ns3::CsmaNetDevice> ns3::CsmaChannel::GetCsmaDevice(uint32_t i) const [member function]
cls.add_method('GetCsmaDevice',
'ns3::Ptr< ns3::CsmaNetDevice >',
[param('uint32_t', 'i')],
is_const=True)
## csma-channel.h: ns3::DataRate ns3::CsmaChannel::GetDataRate() [member function]
cls.add_method('GetDataRate',
'ns3::DataRate',
[],
is_virtual=True)
## csma-channel.h: ns3::Time ns3::CsmaChannel::GetDelay() [member function]
cls.add_method('GetDelay',
'ns3::Time',
[],
is_virtual=True)
return
def register_Ns3CsmaNetDevice_methods(root_module, cls):
## csma-net-device.h: static ns3::TypeId ns3::CsmaNetDevice::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## csma-net-device.h: ns3::CsmaNetDevice::CsmaNetDevice() [constructor]
cls.add_constructor([])
## csma-net-device.h: void ns3::CsmaNetDevice::SetInterframeGap(ns3::Time t) [member function]
cls.add_method('SetInterframeGap',
'void',
[param('ns3::Time', 't')])
## csma-net-device.h: void ns3::CsmaNetDevice::SetBackoffParams(ns3::Time slotTime, uint32_t minSlots, uint32_t maxSlots, uint32_t maxRetries, uint32_t ceiling) [member function]
cls.add_method('SetBackoffParams',
'void',
[param('ns3::Time', 'slotTime'), param('uint32_t', 'minSlots'), param('uint32_t', 'maxSlots'), param('uint32_t', 'maxRetries'), param('uint32_t', 'ceiling')])
## csma-net-device.h: bool ns3::CsmaNetDevice::Attach(ns3::Ptr<ns3::CsmaChannel> ch) [member function]
cls.add_method('Attach',
'bool',
[param('ns3::Ptr< ns3::CsmaChannel >', 'ch')])
## csma-net-device.h: void ns3::CsmaNetDevice::SetQueue(ns3::Ptr<ns3::Queue> queue) [member function]
cls.add_method('SetQueue',
'void',
[param('ns3::Ptr< ns3::Queue >', 'queue')])
## csma-net-device.h: void ns3::CsmaNetDevice::SetReceiveErrorModel(ns3::Ptr<ns3::ErrorModel> em) [member function]
cls.add_method('SetReceiveErrorModel',
'void',
[param('ns3::Ptr< ns3::ErrorModel >', 'em')])
## csma-net-device.h: void ns3::CsmaNetDevice::Receive(ns3::Ptr<ns3::Packet> p, ns3::Ptr<ns3::CsmaNetDevice> sender) [member function]
cls.add_method('Receive',
'void',
[param('ns3::Ptr< ns3::Packet >', 'p'), param('ns3::Ptr< ns3::CsmaNetDevice >', 'sender')])
## csma-net-device.h: bool ns3::CsmaNetDevice::IsSendEnabled() [member function]
cls.add_method('IsSendEnabled',
'bool',
[])
## csma-net-device.h: void ns3::CsmaNetDevice::SetSendEnable(bool enable) [member function]
cls.add_method('SetSendEnable',
'void',
[param('bool', 'enable')])
## csma-net-device.h: bool ns3::CsmaNetDevice::IsReceiveEnabled() [member function]
cls.add_method('IsReceiveEnabled',
'bool',
[])
## csma-net-device.h: void ns3::CsmaNetDevice::SetReceiveEnable(bool enable) [member function]
cls.add_method('SetReceiveEnable',
'void',
[param('bool', 'enable')])
## csma-net-device.h: void ns3::CsmaNetDevice::SetAddress(ns3::Mac48Address addr) [member function]
cls.add_method('SetAddress',
'void',
[param('ns3::Mac48Address', 'addr')])
## csma-net-device.h: void ns3::CsmaNetDevice::SetMaxPayloadLength(uint16_t maxPayloadLength) [member function]
cls.add_method('SetMaxPayloadLength',
'void',
[param('uint16_t', 'maxPayloadLength')])
## csma-net-device.h: uint16_t ns3::CsmaNetDevice::GetMaxPayloadLength() const [member function]
cls.add_method('GetMaxPayloadLength',
'uint16_t',
[],
is_const=True)
## csma-net-device.h: void ns3::CsmaNetDevice::SetMacMtu(uint16_t mtu) [member function]
cls.add_method('SetMacMtu',
'void',
[param('uint16_t', 'mtu')])
## csma-net-device.h: uint16_t ns3::CsmaNetDevice::GetMacMtu() const [member function]
cls.add_method('GetMacMtu',
'uint16_t',
[],
is_const=True)
## csma-net-device.h: void ns3::CsmaNetDevice::SetEncapsulationMode(ns3::CsmaNetDevice::EncapsulationMode mode) [member function]
cls.add_method('SetEncapsulationMode',
'void',
[param('ns3::CsmaNetDevice::EncapsulationMode', 'mode')])
## csma-net-device.h: ns3::CsmaNetDevice::EncapsulationMode ns3::CsmaNetDevice::GetEncapsulationMode() [member function]
cls.add_method('GetEncapsulationMode',
'ns3::CsmaNetDevice::EncapsulationMode',
[])
## csma-net-device.h: void ns3::CsmaNetDevice::SetName(std::string const name) [member function]
cls.add_method('SetName',
'void',
[param('std::string const', 'name')],
is_virtual=True)
## csma-net-device.h: std::string ns3::CsmaNetDevice::GetName() const [member function]
cls.add_method('GetName',
'std::string',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: void ns3::CsmaNetDevice::SetIfIndex(uint32_t const index) [member function]
cls.add_method('SetIfIndex',
'void',
[param('uint32_t const', 'index')],
is_virtual=True)
## csma-net-device.h: uint32_t ns3::CsmaNetDevice::GetIfIndex() const [member function]
cls.add_method('GetIfIndex',
'uint32_t',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: ns3::Ptr<ns3::Channel> ns3::CsmaNetDevice::GetChannel() const [member function]
cls.add_method('GetChannel',
'ns3::Ptr< ns3::Channel >',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: bool ns3::CsmaNetDevice::SetMtu(uint16_t const mtu) [member function]
cls.add_method('SetMtu',
'bool',
[param('uint16_t const', 'mtu')],
is_virtual=True)
## csma-net-device.h: uint16_t ns3::CsmaNetDevice::GetMtu() const [member function]
cls.add_method('GetMtu',
'uint16_t',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: ns3::Address ns3::CsmaNetDevice::GetAddress() const [member function]
cls.add_method('GetAddress',
'ns3::Address',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: bool ns3::CsmaNetDevice::IsLinkUp() const [member function]
cls.add_method('IsLinkUp',
'bool',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: void ns3::CsmaNetDevice::SetLinkChangeCallback(ns3::Callback<void, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> callback) [member function]
cls.add_method('SetLinkChangeCallback',
'void',
[param('ns3::Callback< void, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'callback')],
is_virtual=True)
## csma-net-device.h: bool ns3::CsmaNetDevice::IsBroadcast() const [member function]
cls.add_method('IsBroadcast',
'bool',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: ns3::Address ns3::CsmaNetDevice::GetBroadcast() const [member function]
cls.add_method('GetBroadcast',
'ns3::Address',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: bool ns3::CsmaNetDevice::IsMulticast() const [member function]
cls.add_method('IsMulticast',
'bool',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: ns3::Address ns3::CsmaNetDevice::GetMulticast() const [member function]
cls.add_method('GetMulticast',
'ns3::Address',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: ns3::Address ns3::CsmaNetDevice::MakeMulticastAddress(ns3::Ipv4Address multicastGroup) const [member function]
cls.add_method('MakeMulticastAddress',
'ns3::Address',
[param('ns3::Ipv4Address', 'multicastGroup')],
is_const=True, is_virtual=True)
## csma-net-device.h: bool ns3::CsmaNetDevice::IsPointToPoint() const [member function]
cls.add_method('IsPointToPoint',
'bool',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: bool ns3::CsmaNetDevice::Send(ns3::Ptr<ns3::Packet> packet, ns3::Address const & dest, uint16_t protocolNumber) [member function]
cls.add_method('Send',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'packet'), param('ns3::Address const &', 'dest'), param('uint16_t', 'protocolNumber')],
is_virtual=True)
## csma-net-device.h: bool ns3::CsmaNetDevice::SendFrom(ns3::Ptr<ns3::Packet> packet, ns3::Address const & source, ns3::Address const & dest, uint16_t protocolNumber) [member function]
cls.add_method('SendFrom',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'packet'), param('ns3::Address const &', 'source'), param('ns3::Address const &', 'dest'), param('uint16_t', 'protocolNumber')],
is_virtual=True)
## csma-net-device.h: ns3::Ptr<ns3::Node> ns3::CsmaNetDevice::GetNode() const [member function]
cls.add_method('GetNode',
'ns3::Ptr< ns3::Node >',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: void ns3::CsmaNetDevice::SetNode(ns3::Ptr<ns3::Node> node) [member function]
cls.add_method('SetNode',
'void',
[param('ns3::Ptr< ns3::Node >', 'node')],
is_virtual=True)
## csma-net-device.h: bool ns3::CsmaNetDevice::NeedsArp() const [member function]
cls.add_method('NeedsArp',
'bool',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: void ns3::CsmaNetDevice::SetReceiveCallback(ns3::Callback<bool, ns3::Ptr<ns3::NetDevice>, ns3::Ptr<ns3::Packet const>, unsigned short, ns3::Address const&, ns3::empty, ns3::empty> cb) [member function]
cls.add_method('SetReceiveCallback',
'void',
[param('ns3::Callback< bool, ns3::Ptr< ns3::NetDevice >, ns3::Ptr< ns3::Packet const >, unsigned short, ns3::Address const&, ns3::empty, ns3::empty >', 'cb')],
is_virtual=True)
## csma-net-device.h: void ns3::CsmaNetDevice::SetPromiscReceiveCallback(ns3::Callback<bool, ns3::Ptr<ns3::NetDevice>, ns3::Ptr<ns3::Packet const>, unsigned short, ns3::Address const&, ns3::Address const&, ns3::NetDevice::PacketType> cb) [member function]
cls.add_method('SetPromiscReceiveCallback',
'void',
[param('ns3::Callback< bool, ns3::Ptr< ns3::NetDevice >, ns3::Ptr< ns3::Packet const >, unsigned short, ns3::Address const&, ns3::Address const&, ns3::NetDevice::PacketType >', 'cb')],
is_virtual=True)
## csma-net-device.h: bool ns3::CsmaNetDevice::SupportsSendFrom() const [member function]
cls.add_method('SupportsSendFrom',
'bool',
[],
is_const=True, is_virtual=True)
## csma-net-device.h: void ns3::CsmaNetDevice::DoDispose() [member function]
cls.add_method('DoDispose',
'void',
[],
visibility='protected', is_virtual=True)
## csma-net-device.h: ns3::Ptr<ns3::Queue> ns3::CsmaNetDevice::GetQueue() const [member function]
cls.add_method('GetQueue',
'ns3::Ptr< ns3::Queue >',
[],
is_const=True, visibility='protected')
## csma-net-device.h: void ns3::CsmaNetDevice::AddHeader(ns3::Ptr<ns3::Packet> p, ns3::Mac48Address source, ns3::Mac48Address dest, uint16_t protocolNumber) [member function]
cls.add_method('AddHeader',
'void',
[param('ns3::Ptr< ns3::Packet >', 'p'), param('ns3::Mac48Address', 'source'), param('ns3::Mac48Address', 'dest'), param('uint16_t', 'protocolNumber')],
visibility='protected')
## csma-net-device.h: bool ns3::CsmaNetDevice::ProcessHeader(ns3::Ptr<ns3::Packet> p, uint16_t & param) [member function]
cls.add_method('ProcessHeader',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'p'), param('uint16_t &', 'param')],
visibility='protected')
return
def register_functions(root_module):
module = root_module
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):
return
def register_functions_ns3_Config(module, root_module):
return
def register_functions_ns3_olsr(module, root_module):
return