## ipv4-header.h (module 'internet'): uint16_t ns3::Ipv4Header::GetFragmentOffset() const [member function] cls.add_method('GetFragmentOffset', 'uint16_t', [], is_const=True) ## ipv4-header.h (module 'internet'): uint16_t ns3::Ipv4Header::GetIdentification() const [member function] cls.add_method('GetIdentification', 'uint16_t', [], is_const=True) ## ipv4-header.h (module 'internet'): ns3::TypeId ns3::Ipv4Header::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## ipv4-header.h (module 'internet'): uint16_t ns3::Ipv4Header::GetPayloadSize() const [member function] cls.add_method('GetPayloadSize', 'uint16_t', [], is_const=True) ## ipv4-header.h (module 'internet'): uint8_t ns3::Ipv4Header::GetProtocol() const [member function] cls.add_method('GetProtocol', 'uint8_t', [], is_const=True) ## ipv4-header.h (module 'internet'): uint32_t ns3::Ipv4Header::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## ipv4-header.h (module 'internet'): ns3::Ipv4Address ns3::Ipv4Header::GetSource() const [member function] cls.add_method('GetSource', 'ns3::Ipv4Address', [], is_const=True) ## ipv4-header.h (module 'internet'): uint8_t ns3::Ipv4Header::GetTos() const [member function] cls.add_method('GetTos', 'uint8_t', [], is_const=True) ## ipv4-header.h (module 'internet'): uint8_t ns3::Ipv4Header::GetTtl() const [member function] cls.add_method('GetTtl', 'uint8_t', [], is_const=True) ## ipv4-header.h (module 'internet'): static ns3::TypeId ns3::Ipv4Header::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## ipv4-header.h (module 'internet'): bool ns3::Ipv4Header::IsChecksumOk() const [member function] cls.add_method('IsChecksumOk', 'bool', [], is_const=True) ## ipv4-header.h (module 'internet'): bool ns3::Ipv4Header::IsDontFragment() const [member function] cls.add_method('IsDontFragment', 'bool', [], is_const=True) ## ipv4-header.h (module 'internet'): bool ns3::Ipv4Header::IsLastFragment() const [member function] cls.add_method('IsLastFragment', 'bool', [], is_const=True) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::Serialize(ns3::Buffer::Iterator start) const [member function] cls.add_method('Serialize', 'void', [param('ns3::Buffer::Iterator', 'start')], is_const=True, is_virtual=True) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetDestination(ns3::Ipv4Address destination) [member function] cls.add_method('SetDestination', 'void', [param('ns3::Ipv4Address', 'destination')]) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetDontFragment() [member function] cls.add_method('SetDontFragment', 'void', []) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetDscp(ns3::Ipv4Header::DscpType dscp) [member function] cls.add_method('SetDscp', 'void', [param('ns3::Ipv4Header::DscpType', 'dscp')]) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetEcn(ns3::Ipv4Header::EcnType ecn) [member function] cls.add_method('SetEcn', 'void', [param('ns3::Ipv4Header::EcnType', 'ecn')]) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetFragmentOffset(uint16_t offsetBytes) [member function] cls.add_method('SetFragmentOffset', 'void', [param('uint16_t', 'offsetBytes')]) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetIdentification(uint16_t identification) [member function] cls.add_method('SetIdentification', 'void', [param('uint16_t', 'identification')]) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetLastFragment() [member function] cls.add_method('SetLastFragment', 'void', []) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetMayFragment() [member function] cls.add_method('SetMayFragment', 'void', []) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetMoreFragments() [member function] cls.add_method('SetMoreFragments', 'void', []) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetPayloadSize(uint16_t size) [member function] cls.add_method('SetPayloadSize', 'void', [param('uint16_t', 'size')]) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetProtocol(uint8_t num) [member function] cls.add_method('SetProtocol', 'void', [param('uint8_t', 'num')]) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetSource(ns3::Ipv4Address source) [member function] cls.add_method('SetSource', 'void', [param('ns3::Ipv4Address', 'source')]) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetTos(uint8_t tos) [member function] cls.add_method('SetTos', 'void', [param('uint8_t', 'tos')]) ## ipv4-header.h (module 'internet'): void ns3::Ipv4Header::SetTtl(uint8_t ttl) [member function] cls.add_method('SetTtl', 'void', [param('uint8_t', 'ttl')]) return def register_Ns3Ipv6Header_methods(root_module, cls): ## ipv6-header.h (module 'internet'): ns3::Ipv6Header::Ipv6Header(ns3::Ipv6Header const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv6Header const &', 'arg0')]) ## ipv6-header.h (module 'internet'): ns3::Ipv6Header::Ipv6Header() [constructor] cls.add_constructor([]) ## ipv6-header.h (module 'internet'): uint32_t ns3::Ipv6Header::Deserialize(ns3::Buffer::Iterator start) [member function] cls.add_method('Deserialize', 'uint32_t', [param('ns3::Buffer::Iterator', 'start')], is_virtual=True) ## ipv6-header.h (module 'internet'): ns3::Ipv6Address ns3::Ipv6Header::GetDestinationAddress() const [member function] cls.add_method('GetDestinationAddress', 'ns3::Ipv6Address', [], is_const=True) ## ipv6-header.h (module 'internet'): uint32_t ns3::Ipv6Header::GetFlowLabel() const [member function] cls.add_method('GetFlowLabel', 'uint32_t', [], is_const=True) ## ipv6-header.h (module 'internet'): uint8_t ns3::Ipv6Header::GetHopLimit() const [member function] cls.add_method('GetHopLimit', 'uint8_t', [], is_const=True) ## ipv6-header.h (module 'internet'): ns3::TypeId ns3::Ipv6Header::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## ipv6-header.h (module 'internet'): uint8_t ns3::Ipv6Header::GetNextHeader() const [member function] cls.add_method('GetNextHeader', 'uint8_t', [], is_const=True) ## ipv6-header.h (module 'internet'): uint16_t ns3::Ipv6Header::GetPayloadLength() const [member function] cls.add_method('GetPayloadLength', 'uint16_t', [], is_const=True) ## ipv6-header.h (module 'internet'): uint32_t ns3::Ipv6Header::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## ipv6-header.h (module 'internet'): ns3::Ipv6Address ns3::Ipv6Header::GetSourceAddress() const [member function] cls.add_method('GetSourceAddress', 'ns3::Ipv6Address', [], is_const=True) ## ipv6-header.h (module 'internet'): uint8_t ns3::Ipv6Header::GetTrafficClass() const [member function] cls.add_method('GetTrafficClass', 'uint8_t', [], is_const=True) ## ipv6-header.h (module 'internet'): static ns3::TypeId ns3::Ipv6Header::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## ipv6-header.h (module 'internet'): void ns3::Ipv6Header::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## ipv6-header.h (module 'internet'): void ns3::Ipv6Header::Serialize(ns3::Buffer::Iterator start) const [member function] cls.add_method('Serialize', 'void', [param('ns3::Buffer::Iterator', 'start')], is_const=True, is_virtual=True) ## ipv6-header.h (module 'internet'): void ns3::Ipv6Header::SetDestinationAddress(ns3::Ipv6Address dst) [member function] cls.add_method('SetDestinationAddress', 'void', [param('ns3::Ipv6Address', 'dst')]) ## ipv6-header.h (module 'internet'): void ns3::Ipv6Header::SetFlowLabel(uint32_t flow) [member function] cls.add_method('SetFlowLabel', 'void', [param('uint32_t', 'flow')]) ## ipv6-header.h (module 'internet'): void ns3::Ipv6Header::SetHopLimit(uint8_t limit) [member function] cls.add_method('SetHopLimit', 'void', [param('uint8_t', 'limit')]) ## ipv6-header.h (module 'internet'): void ns3::Ipv6Header::SetNextHeader(uint8_t next) [member function] cls.add_method('SetNextHeader', 'void', [param('uint8_t', 'next')]) ## ipv6-header.h (module 'internet'): void ns3::Ipv6Header::SetPayloadLength(uint16_t len) [member function] cls.add_method('SetPayloadLength', 'void', [param('uint16_t', 'len')]) ## ipv6-header.h (module 'internet'): void ns3::Ipv6Header::SetSourceAddress(ns3::Ipv6Address src) [member function] cls.add_method('SetSourceAddress', 'void', [param('ns3::Ipv6Address', 'src')]) ## ipv6-header.h (module 'internet'): void ns3::Ipv6Header::SetTrafficClass(uint8_t traffic) [member function] cls.add_method('SetTrafficClass', 'void', [param('uint8_t', 'traffic')]) return def register_Ns3Object_methods(root_module, cls): ## object.h (module 'core'): ns3::Object::Object() [constructor] cls.add_constructor([]) ## object.h (module 'core'): void ns3::Object::AggregateObject(ns3::Ptr other) [member function] cls.add_method('AggregateObject', 'void', [param('ns3::Ptr< ns3::Object >', 'other')]) ## object.h (module 'core'): void ns3::Object::Dispose() [member function] cls.add_method('Dispose', 'void', []) ## object.h (module 'core'): ns3::Object::AggregateIterator ns3::Object::GetAggregateIterator() const [member function] cls.add_method('GetAggregateIterator', 'ns3::Object::AggregateIterator', [], is_const=True) ## object.h (module 'core'): ns3::TypeId ns3::Object::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## object.h (module 'core'): static ns3::TypeId ns3::Object::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## object.h (module 'core'): void ns3::Object::Initialize() [member function] cls.add_method('Initialize', 'void', []) ## object.h (module 'core'): ns3::Object::Object(ns3::Object const & o) [copy constructor] cls.add_constructor([param('ns3::Object const &', 'o')], visibility='protected') ## object.h (module 'core'): void ns3::Object::DoDispose() [member function] cls.add_method('DoDispose', 'void', [], visibility='protected', is_virtual=True) ## object.h (module 'core'): void ns3::Object::DoInitialize() [member function] cls.add_method('DoInitialize', 'void', [], visibility='protected', is_virtual=True) ## object.h (module 'core'): void ns3::Object::NotifyNewAggregate() [member function] cls.add_method('NotifyNewAggregate', 'void', [], visibility='protected', is_virtual=True) return def register_Ns3ObjectAggregateIterator_methods(root_module, cls): ## object.h (module 'core'): ns3::Object::AggregateIterator::AggregateIterator(ns3::Object::AggregateIterator const & arg0) [copy constructor] cls.add_constructor([param('ns3::Object::AggregateIterator const &', 'arg0')]) ## object.h (module 'core'): ns3::Object::AggregateIterator::AggregateIterator() [constructor] cls.add_constructor([]) ## object.h (module 'core'): bool ns3::Object::AggregateIterator::HasNext() const [member function] cls.add_method('HasNext', 'bool', [], is_const=True) ## object.h (module 'core'): ns3::Ptr ns3::Object::AggregateIterator::Next() [member function] cls.add_method('Next', 'ns3::Ptr< ns3::Object const >', []) return def register_Ns3RandomVariableStream_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::RandomVariableStream::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::RandomVariableStream::RandomVariableStream() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): void ns3::RandomVariableStream::SetStream(int64_t stream) [member function] cls.add_method('SetStream', 'void', [param('int64_t', 'stream')]) ## random-variable-stream.h (module 'core'): int64_t ns3::RandomVariableStream::GetStream() const [member function] cls.add_method('GetStream', 'int64_t', [], is_const=True) ## random-variable-stream.h (module 'core'): void ns3::RandomVariableStream::SetAntithetic(bool isAntithetic) [member function] cls.add_method('SetAntithetic', 'void', [param('bool', 'isAntithetic')]) ## random-variable-stream.h (module 'core'): bool ns3::RandomVariableStream::IsAntithetic() const [member function] cls.add_method('IsAntithetic', 'bool', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::RandomVariableStream::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_pure_virtual=True, is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::RandomVariableStream::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_pure_virtual=True, is_virtual=True) ## random-variable-stream.h (module 'core'): ns3::RngStream * ns3::RandomVariableStream::Peek() const [member function] cls.add_method('Peek', 'ns3::RngStream *', [], is_const=True, visibility='protected') return def register_Ns3SequentialRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::SequentialRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::SequentialRandomVariable::SequentialRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): double ns3::SequentialRandomVariable::GetMin() const [member function] cls.add_method('GetMin', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::SequentialRandomVariable::GetMax() const [member function] cls.add_method('GetMax', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): ns3::Ptr ns3::SequentialRandomVariable::GetIncrement() const [member function] cls.add_method('GetIncrement', 'ns3::Ptr< ns3::RandomVariableStream >', [], is_const=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::SequentialRandomVariable::GetConsecutive() const [member function] cls.add_method('GetConsecutive', 'uint32_t', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::SequentialRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::SequentialRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3SimpleRefCount__Ns3AttributeAccessor_Ns3Empty_Ns3DefaultDeleter__lt__ns3AttributeAccessor__gt___methods(root_module, cls): ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount() [constructor] cls.add_constructor([]) ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount(ns3::SimpleRefCount > const & o) [copy constructor] cls.add_constructor([param('ns3::SimpleRefCount< ns3::AttributeAccessor, ns3::empty, ns3::DefaultDeleter< ns3::AttributeAccessor > > const &', 'o')]) ## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount >::Cleanup() [member function] cls.add_method('Cleanup', 'void', [], is_static=True) return def register_Ns3SimpleRefCount__Ns3AttributeChecker_Ns3Empty_Ns3DefaultDeleter__lt__ns3AttributeChecker__gt___methods(root_module, cls): ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount() [constructor] cls.add_constructor([]) ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount(ns3::SimpleRefCount > const & o) [copy constructor] cls.add_constructor([param('ns3::SimpleRefCount< ns3::AttributeChecker, ns3::empty, ns3::DefaultDeleter< ns3::AttributeChecker > > const &', 'o')]) ## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount >::Cleanup() [member function] cls.add_method('Cleanup', 'void', [], is_static=True) return def register_Ns3SimpleRefCount__Ns3AttributeValue_Ns3Empty_Ns3DefaultDeleter__lt__ns3AttributeValue__gt___methods(root_module, cls): ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount() [constructor] cls.add_constructor([]) ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount(ns3::SimpleRefCount > const & o) [copy constructor] cls.add_constructor([param('ns3::SimpleRefCount< ns3::AttributeValue, ns3::empty, ns3::DefaultDeleter< ns3::AttributeValue > > const &', 'o')]) ## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount >::Cleanup() [member function] cls.add_method('Cleanup', 'void', [], is_static=True) return def register_Ns3SimpleRefCount__Ns3CallbackImplBase_Ns3Empty_Ns3DefaultDeleter__lt__ns3CallbackImplBase__gt___methods(root_module, cls): ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount() [constructor] cls.add_constructor([]) ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount(ns3::SimpleRefCount > const & o) [copy constructor] cls.add_constructor([param('ns3::SimpleRefCount< ns3::CallbackImplBase, ns3::empty, ns3::DefaultDeleter< ns3::CallbackImplBase > > const &', 'o')]) ## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount >::Cleanup() [member function] cls.add_method('Cleanup', 'void', [], is_static=True) return def register_Ns3SimpleRefCount__Ns3EventImpl_Ns3Empty_Ns3DefaultDeleter__lt__ns3EventImpl__gt___methods(root_module, cls): ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount() [constructor] cls.add_constructor([]) ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount(ns3::SimpleRefCount > const & o) [copy constructor] cls.add_constructor([param('ns3::SimpleRefCount< ns3::EventImpl, ns3::empty, ns3::DefaultDeleter< ns3::EventImpl > > const &', 'o')]) ## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount >::Cleanup() [member function] cls.add_method('Cleanup', 'void', [], is_static=True) return def register_Ns3SimpleRefCount__Ns3Ipv4MulticastRoute_Ns3Empty_Ns3DefaultDeleter__lt__ns3Ipv4MulticastRoute__gt___methods(root_module, cls): ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount() [constructor] cls.add_constructor([]) ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount(ns3::SimpleRefCount > const & o) [copy constructor] cls.add_constructor([param('ns3::SimpleRefCount< ns3::Ipv4MulticastRoute, ns3::empty, ns3::DefaultDeleter< ns3::Ipv4MulticastRoute > > const &', 'o')]) ## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount >::Cleanup() [member function] cls.add_method('Cleanup', 'void', [], is_static=True) return def register_Ns3SimpleRefCount__Ns3Ipv4Route_Ns3Empty_Ns3DefaultDeleter__lt__ns3Ipv4Route__gt___methods(root_module, cls): ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount() [constructor] cls.add_constructor([]) ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount(ns3::SimpleRefCount > const & o) [copy constructor] cls.add_constructor([param('ns3::SimpleRefCount< ns3::Ipv4Route, ns3::empty, ns3::DefaultDeleter< ns3::Ipv4Route > > const &', 'o')]) ## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount >::Cleanup() [member function] cls.add_method('Cleanup', 'void', [], is_static=True) return def register_Ns3SimpleRefCount__Ns3NixVector_Ns3Empty_Ns3DefaultDeleter__lt__ns3NixVector__gt___methods(root_module, cls): ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount() [constructor] cls.add_constructor([]) ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount(ns3::SimpleRefCount > const & o) [copy constructor] cls.add_constructor([param('ns3::SimpleRefCount< ns3::NixVector, ns3::empty, ns3::DefaultDeleter< ns3::NixVector > > const &', 'o')]) ## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount >::Cleanup() [member function] cls.add_method('Cleanup', 'void', [], is_static=True) return def register_Ns3SimpleRefCount__Ns3OutputStreamWrapper_Ns3Empty_Ns3DefaultDeleter__lt__ns3OutputStreamWrapper__gt___methods(root_module, cls): ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount() [constructor] cls.add_constructor([]) ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount(ns3::SimpleRefCount > const & o) [copy constructor] cls.add_constructor([param('ns3::SimpleRefCount< ns3::OutputStreamWrapper, ns3::empty, ns3::DefaultDeleter< ns3::OutputStreamWrapper > > const &', 'o')]) ## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount >::Cleanup() [member function] cls.add_method('Cleanup', 'void', [], is_static=True) return def register_Ns3SimpleRefCount__Ns3Packet_Ns3Empty_Ns3DefaultDeleter__lt__ns3Packet__gt___methods(root_module, cls): ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount() [constructor] cls.add_constructor([]) ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount(ns3::SimpleRefCount > const & o) [copy constructor] cls.add_constructor([param('ns3::SimpleRefCount< ns3::Packet, ns3::empty, ns3::DefaultDeleter< ns3::Packet > > const &', 'o')]) ## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount >::Cleanup() [member function] cls.add_method('Cleanup', 'void', [], is_static=True) return def register_Ns3SimpleRefCount__Ns3TraceSourceAccessor_Ns3Empty_Ns3DefaultDeleter__lt__ns3TraceSourceAccessor__gt___methods(root_module, cls): ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount() [constructor] cls.add_constructor([]) ## simple-ref-count.h (module 'core'): ns3::SimpleRefCount >::SimpleRefCount(ns3::SimpleRefCount > const & o) [copy constructor] cls.add_constructor([param('ns3::SimpleRefCount< ns3::TraceSourceAccessor, ns3::empty, ns3::DefaultDeleter< ns3::TraceSourceAccessor > > const &', 'o')]) ## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount >::Cleanup() [member function] cls.add_method('Cleanup', 'void', [], is_static=True) return def register_Ns3Socket_methods(root_module, cls): ## socket.h (module 'network'): ns3::Socket::Socket(ns3::Socket const & arg0) [copy constructor] cls.add_constructor([param('ns3::Socket const &', 'arg0')]) ## socket.h (module 'network'): ns3::Socket::Socket() [constructor] cls.add_constructor([]) ## socket.h (module 'network'): int ns3::Socket::Bind(ns3::Address const & address) [member function] cls.add_method('Bind', 'int', [param('ns3::Address const &', 'address')], is_pure_virtual=True, is_virtual=True) ## socket.h (module 'network'): int ns3::Socket::Bind() [member function] cls.add_method('Bind', 'int', [], is_pure_virtual=True, is_virtual=True) ## socket.h (module 'network'): int ns3::Socket::Bind6() [member function] cls.add_method('Bind6', 'int', [], is_pure_virtual=True, is_virtual=True) ## socket.h (module 'network'): void ns3::Socket::BindToNetDevice(ns3::Ptr netdevice) [member function] cls.add_method('BindToNetDevice', 'void', [param('ns3::Ptr< ns3::NetDevice >', 'netdevice')], is_virtual=True) ## socket.h (module 'network'): int ns3::Socket::Close() [member function] cls.add_method('Close', 'int', [], is_pure_virtual=True, is_virtual=True) ## socket.h (module 'network'): int ns3::Socket::Connect(ns3::Address const & address) [member function] cls.add_method('Connect', 'int', [param('ns3::Address const &', 'address')], is_pure_virtual=True, is_virtual=True) ## socket.h (module 'network'): static ns3::Ptr ns3::Socket::CreateSocket(ns3::Ptr node, ns3::TypeId tid) [member function] cls.add_method('CreateSocket', 'ns3::Ptr< ns3::Socket >', [param('ns3::Ptr< ns3::Node >', 'node'), param('ns3::TypeId', 'tid')], is_static=True) ## socket.h (module 'network'): bool ns3::Socket::GetAllowBroadcast() const [member function] cls.add_method('GetAllowBroadcast', 'bool', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## socket.h (module 'network'): ns3::Ptr ns3::Socket::GetBoundNetDevice() [member function] cls.add_method('GetBoundNetDevice', 'ns3::Ptr< ns3::NetDevice >', []) ## socket.h (module 'network'): ns3::Socket::SocketErrno ns3::Socket::GetErrno() const [member function] cls.add_method('GetErrno', 'ns3::Socket::SocketErrno', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## socket.h (module 'network'): uint8_t ns3::Socket::GetIpTos() const [member function] cls.add_method('GetIpTos', 'uint8_t', [], is_const=True) ## socket.h (module 'network'): uint8_t ns3::Socket::GetIpTtl() const [member function] cls.add_method('GetIpTtl', 'uint8_t', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): uint8_t ns3::Socket::GetIpv6HopLimit() const [member function] cls.add_method('GetIpv6HopLimit', 'uint8_t', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): uint8_t ns3::Socket::GetIpv6Tclass() const [member function] cls.add_method('GetIpv6Tclass', 'uint8_t', [], is_const=True) ## socket.h (module 'network'): ns3::Ptr ns3::Socket::GetNode() const [member function] cls.add_method('GetNode', 'ns3::Ptr< ns3::Node >', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## socket.h (module 'network'): uint32_t ns3::Socket::GetRxAvailable() const [member function] cls.add_method('GetRxAvailable', 'uint32_t', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## socket.h (module 'network'): int ns3::Socket::GetSockName(ns3::Address & address) const [member function] cls.add_method('GetSockName', 'int', [param('ns3::Address &', 'address')], is_pure_virtual=True, is_const=True, is_virtual=True) ## socket.h (module 'network'): ns3::Socket::SocketType ns3::Socket::GetSocketType() const [member function] cls.add_method('GetSocketType', 'ns3::Socket::SocketType', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## socket.h (module 'network'): uint32_t ns3::Socket::GetTxAvailable() const [member function] cls.add_method('GetTxAvailable', 'uint32_t', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## socket.h (module 'network'): static ns3::TypeId ns3::Socket::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## socket.h (module 'network'): bool ns3::Socket::IsIpRecvTos() const [member function] cls.add_method('IsIpRecvTos', 'bool', [], is_const=True) ## socket.h (module 'network'): bool ns3::Socket::IsIpRecvTtl() const [member function] cls.add_method('IsIpRecvTtl', 'bool', [], is_const=True) ## socket.h (module 'network'): bool ns3::Socket::IsIpv6RecvHopLimit() const [member function] cls.add_method('IsIpv6RecvHopLimit', 'bool', [], is_const=True) ## socket.h (module 'network'): bool ns3::Socket::IsIpv6RecvTclass() const [member function] cls.add_method('IsIpv6RecvTclass', 'bool', [], is_const=True) ## socket.h (module 'network'): bool ns3::Socket::IsRecvPktInfo() const [member function] cls.add_method('IsRecvPktInfo', 'bool', [], is_const=True) ## socket.h (module 'network'): int ns3::Socket::Listen() [member function] cls.add_method('Listen', 'int', [], is_pure_virtual=True, is_virtual=True) ## socket.h (module 'network'): ns3::Ptr ns3::Socket::Recv(uint32_t maxSize, uint32_t flags) [member function] cls.add_method('Recv', 'ns3::Ptr< ns3::Packet >', [param('uint32_t', 'maxSize'), param('uint32_t', 'flags')], is_pure_virtual=True, is_virtual=True) ## socket.h (module 'network'): ns3::Ptr ns3::Socket::Recv() [member function] cls.add_method('Recv', 'ns3::Ptr< ns3::Packet >', []) ## socket.h (module 'network'): int ns3::Socket::Recv(uint8_t * buf, uint32_t size, uint32_t flags) [member function] cls.add_method('Recv', 'int', [param('uint8_t *', 'buf'), param('uint32_t', 'size'), param('uint32_t', 'flags')]) ## socket.h (module 'network'): ns3::Ptr ns3::Socket::RecvFrom(uint32_t maxSize, uint32_t flags, ns3::Address & fromAddress) [member function] cls.add_method('RecvFrom', 'ns3::Ptr< ns3::Packet >', [param('uint32_t', 'maxSize'), param('uint32_t', 'flags'), param('ns3::Address &', 'fromAddress')], is_pure_virtual=True, is_virtual=True) ## socket.h (module 'network'): ns3::Ptr ns3::Socket::RecvFrom(ns3::Address & fromAddress) [member function] cls.add_method('RecvFrom', 'ns3::Ptr< ns3::Packet >', [param('ns3::Address &', 'fromAddress')]) ## socket.h (module 'network'): int ns3::Socket::RecvFrom(uint8_t * buf, uint32_t size, uint32_t flags, ns3::Address & fromAddress) [member function] cls.add_method('RecvFrom', 'int', [param('uint8_t *', 'buf'), param('uint32_t', 'size'), param('uint32_t', 'flags'), param('ns3::Address &', 'fromAddress')]) ## socket.h (module 'network'): int ns3::Socket::Send(ns3::Ptr p, uint32_t flags) [member function] cls.add_method('Send', 'int', [param('ns3::Ptr< ns3::Packet >', 'p'), param('uint32_t', 'flags')], is_pure_virtual=True, is_virtual=True) ## socket.h (module 'network'): int ns3::Socket::Send(ns3::Ptr p) [member function] cls.add_method('Send', 'int', [param('ns3::Ptr< ns3::Packet >', 'p')]) ## socket.h (module 'network'): int ns3::Socket::Send(uint8_t const * buf, uint32_t size, uint32_t flags) [member function] cls.add_method('Send', 'int', [param('uint8_t const *', 'buf'), param('uint32_t', 'size'), param('uint32_t', 'flags')]) ## socket.h (module 'network'): int ns3::Socket::SendTo(ns3::Ptr p, uint32_t flags, ns3::Address const & toAddress) [member function] cls.add_method('SendTo', 'int', [param('ns3::Ptr< ns3::Packet >', 'p'), param('uint32_t', 'flags'), param('ns3::Address const &', 'toAddress')], is_pure_virtual=True, is_virtual=True) ## socket.h (module 'network'): int ns3::Socket::SendTo(uint8_t const * buf, uint32_t size, uint32_t flags, ns3::Address const & address) [member function] cls.add_method('SendTo', 'int', [param('uint8_t const *', 'buf'), param('uint32_t', 'size'), param('uint32_t', 'flags'), param('ns3::Address const &', 'address')]) ## socket.h (module 'network'): void ns3::Socket::SetAcceptCallback(ns3::Callback, ns3::Address const&, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> connectionRequest, ns3::Callback, ns3::Address const&, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> newConnectionCreated) [member function] cls.add_method('SetAcceptCallback', 'void', [param('ns3::Callback< bool, ns3::Ptr< ns3::Socket >, ns3::Address const &, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'connectionRequest'), param('ns3::Callback< void, ns3::Ptr< ns3::Socket >, ns3::Address const &, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'newConnectionCreated')]) ## socket.h (module 'network'): bool ns3::Socket::SetAllowBroadcast(bool allowBroadcast) [member function] cls.add_method('SetAllowBroadcast', 'bool', [param('bool', 'allowBroadcast')], is_pure_virtual=True, is_virtual=True) ## socket.h (module 'network'): void ns3::Socket::SetCloseCallbacks(ns3::Callback, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> normalClose, ns3::Callback, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> errorClose) [member function] cls.add_method('SetCloseCallbacks', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::Socket >, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'normalClose'), param('ns3::Callback< void, ns3::Ptr< ns3::Socket >, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'errorClose')]) ## socket.h (module 'network'): void ns3::Socket::SetConnectCallback(ns3::Callback, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> connectionSucceeded, ns3::Callback, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> connectionFailed) [member function] cls.add_method('SetConnectCallback', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::Socket >, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'connectionSucceeded'), param('ns3::Callback< void, ns3::Ptr< ns3::Socket >, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'connectionFailed')]) ## socket.h (module 'network'): void ns3::Socket::SetDataSentCallback(ns3::Callback, unsigned int, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> dataSent) [member function] cls.add_method('SetDataSentCallback', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::Socket >, unsigned int, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'dataSent')]) ## socket.h (module 'network'): void ns3::Socket::SetIpRecvTos(bool ipv4RecvTos) [member function] cls.add_method('SetIpRecvTos', 'void', [param('bool', 'ipv4RecvTos')]) ## socket.h (module 'network'): void ns3::Socket::SetIpRecvTtl(bool ipv4RecvTtl) [member function] cls.add_method('SetIpRecvTtl', 'void', [param('bool', 'ipv4RecvTtl')]) ## socket.h (module 'network'): void ns3::Socket::SetIpTos(uint8_t ipTos) [member function] cls.add_method('SetIpTos', 'void', [param('uint8_t', 'ipTos')]) ## socket.h (module 'network'): void ns3::Socket::SetIpTtl(uint8_t ipTtl) [member function] cls.add_method('SetIpTtl', 'void', [param('uint8_t', 'ipTtl')], is_virtual=True) ## socket.h (module 'network'): void ns3::Socket::SetIpv6HopLimit(uint8_t ipHopLimit) [member function] cls.add_method('SetIpv6HopLimit', 'void', [param('uint8_t', 'ipHopLimit')], is_virtual=True) ## socket.h (module 'network'): void ns3::Socket::SetIpv6RecvHopLimit(bool ipv6RecvHopLimit) [member function] cls.add_method('SetIpv6RecvHopLimit', 'void', [param('bool', 'ipv6RecvHopLimit')]) ## socket.h (module 'network'): void ns3::Socket::SetIpv6RecvTclass(bool ipv6RecvTclass) [member function] cls.add_method('SetIpv6RecvTclass', 'void', [param('bool', 'ipv6RecvTclass')]) ## socket.h (module 'network'): void ns3::Socket::SetIpv6Tclass(int ipTclass) [member function] cls.add_method('SetIpv6Tclass', 'void', [param('int', 'ipTclass')]) ## socket.h (module 'network'): void ns3::Socket::SetRecvCallback(ns3::Callback, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> arg0) [member function] cls.add_method('SetRecvCallback', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::Socket >, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'arg0')]) ## socket.h (module 'network'): void ns3::Socket::SetRecvPktInfo(bool flag) [member function] cls.add_method('SetRecvPktInfo', 'void', [param('bool', 'flag')]) ## socket.h (module 'network'): void ns3::Socket::SetSendCallback(ns3::Callback, unsigned int, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> sendCb) [member function] cls.add_method('SetSendCallback', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::Socket >, unsigned int, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'sendCb')]) ## socket.h (module 'network'): int ns3::Socket::ShutdownRecv() [member function] cls.add_method('ShutdownRecv', 'int', [], is_pure_virtual=True, is_virtual=True) ## socket.h (module 'network'): int ns3::Socket::ShutdownSend() [member function] cls.add_method('ShutdownSend', 'int', [], is_pure_virtual=True, is_virtual=True) ## socket.h (module 'network'): void ns3::Socket::DoDispose() [member function] cls.add_method('DoDispose', 'void', [], visibility='protected', is_virtual=True) ## socket.h (module 'network'): bool ns3::Socket::IsManualIpTos() const [member function] cls.add_method('IsManualIpTos', 'bool', [], is_const=True, visibility='protected') ## socket.h (module 'network'): bool ns3::Socket::IsManualIpTtl() const [member function] cls.add_method('IsManualIpTtl', 'bool', [], is_const=True, visibility='protected') ## socket.h (module 'network'): bool ns3::Socket::IsManualIpv6HopLimit() const [member function] cls.add_method('IsManualIpv6HopLimit', 'bool', [], is_const=True, visibility='protected') ## socket.h (module 'network'): bool ns3::Socket::IsManualIpv6Tclass() const [member function] cls.add_method('IsManualIpv6Tclass', 'bool', [], is_const=True, visibility='protected') ## socket.h (module 'network'): void ns3::Socket::NotifyConnectionFailed() [member function] cls.add_method('NotifyConnectionFailed', 'void', [], visibility='protected') ## socket.h (module 'network'): bool ns3::Socket::NotifyConnectionRequest(ns3::Address const & from) [member function] cls.add_method('NotifyConnectionRequest', 'bool', [param('ns3::Address const &', 'from')], visibility='protected') ## socket.h (module 'network'): void ns3::Socket::NotifyConnectionSucceeded() [member function] cls.add_method('NotifyConnectionSucceeded', 'void', [], visibility='protected') ## socket.h (module 'network'): void ns3::Socket::NotifyDataRecv() [member function] cls.add_method('NotifyDataRecv', 'void', [], visibility='protected') ## socket.h (module 'network'): void ns3::Socket::NotifyDataSent(uint32_t size) [member function] cls.add_method('NotifyDataSent', 'void', [param('uint32_t', 'size')], visibility='protected') ## socket.h (module 'network'): void ns3::Socket::NotifyErrorClose() [member function] cls.add_method('NotifyErrorClose', 'void', [], visibility='protected') ## socket.h (module 'network'): void ns3::Socket::NotifyNewConnectionCreated(ns3::Ptr socket, ns3::Address const & from) [member function] cls.add_method('NotifyNewConnectionCreated', 'void', [param('ns3::Ptr< ns3::Socket >', 'socket'), param('ns3::Address const &', 'from')], visibility='protected') ## socket.h (module 'network'): void ns3::Socket::NotifyNormalClose() [member function] cls.add_method('NotifyNormalClose', 'void', [], visibility='protected') ## socket.h (module 'network'): void ns3::Socket::NotifySend(uint32_t spaceAvailable) [member function] cls.add_method('NotifySend', 'void', [param('uint32_t', 'spaceAvailable')], visibility='protected') return def register_Ns3SocketAddressTag_methods(root_module, cls): ## socket.h (module 'network'): ns3::SocketAddressTag::SocketAddressTag(ns3::SocketAddressTag const & arg0) [copy constructor] cls.add_constructor([param('ns3::SocketAddressTag const &', 'arg0')]) ## socket.h (module 'network'): ns3::SocketAddressTag::SocketAddressTag() [constructor] cls.add_constructor([]) ## socket.h (module 'network'): void ns3::SocketAddressTag::Deserialize(ns3::TagBuffer i) [member function] cls.add_method('Deserialize', 'void', [param('ns3::TagBuffer', 'i')], is_virtual=True) ## socket.h (module 'network'): ns3::Address ns3::SocketAddressTag::GetAddress() const [member function] cls.add_method('GetAddress', 'ns3::Address', [], is_const=True) ## socket.h (module 'network'): ns3::TypeId ns3::SocketAddressTag::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): uint32_t ns3::SocketAddressTag::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): static ns3::TypeId ns3::SocketAddressTag::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## socket.h (module 'network'): void ns3::SocketAddressTag::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## socket.h (module 'network'): void ns3::SocketAddressTag::Serialize(ns3::TagBuffer i) const [member function] cls.add_method('Serialize', 'void', [param('ns3::TagBuffer', 'i')], is_const=True, is_virtual=True) ## socket.h (module 'network'): void ns3::SocketAddressTag::SetAddress(ns3::Address addr) [member function] cls.add_method('SetAddress', 'void', [param('ns3::Address', 'addr')]) return def register_Ns3SocketIpTosTag_methods(root_module, cls): ## socket.h (module 'network'): ns3::SocketIpTosTag::SocketIpTosTag(ns3::SocketIpTosTag const & arg0) [copy constructor] cls.add_constructor([param('ns3::SocketIpTosTag const &', 'arg0')]) ## socket.h (module 'network'): ns3::SocketIpTosTag::SocketIpTosTag() [constructor] cls.add_constructor([]) ## socket.h (module 'network'): void ns3::SocketIpTosTag::Deserialize(ns3::TagBuffer i) [member function] cls.add_method('Deserialize', 'void', [param('ns3::TagBuffer', 'i')], is_virtual=True) ## socket.h (module 'network'): ns3::TypeId ns3::SocketIpTosTag::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): uint32_t ns3::SocketIpTosTag::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): uint8_t ns3::SocketIpTosTag::GetTos() const [member function] cls.add_method('GetTos', 'uint8_t', [], is_const=True) ## socket.h (module 'network'): static ns3::TypeId ns3::SocketIpTosTag::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## socket.h (module 'network'): void ns3::SocketIpTosTag::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## socket.h (module 'network'): void ns3::SocketIpTosTag::Serialize(ns3::TagBuffer i) const [member function] cls.add_method('Serialize', 'void', [param('ns3::TagBuffer', 'i')], is_const=True, is_virtual=True) ## socket.h (module 'network'): void ns3::SocketIpTosTag::SetTos(uint8_t tos) [member function] cls.add_method('SetTos', 'void', [param('uint8_t', 'tos')]) return def register_Ns3SocketIpTtlTag_methods(root_module, cls): ## socket.h (module 'network'): ns3::SocketIpTtlTag::SocketIpTtlTag(ns3::SocketIpTtlTag const & arg0) [copy constructor] cls.add_constructor([param('ns3::SocketIpTtlTag const &', 'arg0')]) ## socket.h (module 'network'): ns3::SocketIpTtlTag::SocketIpTtlTag() [constructor] cls.add_constructor([]) ## socket.h (module 'network'): void ns3::SocketIpTtlTag::Deserialize(ns3::TagBuffer i) [member function] cls.add_method('Deserialize', 'void', [param('ns3::TagBuffer', 'i')], is_virtual=True) ## socket.h (module 'network'): ns3::TypeId ns3::SocketIpTtlTag::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): uint32_t ns3::SocketIpTtlTag::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): uint8_t ns3::SocketIpTtlTag::GetTtl() const [member function] cls.add_method('GetTtl', 'uint8_t', [], is_const=True) ## socket.h (module 'network'): static ns3::TypeId ns3::SocketIpTtlTag::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## socket.h (module 'network'): void ns3::SocketIpTtlTag::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## socket.h (module 'network'): void ns3::SocketIpTtlTag::Serialize(ns3::TagBuffer i) const [member function] cls.add_method('Serialize', 'void', [param('ns3::TagBuffer', 'i')], is_const=True, is_virtual=True) ## socket.h (module 'network'): void ns3::SocketIpTtlTag::SetTtl(uint8_t ttl) [member function] cls.add_method('SetTtl', 'void', [param('uint8_t', 'ttl')]) return def register_Ns3SocketIpv6HopLimitTag_methods(root_module, cls): ## socket.h (module 'network'): ns3::SocketIpv6HopLimitTag::SocketIpv6HopLimitTag(ns3::SocketIpv6HopLimitTag const & arg0) [copy constructor] cls.add_constructor([param('ns3::SocketIpv6HopLimitTag const &', 'arg0')]) ## socket.h (module 'network'): ns3::SocketIpv6HopLimitTag::SocketIpv6HopLimitTag() [constructor] cls.add_constructor([]) ## socket.h (module 'network'): void ns3::SocketIpv6HopLimitTag::Deserialize(ns3::TagBuffer i) [member function] cls.add_method('Deserialize', 'void', [param('ns3::TagBuffer', 'i')], is_virtual=True) ## socket.h (module 'network'): uint8_t ns3::SocketIpv6HopLimitTag::GetHopLimit() const [member function] cls.add_method('GetHopLimit', 'uint8_t', [], is_const=True) ## socket.h (module 'network'): ns3::TypeId ns3::SocketIpv6HopLimitTag::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): uint32_t ns3::SocketIpv6HopLimitTag::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): static ns3::TypeId ns3::SocketIpv6HopLimitTag::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## socket.h (module 'network'): void ns3::SocketIpv6HopLimitTag::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## socket.h (module 'network'): void ns3::SocketIpv6HopLimitTag::Serialize(ns3::TagBuffer i) const [member function] cls.add_method('Serialize', 'void', [param('ns3::TagBuffer', 'i')], is_const=True, is_virtual=True) ## socket.h (module 'network'): void ns3::SocketIpv6HopLimitTag::SetHopLimit(uint8_t hopLimit) [member function] cls.add_method('SetHopLimit', 'void', [param('uint8_t', 'hopLimit')]) return def register_Ns3SocketIpv6TclassTag_methods(root_module, cls): ## socket.h (module 'network'): ns3::SocketIpv6TclassTag::SocketIpv6TclassTag(ns3::SocketIpv6TclassTag const & arg0) [copy constructor] cls.add_constructor([param('ns3::SocketIpv6TclassTag const &', 'arg0')]) ## socket.h (module 'network'): ns3::SocketIpv6TclassTag::SocketIpv6TclassTag() [constructor] cls.add_constructor([]) ## socket.h (module 'network'): void ns3::SocketIpv6TclassTag::Deserialize(ns3::TagBuffer i) [member function] cls.add_method('Deserialize', 'void', [param('ns3::TagBuffer', 'i')], is_virtual=True) ## socket.h (module 'network'): ns3::TypeId ns3::SocketIpv6TclassTag::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): uint32_t ns3::SocketIpv6TclassTag::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): uint8_t ns3::SocketIpv6TclassTag::GetTclass() const [member function] cls.add_method('GetTclass', 'uint8_t', [], is_const=True) ## socket.h (module 'network'): static ns3::TypeId ns3::SocketIpv6TclassTag::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## socket.h (module 'network'): void ns3::SocketIpv6TclassTag::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## socket.h (module 'network'): void ns3::SocketIpv6TclassTag::Serialize(ns3::TagBuffer i) const [member function] cls.add_method('Serialize', 'void', [param('ns3::TagBuffer', 'i')], is_const=True, is_virtual=True) ## socket.h (module 'network'): void ns3::SocketIpv6TclassTag::SetTclass(uint8_t tclass) [member function] cls.add_method('SetTclass', 'void', [param('uint8_t', 'tclass')]) return def register_Ns3SocketSetDontFragmentTag_methods(root_module, cls): ## socket.h (module 'network'): ns3::SocketSetDontFragmentTag::SocketSetDontFragmentTag(ns3::SocketSetDontFragmentTag const & arg0) [copy constructor] cls.add_constructor([param('ns3::SocketSetDontFragmentTag const &', 'arg0')]) ## socket.h (module 'network'): ns3::SocketSetDontFragmentTag::SocketSetDontFragmentTag() [constructor] cls.add_constructor([]) ## socket.h (module 'network'): void ns3::SocketSetDontFragmentTag::Deserialize(ns3::TagBuffer i) [member function] cls.add_method('Deserialize', 'void', [param('ns3::TagBuffer', 'i')], is_virtual=True) ## socket.h (module 'network'): void ns3::SocketSetDontFragmentTag::Disable() [member function] cls.add_method('Disable', 'void', []) ## socket.h (module 'network'): void ns3::SocketSetDontFragmentTag::Enable() [member function] cls.add_method('Enable', 'void', []) ## socket.h (module 'network'): ns3::TypeId ns3::SocketSetDontFragmentTag::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): uint32_t ns3::SocketSetDontFragmentTag::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## socket.h (module 'network'): static ns3::TypeId ns3::SocketSetDontFragmentTag::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## socket.h (module 'network'): bool ns3::SocketSetDontFragmentTag::IsEnabled() const [member function] cls.add_method('IsEnabled', 'bool', [], is_const=True) ## socket.h (module 'network'): void ns3::SocketSetDontFragmentTag::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## socket.h (module 'network'): void ns3::SocketSetDontFragmentTag::Serialize(ns3::TagBuffer i) const [member function] cls.add_method('Serialize', 'void', [param('ns3::TagBuffer', 'i')], is_const=True, is_virtual=True) return def register_Ns3Time_methods(root_module, cls): cls.add_binary_comparison_operator('!=') cls.add_inplace_numeric_operator('+=', param('ns3::Time const &', 'right')) cls.add_binary_numeric_operator('+', root_module['ns3::Time'], root_module['ns3::Time'], param('ns3::Time const &', 'right')) cls.add_binary_numeric_operator('-', root_module['ns3::Time'], root_module['ns3::Time'], param('ns3::Time const &', 'right')) cls.add_binary_comparison_operator('<') cls.add_binary_comparison_operator('>') cls.add_inplace_numeric_operator('-=', param('ns3::Time const &', 'right')) cls.add_output_stream_operator() cls.add_binary_comparison_operator('<=') cls.add_binary_comparison_operator('==') cls.add_binary_comparison_operator('>=') ## nstime.h (module 'core'): ns3::Time::Time() [constructor] cls.add_constructor([]) ## nstime.h (module 'core'): ns3::Time::Time(ns3::Time const & o) [copy constructor] cls.add_constructor([param('ns3::Time const &', 'o')]) ## nstime.h (module 'core'): ns3::Time::Time(double v) [constructor] cls.add_constructor([param('double', 'v')]) ## nstime.h (module 'core'): ns3::Time::Time(int v) [constructor] cls.add_constructor([param('int', 'v')]) ## nstime.h (module 'core'): ns3::Time::Time(long int v) [constructor] cls.add_constructor([param('long int', 'v')]) ## nstime.h (module 'core'): ns3::Time::Time(long long int v) [constructor] cls.add_constructor([param('long long int', 'v')]) ## nstime.h (module 'core'): ns3::Time::Time(unsigned int v) [constructor] cls.add_constructor([param('unsigned int', 'v')]) ## nstime.h (module 'core'): ns3::Time::Time(long unsigned int v) [constructor] cls.add_constructor([param('long unsigned int', 'v')]) ## nstime.h (module 'core'): ns3::Time::Time(long long unsigned int v) [constructor] cls.add_constructor([param('long long unsigned int', 'v')]) ## nstime.h (module 'core'): ns3::Time::Time(std::string const & s) [constructor] cls.add_constructor([param('std::string const &', 's')]) ## nstime.h (module 'core'): ns3::Time::Time(ns3::int64x64_t const & value) [constructor] cls.add_constructor([param('ns3::int64x64_t const &', 'value')]) ## nstime.h (module 'core'): int ns3::Time::Compare(ns3::Time const & o) const [member function] cls.add_method('Compare', 'int', [param('ns3::Time const &', 'o')], is_const=True) ## nstime.h (module 'core'): static ns3::Time ns3::Time::From(ns3::int64x64_t const & from, ns3::Time::Unit timeUnit) [member function] cls.add_method('From', 'ns3::Time', [param('ns3::int64x64_t const &', 'from'), param('ns3::Time::Unit', 'timeUnit')], is_static=True) ## nstime.h (module 'core'): static ns3::Time ns3::Time::From(ns3::int64x64_t const & value) [member function] cls.add_method('From', 'ns3::Time', [param('ns3::int64x64_t const &', 'value')], is_static=True) ## nstime.h (module 'core'): static ns3::Time ns3::Time::FromDouble(double value, ns3::Time::Unit timeUnit) [member function] cls.add_method('FromDouble', 'ns3::Time', [param('double', 'value'), param('ns3::Time::Unit', 'timeUnit')], is_static=True) ## nstime.h (module 'core'): static ns3::Time ns3::Time::FromInteger(uint64_t value, ns3::Time::Unit timeUnit) [member function] cls.add_method('FromInteger', 'ns3::Time', [param('uint64_t', 'value'), param('ns3::Time::Unit', 'timeUnit')], is_static=True) ## nstime.h (module 'core'): double ns3::Time::GetDouble() const [member function] cls.add_method('GetDouble', 'double', [], is_const=True) ## nstime.h (module 'core'): int64_t ns3::Time::GetFemtoSeconds() const [member function] cls.add_method('GetFemtoSeconds', 'int64_t', [], is_const=True) ## nstime.h (module 'core'): int64_t ns3::Time::GetInteger() const [member function] cls.add_method('GetInteger', 'int64_t', [], is_const=True) ## nstime.h (module 'core'): int64_t ns3::Time::GetMicroSeconds() const [member function] cls.add_method('GetMicroSeconds', 'int64_t', [], is_const=True) ## nstime.h (module 'core'): int64_t ns3::Time::GetMilliSeconds() const [member function] cls.add_method('GetMilliSeconds', 'int64_t', [], is_const=True) ## nstime.h (module 'core'): int64_t ns3::Time::GetNanoSeconds() const [member function] cls.add_method('GetNanoSeconds', 'int64_t', [], is_const=True) ## nstime.h (module 'core'): int64_t ns3::Time::GetPicoSeconds() const [member function] cls.add_method('GetPicoSeconds', 'int64_t', [], is_const=True) ## nstime.h (module 'core'): static ns3::Time::Unit ns3::Time::GetResolution() [member function] cls.add_method('GetResolution', 'ns3::Time::Unit', [], is_static=True) ## nstime.h (module 'core'): double ns3::Time::GetSeconds() const [member function] cls.add_method('GetSeconds', 'double', [], is_const=True) ## nstime.h (module 'core'): int64_t ns3::Time::GetTimeStep() const [member function] cls.add_method('GetTimeStep', 'int64_t', [], is_const=True) ## nstime.h (module 'core'): bool ns3::Time::IsNegative() const [member function] cls.add_method('IsNegative', 'bool', [], is_const=True) ## nstime.h (module 'core'): bool ns3::Time::IsPositive() const [member function] cls.add_method('IsPositive', 'bool', [], is_const=True) ## nstime.h (module 'core'): bool ns3::Time::IsStrictlyNegative() const [member function] cls.add_method('IsStrictlyNegative', 'bool', [], is_const=True) ## nstime.h (module 'core'): bool ns3::Time::IsStrictlyPositive() const [member function] cls.add_method('IsStrictlyPositive', 'bool', [], is_const=True) ## nstime.h (module 'core'): bool ns3::Time::IsZero() const [member function] cls.add_method('IsZero', 'bool', [], is_const=True) ## nstime.h (module 'core'): static void ns3::Time::SetResolution(ns3::Time::Unit resolution) [member function] cls.add_method('SetResolution', 'void', [param('ns3::Time::Unit', 'resolution')], is_static=True) ## nstime.h (module 'core'): ns3::int64x64_t ns3::Time::To(ns3::Time::Unit timeUnit) const [member function] cls.add_method('To', 'ns3::int64x64_t', [param('ns3::Time::Unit', 'timeUnit')], is_const=True) ## nstime.h (module 'core'): double ns3::Time::ToDouble(ns3::Time::Unit timeUnit) const [member function] cls.add_method('ToDouble', 'double', [param('ns3::Time::Unit', 'timeUnit')], is_const=True) ## nstime.h (module 'core'): int64_t ns3::Time::ToInteger(ns3::Time::Unit timeUnit) const [member function] cls.add_method('ToInteger', 'int64_t', [param('ns3::Time::Unit', 'timeUnit')], is_const=True) return def register_Ns3TraceSourceAccessor_methods(root_module, cls): ## trace-source-accessor.h (module 'core'): ns3::TraceSourceAccessor::TraceSourceAccessor(ns3::TraceSourceAccessor const & arg0) [copy constructor] cls.add_constructor([param('ns3::TraceSourceAccessor const &', 'arg0')]) ## trace-source-accessor.h (module 'core'): ns3::TraceSourceAccessor::TraceSourceAccessor() [constructor] cls.add_constructor([]) ## trace-source-accessor.h (module 'core'): bool ns3::TraceSourceAccessor::Connect(ns3::ObjectBase * obj, std::string context, ns3::CallbackBase const & cb) const [member function] cls.add_method('Connect', 'bool', [param('ns3::ObjectBase *', 'obj', transfer_ownership=False), param('std::string', 'context'), param('ns3::CallbackBase const &', 'cb')], is_pure_virtual=True, is_const=True, is_virtual=True) ## trace-source-accessor.h (module 'core'): bool ns3::TraceSourceAccessor::ConnectWithoutContext(ns3::ObjectBase * obj, ns3::CallbackBase const & cb) const [member function] cls.add_method('ConnectWithoutContext', 'bool', [param('ns3::ObjectBase *', 'obj', transfer_ownership=False), param('ns3::CallbackBase const &', 'cb')], is_pure_virtual=True, is_const=True, is_virtual=True) ## trace-source-accessor.h (module 'core'): bool ns3::TraceSourceAccessor::Disconnect(ns3::ObjectBase * obj, std::string context, ns3::CallbackBase const & cb) const [member function] cls.add_method('Disconnect', 'bool', [param('ns3::ObjectBase *', 'obj', transfer_ownership=False), param('std::string', 'context'), param('ns3::CallbackBase const &', 'cb')], is_pure_virtual=True, is_const=True, is_virtual=True) ## trace-source-accessor.h (module 'core'): bool ns3::TraceSourceAccessor::DisconnectWithoutContext(ns3::ObjectBase * obj, ns3::CallbackBase const & cb) const [member function] cls.add_method('DisconnectWithoutContext', 'bool', [param('ns3::ObjectBase *', 'obj', transfer_ownership=False), param('ns3::CallbackBase const &', 'cb')], is_pure_virtual=True, is_const=True, is_virtual=True) return def register_Ns3Trailer_methods(root_module, cls): cls.add_output_stream_operator() ## trailer.h (module 'network'): ns3::Trailer::Trailer() [constructor] cls.add_constructor([]) ## trailer.h (module 'network'): ns3::Trailer::Trailer(ns3::Trailer const & arg0) [copy constructor] cls.add_constructor([param('ns3::Trailer const &', 'arg0')]) ## trailer.h (module 'network'): uint32_t ns3::Trailer::Deserialize(ns3::Buffer::Iterator end) [member function] cls.add_method('Deserialize', 'uint32_t', [param('ns3::Buffer::Iterator', 'end')], is_pure_virtual=True, is_virtual=True) ## trailer.h (module 'network'): uint32_t ns3::Trailer::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## trailer.h (module 'network'): static ns3::TypeId ns3::Trailer::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## trailer.h (module 'network'): void ns3::Trailer::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_pure_virtual=True, is_const=True, is_virtual=True) ## trailer.h (module 'network'): void ns3::Trailer::Serialize(ns3::Buffer::Iterator start) const [member function] cls.add_method('Serialize', 'void', [param('ns3::Buffer::Iterator', 'start')], is_pure_virtual=True, is_const=True, is_virtual=True) return def register_Ns3TriangularRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::TriangularRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::TriangularRandomVariable::TriangularRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): double ns3::TriangularRandomVariable::GetMean() const [member function] cls.add_method('GetMean', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::TriangularRandomVariable::GetMin() const [member function] cls.add_method('GetMin', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::TriangularRandomVariable::GetMax() const [member function] cls.add_method('GetMax', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::TriangularRandomVariable::GetValue(double mean, double min, double max) [member function] cls.add_method('GetValue', 'double', [param('double', 'mean'), param('double', 'min'), param('double', 'max')]) ## random-variable-stream.h (module 'core'): uint32_t ns3::TriangularRandomVariable::GetInteger(uint32_t mean, uint32_t min, uint32_t max) [member function] cls.add_method('GetInteger', 'uint32_t', [param('uint32_t', 'mean'), param('uint32_t', 'min'), param('uint32_t', 'max')]) ## random-variable-stream.h (module 'core'): double ns3::TriangularRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::TriangularRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3UniformRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::UniformRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::UniformRandomVariable::UniformRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): double ns3::UniformRandomVariable::GetMin() const [member function] cls.add_method('GetMin', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::UniformRandomVariable::GetMax() const [member function] cls.add_method('GetMax', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::UniformRandomVariable::GetValue(double min, double max) [member function] cls.add_method('GetValue', 'double', [param('double', 'min'), param('double', 'max')]) ## random-variable-stream.h (module 'core'): uint32_t ns3::UniformRandomVariable::GetInteger(uint32_t min, uint32_t max) [member function] cls.add_method('GetInteger', 'uint32_t', [param('uint32_t', 'min'), param('uint32_t', 'max')]) ## random-variable-stream.h (module 'core'): double ns3::UniformRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::UniformRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3WeibullRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::WeibullRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::WeibullRandomVariable::WeibullRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): double ns3::WeibullRandomVariable::GetScale() const [member function] cls.add_method('GetScale', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::WeibullRandomVariable::GetShape() const [member function] cls.add_method('GetShape', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::WeibullRandomVariable::GetBound() const [member function] cls.add_method('GetBound', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::WeibullRandomVariable::GetValue(double scale, double shape, double bound) [member function] cls.add_method('GetValue', 'double', [param('double', 'scale'), param('double', 'shape'), param('double', 'bound')]) ## random-variable-stream.h (module 'core'): uint32_t ns3::WeibullRandomVariable::GetInteger(uint32_t scale, uint32_t shape, uint32_t bound) [member function] cls.add_method('GetInteger', 'uint32_t', [param('uint32_t', 'scale'), param('uint32_t', 'shape'), param('uint32_t', 'bound')]) ## random-variable-stream.h (module 'core'): double ns3::WeibullRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::WeibullRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3WifiMacHeader_methods(root_module, cls): ## wifi-mac-header.h (module 'wifi'): ns3::WifiMacHeader::WifiMacHeader(ns3::WifiMacHeader const & arg0) [copy constructor] cls.add_constructor([param('ns3::WifiMacHeader const &', 'arg0')]) ## wifi-mac-header.h (module 'wifi'): ns3::WifiMacHeader::WifiMacHeader() [constructor] cls.add_constructor([]) ## wifi-mac-header.h (module 'wifi'): uint32_t ns3::WifiMacHeader::Deserialize(ns3::Buffer::Iterator start) [member function] cls.add_method('Deserialize', 'uint32_t', [param('ns3::Buffer::Iterator', 'start')], is_virtual=True) ## wifi-mac-header.h (module 'wifi'): ns3::Mac48Address ns3::WifiMacHeader::GetAddr1() const [member function] cls.add_method('GetAddr1', 'ns3::Mac48Address', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): ns3::Mac48Address ns3::WifiMacHeader::GetAddr2() const [member function] cls.add_method('GetAddr2', 'ns3::Mac48Address', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): ns3::Mac48Address ns3::WifiMacHeader::GetAddr3() const [member function] cls.add_method('GetAddr3', 'ns3::Mac48Address', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): ns3::Mac48Address ns3::WifiMacHeader::GetAddr4() const [member function] cls.add_method('GetAddr4', 'ns3::Mac48Address', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): ns3::Time ns3::WifiMacHeader::GetDuration() const [member function] cls.add_method('GetDuration', 'ns3::Time', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): uint16_t ns3::WifiMacHeader::GetFragmentNumber() const [member function] cls.add_method('GetFragmentNumber', 'uint16_t', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): ns3::TypeId ns3::WifiMacHeader::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## wifi-mac-header.h (module 'wifi'): ns3::WifiMacHeader::QosAckPolicy ns3::WifiMacHeader::GetQosAckPolicy() const [member function] cls.add_method('GetQosAckPolicy', 'ns3::WifiMacHeader::QosAckPolicy', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): uint8_t ns3::WifiMacHeader::GetQosTid() const [member function] cls.add_method('GetQosTid', 'uint8_t', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): uint8_t ns3::WifiMacHeader::GetQosTxopLimit() const [member function] cls.add_method('GetQosTxopLimit', 'uint8_t', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): uint16_t ns3::WifiMacHeader::GetRawDuration() const [member function] cls.add_method('GetRawDuration', 'uint16_t', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): uint16_t ns3::WifiMacHeader::GetSequenceControl() const [member function] cls.add_method('GetSequenceControl', 'uint16_t', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): uint16_t ns3::WifiMacHeader::GetSequenceNumber() const [member function] cls.add_method('GetSequenceNumber', 'uint16_t', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): uint32_t ns3::WifiMacHeader::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## wifi-mac-header.h (module 'wifi'): uint32_t ns3::WifiMacHeader::GetSize() const [member function] cls.add_method('GetSize', 'uint32_t', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): ns3::WifiMacType ns3::WifiMacHeader::GetType() const [member function] cls.add_method('GetType', 'ns3::WifiMacType', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): static ns3::TypeId ns3::WifiMacHeader::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## wifi-mac-header.h (module 'wifi'): char const * ns3::WifiMacHeader::GetTypeString() const [member function] cls.add_method('GetTypeString', 'char const *', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsAck() const [member function] cls.add_method('IsAck', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsAction() const [member function] cls.add_method('IsAction', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsAssocReq() const [member function] cls.add_method('IsAssocReq', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsAssocResp() const [member function] cls.add_method('IsAssocResp', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsAuthentication() const [member function] cls.add_method('IsAuthentication', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsBeacon() const [member function] cls.add_method('IsBeacon', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsBlockAck() const [member function] cls.add_method('IsBlockAck', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsBlockAckReq() const [member function] cls.add_method('IsBlockAckReq', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsCfpoll() const [member function] cls.add_method('IsCfpoll', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsCtl() const [member function] cls.add_method('IsCtl', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsCts() const [member function] cls.add_method('IsCts', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsData() const [member function] cls.add_method('IsData', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsDeauthentication() const [member function] cls.add_method('IsDeauthentication', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsDisassociation() const [member function] cls.add_method('IsDisassociation', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsFromDs() const [member function] cls.add_method('IsFromDs', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsMgt() const [member function] cls.add_method('IsMgt', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsMoreFragments() const [member function] cls.add_method('IsMoreFragments', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsMultihopAction() const [member function] cls.add_method('IsMultihopAction', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsProbeReq() const [member function] cls.add_method('IsProbeReq', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsProbeResp() const [member function] cls.add_method('IsProbeResp', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsQosAck() const [member function] cls.add_method('IsQosAck', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsQosAmsdu() const [member function] cls.add_method('IsQosAmsdu', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsQosBlockAck() const [member function] cls.add_method('IsQosBlockAck', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsQosData() const [member function] cls.add_method('IsQosData', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsQosEosp() const [member function] cls.add_method('IsQosEosp', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsQosNoAck() const [member function] cls.add_method('IsQosNoAck', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsReassocReq() const [member function] cls.add_method('IsReassocReq', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsReassocResp() const [member function] cls.add_method('IsReassocResp', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsRetry() const [member function] cls.add_method('IsRetry', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsRts() const [member function] cls.add_method('IsRts', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): bool ns3::WifiMacHeader::IsToDs() const [member function] cls.add_method('IsToDs', 'bool', [], is_const=True) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::Serialize(ns3::Buffer::Iterator start) const [member function] cls.add_method('Serialize', 'void', [param('ns3::Buffer::Iterator', 'start')], is_const=True, is_virtual=True) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetAction() [member function] cls.add_method('SetAction', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetAddr1(ns3::Mac48Address address) [member function] cls.add_method('SetAddr1', 'void', [param('ns3::Mac48Address', 'address')]) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetAddr2(ns3::Mac48Address address) [member function] cls.add_method('SetAddr2', 'void', [param('ns3::Mac48Address', 'address')]) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetAddr3(ns3::Mac48Address address) [member function] cls.add_method('SetAddr3', 'void', [param('ns3::Mac48Address', 'address')]) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetAddr4(ns3::Mac48Address address) [member function] cls.add_method('SetAddr4', 'void', [param('ns3::Mac48Address', 'address')]) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetAssocReq() [member function] cls.add_method('SetAssocReq', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetAssocResp() [member function] cls.add_method('SetAssocResp', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetBeacon() [member function] cls.add_method('SetBeacon', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetBlockAck() [member function] cls.add_method('SetBlockAck', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetBlockAckReq() [member function] cls.add_method('SetBlockAckReq', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetDsFrom() [member function] cls.add_method('SetDsFrom', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetDsNotFrom() [member function] cls.add_method('SetDsNotFrom', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetDsNotTo() [member function] cls.add_method('SetDsNotTo', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetDsTo() [member function] cls.add_method('SetDsTo', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetDuration(ns3::Time duration) [member function] cls.add_method('SetDuration', 'void', [param('ns3::Time', 'duration')]) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetFragmentNumber(uint8_t frag) [member function] cls.add_method('SetFragmentNumber', 'void', [param('uint8_t', 'frag')]) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetId(uint16_t id) [member function] cls.add_method('SetId', 'void', [param('uint16_t', 'id')]) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetMoreFragments() [member function] cls.add_method('SetMoreFragments', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetMultihopAction() [member function] cls.add_method('SetMultihopAction', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetNoMoreFragments() [member function] cls.add_method('SetNoMoreFragments', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetNoRetry() [member function] cls.add_method('SetNoRetry', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetProbeReq() [member function] cls.add_method('SetProbeReq', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetProbeResp() [member function] cls.add_method('SetProbeResp', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetQosAckPolicy(ns3::WifiMacHeader::QosAckPolicy arg0) [member function] cls.add_method('SetQosAckPolicy', 'void', [param('ns3::WifiMacHeader::QosAckPolicy', 'arg0')]) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetQosAmsdu() [member function] cls.add_method('SetQosAmsdu', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetQosBlockAck() [member function] cls.add_method('SetQosBlockAck', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetQosEosp() [member function] cls.add_method('SetQosEosp', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetQosNoAck() [member function] cls.add_method('SetQosNoAck', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetQosNoAmsdu() [member function] cls.add_method('SetQosNoAmsdu', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetQosNoEosp() [member function] cls.add_method('SetQosNoEosp', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetQosNormalAck() [member function] cls.add_method('SetQosNormalAck', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetQosTid(uint8_t tid) [member function] cls.add_method('SetQosTid', 'void', [param('uint8_t', 'tid')]) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetQosTxopLimit(uint8_t txop) [member function] cls.add_method('SetQosTxopLimit', 'void', [param('uint8_t', 'txop')]) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetRawDuration(uint16_t duration) [member function] cls.add_method('SetRawDuration', 'void', [param('uint16_t', 'duration')]) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetRetry() [member function] cls.add_method('SetRetry', 'void', []) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetSequenceNumber(uint16_t seq) [member function] cls.add_method('SetSequenceNumber', 'void', [param('uint16_t', 'seq')]) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetType(ns3::WifiMacType type) [member function] cls.add_method('SetType', 'void', [param('ns3::WifiMacType', 'type')]) ## wifi-mac-header.h (module 'wifi'): void ns3::WifiMacHeader::SetTypeData() [member function] cls.add_method('SetTypeData', 'void', []) return def register_Ns3ZetaRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::ZetaRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::ZetaRandomVariable::ZetaRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): double ns3::ZetaRandomVariable::GetAlpha() const [member function] cls.add_method('GetAlpha', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::ZetaRandomVariable::GetValue(double alpha) [member function] cls.add_method('GetValue', 'double', [param('double', 'alpha')]) ## random-variable-stream.h (module 'core'): uint32_t ns3::ZetaRandomVariable::GetInteger(uint32_t alpha) [member function] cls.add_method('GetInteger', 'uint32_t', [param('uint32_t', 'alpha')]) ## random-variable-stream.h (module 'core'): double ns3::ZetaRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::ZetaRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3ZipfRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::ZipfRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::ZipfRandomVariable::ZipfRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): uint32_t ns3::ZipfRandomVariable::GetN() const [member function] cls.add_method('GetN', 'uint32_t', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::ZipfRandomVariable::GetAlpha() const [member function] cls.add_method('GetAlpha', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::ZipfRandomVariable::GetValue(uint32_t n, double alpha) [member function] cls.add_method('GetValue', 'double', [param('uint32_t', 'n'), param('double', 'alpha')]) ## random-variable-stream.h (module 'core'): uint32_t ns3::ZipfRandomVariable::GetInteger(uint32_t n, uint32_t alpha) [member function] cls.add_method('GetInteger', 'uint32_t', [param('uint32_t', 'n'), param('uint32_t', 'alpha')]) ## random-variable-stream.h (module 'core'): double ns3::ZipfRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::ZipfRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3ArpCache_methods(root_module, cls): ## arp-cache.h (module 'internet'): ns3::ArpCache::ArpCache() [constructor] cls.add_constructor([]) ## arp-cache.h (module 'internet'): ns3::ArpCache::Entry * ns3::ArpCache::Add(ns3::Ipv4Address to) [member function] cls.add_method('Add', 'ns3::ArpCache::Entry *', [param('ns3::Ipv4Address', 'to')]) ## arp-cache.h (module 'internet'): void ns3::ArpCache::Flush() [member function] cls.add_method('Flush', 'void', []) ## arp-cache.h (module 'internet'): ns3::Time ns3::ArpCache::GetAliveTimeout() const [member function] cls.add_method('GetAliveTimeout', 'ns3::Time', [], is_const=True) ## arp-cache.h (module 'internet'): ns3::Time ns3::ArpCache::GetDeadTimeout() const [member function] cls.add_method('GetDeadTimeout', 'ns3::Time', [], is_const=True) ## arp-cache.h (module 'internet'): ns3::Ptr ns3::ArpCache::GetDevice() const [member function] cls.add_method('GetDevice', 'ns3::Ptr< ns3::NetDevice >', [], is_const=True) ## arp-cache.h (module 'internet'): ns3::Ptr ns3::ArpCache::GetInterface() const [member function] cls.add_method('GetInterface', 'ns3::Ptr< ns3::Ipv4Interface >', [], is_const=True) ## arp-cache.h (module 'internet'): static ns3::TypeId ns3::ArpCache::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## arp-cache.h (module 'internet'): ns3::Time ns3::ArpCache::GetWaitReplyTimeout() const [member function] cls.add_method('GetWaitReplyTimeout', 'ns3::Time', [], is_const=True) ## arp-cache.h (module 'internet'): ns3::ArpCache::Entry * ns3::ArpCache::Lookup(ns3::Ipv4Address destination) [member function] cls.add_method('Lookup', 'ns3::ArpCache::Entry *', [param('ns3::Ipv4Address', 'destination')]) ## arp-cache.h (module 'internet'): void ns3::ArpCache::SetAliveTimeout(ns3::Time aliveTimeout) [member function] cls.add_method('SetAliveTimeout', 'void', [param('ns3::Time', 'aliveTimeout')]) ## arp-cache.h (module 'internet'): void ns3::ArpCache::SetArpRequestCallback(ns3::Callback, ns3::Ipv4Address, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> arpRequestCallback) [member function] cls.add_method('SetArpRequestCallback', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::ArpCache const >, ns3::Ipv4Address, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'arpRequestCallback')]) ## arp-cache.h (module 'internet'): void ns3::ArpCache::SetDeadTimeout(ns3::Time deadTimeout) [member function] cls.add_method('SetDeadTimeout', 'void', [param('ns3::Time', 'deadTimeout')]) ## arp-cache.h (module 'internet'): void ns3::ArpCache::SetDevice(ns3::Ptr device, ns3::Ptr interface) [member function] cls.add_method('SetDevice', 'void', [param('ns3::Ptr< ns3::NetDevice >', 'device'), param('ns3::Ptr< ns3::Ipv4Interface >', 'interface')]) ## arp-cache.h (module 'internet'): void ns3::ArpCache::SetWaitReplyTimeout(ns3::Time waitReplyTimeout) [member function] cls.add_method('SetWaitReplyTimeout', 'void', [param('ns3::Time', 'waitReplyTimeout')]) ## arp-cache.h (module 'internet'): void ns3::ArpCache::StartWaitReplyTimer() [member function] cls.add_method('StartWaitReplyTimer', 'void', []) ## arp-cache.h (module 'internet'): void ns3::ArpCache::DoDispose() [member function] cls.add_method('DoDispose', 'void', [], visibility='private', is_virtual=True) return def register_Ns3ArpCacheEntry_methods(root_module, cls): ## arp-cache.h (module 'internet'): ns3::ArpCache::Entry::Entry(ns3::ArpCache::Entry const & arg0) [copy constructor] cls.add_constructor([param('ns3::ArpCache::Entry const &', 'arg0')]) ## arp-cache.h (module 'internet'): ns3::ArpCache::Entry::Entry(ns3::ArpCache * arp) [constructor] cls.add_constructor([param('ns3::ArpCache *', 'arp')]) ## arp-cache.h (module 'internet'): void ns3::ArpCache::Entry::ClearRetries() [member function] cls.add_method('ClearRetries', 'void', []) ## arp-cache.h (module 'internet'): ns3::Ptr ns3::ArpCache::Entry::DequeuePending() [member function] cls.add_method('DequeuePending', 'ns3::Ptr< ns3::Packet >', []) ## arp-cache.h (module 'internet'): ns3::Ipv4Address ns3::ArpCache::Entry::GetIpv4Address() const [member function] cls.add_method('GetIpv4Address', 'ns3::Ipv4Address', [], is_const=True) ## arp-cache.h (module 'internet'): ns3::Address ns3::ArpCache::Entry::GetMacAddress() const [member function] cls.add_method('GetMacAddress', 'ns3::Address', [], is_const=True) ## arp-cache.h (module 'internet'): uint32_t ns3::ArpCache::Entry::GetRetries() const [member function] cls.add_method('GetRetries', 'uint32_t', [], is_const=True) ## arp-cache.h (module 'internet'): void ns3::ArpCache::Entry::IncrementRetries() [member function] cls.add_method('IncrementRetries', 'void', []) ## arp-cache.h (module 'internet'): bool ns3::ArpCache::Entry::IsAlive() [member function] cls.add_method('IsAlive', 'bool', []) ## arp-cache.h (module 'internet'): bool ns3::ArpCache::Entry::IsDead() [member function] cls.add_method('IsDead', 'bool', []) ## arp-cache.h (module 'internet'): bool ns3::ArpCache::Entry::IsExpired() const [member function] cls.add_method('IsExpired', 'bool', [], is_const=True) ## arp-cache.h (module 'internet'): bool ns3::ArpCache::Entry::IsWaitReply() [member function] cls.add_method('IsWaitReply', 'bool', []) ## arp-cache.h (module 'internet'): void ns3::ArpCache::Entry::MarkAlive(ns3::Address macAddress) [member function] cls.add_method('MarkAlive', 'void', [param('ns3::Address', 'macAddress')]) ## arp-cache.h (module 'internet'): void ns3::ArpCache::Entry::MarkDead() [member function] cls.add_method('MarkDead', 'void', []) ## arp-cache.h (module 'internet'): void ns3::ArpCache::Entry::MarkWaitReply(ns3::Ptr waiting) [member function] cls.add_method('MarkWaitReply', 'void', [param('ns3::Ptr< ns3::Packet >', 'waiting')]) ## arp-cache.h (module 'internet'): void ns3::ArpCache::Entry::SetIpv4Address(ns3::Ipv4Address destination) [member function] cls.add_method('SetIpv4Address', 'void', [param('ns3::Ipv4Address', 'destination')]) ## arp-cache.h (module 'internet'): bool ns3::ArpCache::Entry::UpdateWaitReply(ns3::Ptr waiting) [member function] cls.add_method('UpdateWaitReply', 'bool', [param('ns3::Ptr< ns3::Packet >', 'waiting')]) return def register_Ns3AttributeAccessor_methods(root_module, cls): ## attribute.h (module 'core'): ns3::AttributeAccessor::AttributeAccessor(ns3::AttributeAccessor const & arg0) [copy constructor] cls.add_constructor([param('ns3::AttributeAccessor const &', 'arg0')]) ## attribute.h (module 'core'): ns3::AttributeAccessor::AttributeAccessor() [constructor] cls.add_constructor([]) ## attribute.h (module 'core'): bool ns3::AttributeAccessor::Get(ns3::ObjectBase const * object, ns3::AttributeValue & attribute) const [member function] cls.add_method('Get', 'bool', [param('ns3::ObjectBase const *', 'object'), param('ns3::AttributeValue &', 'attribute')], is_pure_virtual=True, is_const=True, is_virtual=True) ## attribute.h (module 'core'): bool ns3::AttributeAccessor::HasGetter() const [member function] cls.add_method('HasGetter', 'bool', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## attribute.h (module 'core'): bool ns3::AttributeAccessor::HasSetter() const [member function] cls.add_method('HasSetter', 'bool', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## attribute.h (module 'core'): bool ns3::AttributeAccessor::Set(ns3::ObjectBase * object, ns3::AttributeValue const & value) const [member function] cls.add_method('Set', 'bool', [param('ns3::ObjectBase *', 'object', transfer_ownership=False), param('ns3::AttributeValue const &', 'value')], is_pure_virtual=True, is_const=True, is_virtual=True) return def register_Ns3AttributeChecker_methods(root_module, cls): ## attribute.h (module 'core'): ns3::AttributeChecker::AttributeChecker(ns3::AttributeChecker const & arg0) [copy constructor] cls.add_constructor([param('ns3::AttributeChecker const &', 'arg0')]) ## attribute.h (module 'core'): ns3::AttributeChecker::AttributeChecker() [constructor] cls.add_constructor([]) ## attribute.h (module 'core'): bool ns3::AttributeChecker::Check(ns3::AttributeValue const & value) const [member function] cls.add_method('Check', 'bool', [param('ns3::AttributeValue const &', 'value')], is_pure_virtual=True, is_const=True, is_virtual=True) ## attribute.h (module 'core'): bool ns3::AttributeChecker::Copy(ns3::AttributeValue const & source, ns3::AttributeValue & destination) const [member function] cls.add_method('Copy', 'bool', [param('ns3::AttributeValue const &', 'source'), param('ns3::AttributeValue &', 'destination')], is_pure_virtual=True, is_const=True, is_virtual=True) ## attribute.h (module 'core'): ns3::Ptr ns3::AttributeChecker::Create() const [member function] cls.add_method('Create', 'ns3::Ptr< ns3::AttributeValue >', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## attribute.h (module 'core'): ns3::Ptr ns3::AttributeChecker::CreateValidValue(ns3::AttributeValue const & value) const [member function] cls.add_method('CreateValidValue', 'ns3::Ptr< ns3::AttributeValue >', [param('ns3::AttributeValue const &', 'value')], is_const=True) ## attribute.h (module 'core'): std::string ns3::AttributeChecker::GetUnderlyingTypeInformation() const [member function] cls.add_method('GetUnderlyingTypeInformation', 'std::string', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## attribute.h (module 'core'): std::string ns3::AttributeChecker::GetValueTypeName() const [member function] cls.add_method('GetValueTypeName', 'std::string', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## attribute.h (module 'core'): bool ns3::AttributeChecker::HasUnderlyingTypeInformation() const [member function] cls.add_method('HasUnderlyingTypeInformation', 'bool', [], is_pure_virtual=True, is_const=True, is_virtual=True) return def register_Ns3AttributeValue_methods(root_module, cls): ## attribute.h (module 'core'): ns3::AttributeValue::AttributeValue(ns3::AttributeValue const & arg0) [copy constructor] cls.add_constructor([param('ns3::AttributeValue const &', 'arg0')]) ## attribute.h (module 'core'): ns3::AttributeValue::AttributeValue() [constructor] cls.add_constructor([]) ## attribute.h (module 'core'): ns3::Ptr ns3::AttributeValue::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::AttributeValue >', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## attribute.h (module 'core'): bool ns3::AttributeValue::DeserializeFromString(std::string value, ns3::Ptr checker) [member function] cls.add_method('DeserializeFromString', 'bool', [param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_pure_virtual=True, is_virtual=True) ## attribute.h (module 'core'): std::string ns3::AttributeValue::SerializeToString(ns3::Ptr checker) const [member function] cls.add_method('SerializeToString', 'std::string', [param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_pure_virtual=True, is_const=True, is_virtual=True) return def register_Ns3CallbackChecker_methods(root_module, cls): ## callback.h (module 'core'): ns3::CallbackChecker::CallbackChecker() [constructor] cls.add_constructor([]) ## callback.h (module 'core'): ns3::CallbackChecker::CallbackChecker(ns3::CallbackChecker const & arg0) [copy constructor] cls.add_constructor([param('ns3::CallbackChecker const &', 'arg0')]) return def register_Ns3CallbackImplBase_methods(root_module, cls): ## callback.h (module 'core'): ns3::CallbackImplBase::CallbackImplBase() [constructor] cls.add_constructor([]) ## callback.h (module 'core'): ns3::CallbackImplBase::CallbackImplBase(ns3::CallbackImplBase const & arg0) [copy constructor] cls.add_constructor([param('ns3::CallbackImplBase const &', 'arg0')]) ## callback.h (module 'core'): bool ns3::CallbackImplBase::IsEqual(ns3::Ptr other) const [member function] cls.add_method('IsEqual', 'bool', [param('ns3::Ptr< ns3::CallbackImplBase const >', 'other')], is_pure_virtual=True, is_const=True, is_virtual=True) return def register_Ns3CallbackValue_methods(root_module, cls): ## callback.h (module 'core'): ns3::CallbackValue::CallbackValue(ns3::CallbackValue const & arg0) [copy constructor] cls.add_constructor([param('ns3::CallbackValue const &', 'arg0')]) ## callback.h (module 'core'): ns3::CallbackValue::CallbackValue() [constructor] cls.add_constructor([]) ## callback.h (module 'core'): ns3::CallbackValue::CallbackValue(ns3::CallbackBase const & base) [constructor] cls.add_constructor([param('ns3::CallbackBase const &', 'base')]) ## callback.h (module 'core'): ns3::Ptr ns3::CallbackValue::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::AttributeValue >', [], is_const=True, is_virtual=True) ## callback.h (module 'core'): bool ns3::CallbackValue::DeserializeFromString(std::string value, ns3::Ptr checker) [member function] cls.add_method('DeserializeFromString', 'bool', [param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_virtual=True) ## callback.h (module 'core'): std::string ns3::CallbackValue::SerializeToString(ns3::Ptr checker) const [member function] cls.add_method('SerializeToString', 'std::string', [param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_const=True, is_virtual=True) ## callback.h (module 'core'): void ns3::CallbackValue::Set(ns3::CallbackBase base) [member function] cls.add_method('Set', 'void', [param('ns3::CallbackBase', 'base')]) return def register_Ns3ConstantRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::ConstantRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::ConstantRandomVariable::ConstantRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): double ns3::ConstantRandomVariable::GetConstant() const [member function] cls.add_method('GetConstant', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::ConstantRandomVariable::GetValue(double constant) [member function] cls.add_method('GetValue', 'double', [param('double', 'constant')]) ## random-variable-stream.h (module 'core'): uint32_t ns3::ConstantRandomVariable::GetInteger(uint32_t constant) [member function] cls.add_method('GetInteger', 'uint32_t', [param('uint32_t', 'constant')]) ## random-variable-stream.h (module 'core'): double ns3::ConstantRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::ConstantRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3DeterministicRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::DeterministicRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::DeterministicRandomVariable::DeterministicRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): void ns3::DeterministicRandomVariable::SetValueArray(double * values, uint64_t length) [member function] cls.add_method('SetValueArray', 'void', [param('double *', 'values'), param('uint64_t', 'length')]) ## random-variable-stream.h (module 'core'): double ns3::DeterministicRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::DeterministicRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3EmpiricalRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): ns3::EmpiricalRandomVariable::EmpiricalRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): void ns3::EmpiricalRandomVariable::CDF(double v, double c) [member function] cls.add_method('CDF', 'void', [param('double', 'v'), param('double', 'c')]) ## random-variable-stream.h (module 'core'): uint32_t ns3::EmpiricalRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::EmpiricalRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): double ns3::EmpiricalRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): double ns3::EmpiricalRandomVariable::Interpolate(double arg0, double arg1, double arg2, double arg3, double arg4) [member function] cls.add_method('Interpolate', 'double', [param('double', 'arg0'), param('double', 'arg1'), param('double', 'arg2'), param('double', 'arg3'), param('double', 'arg4')], visibility='private', is_virtual=True) ## random-variable-stream.h (module 'core'): void ns3::EmpiricalRandomVariable::Validate() [member function] cls.add_method('Validate', 'void', [], visibility='private', is_virtual=True) return def register_Ns3EmptyAttributeValue_methods(root_module, cls): ## attribute.h (module 'core'): ns3::EmptyAttributeValue::EmptyAttributeValue(ns3::EmptyAttributeValue const & arg0) [copy constructor] cls.add_constructor([param('ns3::EmptyAttributeValue const &', 'arg0')]) ## attribute.h (module 'core'): ns3::EmptyAttributeValue::EmptyAttributeValue() [constructor] cls.add_constructor([]) ## attribute.h (module 'core'): ns3::Ptr ns3::EmptyAttributeValue::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::AttributeValue >', [], is_const=True, visibility='private', is_virtual=True) ## attribute.h (module 'core'): bool ns3::EmptyAttributeValue::DeserializeFromString(std::string value, ns3::Ptr checker) [member function] cls.add_method('DeserializeFromString', 'bool', [param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], visibility='private', is_virtual=True) ## attribute.h (module 'core'): std::string ns3::EmptyAttributeValue::SerializeToString(ns3::Ptr checker) const [member function] cls.add_method('SerializeToString', 'std::string', [param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_const=True, visibility='private', is_virtual=True) return def register_Ns3EnumChecker_methods(root_module, cls): ## enum.h (module 'core'): ns3::EnumChecker::EnumChecker(ns3::EnumChecker const & arg0) [copy constructor] cls.add_constructor([param('ns3::EnumChecker const &', 'arg0')]) ## enum.h (module 'core'): ns3::EnumChecker::EnumChecker() [constructor] cls.add_constructor([]) ## enum.h (module 'core'): void ns3::EnumChecker::Add(int v, std::string name) [member function] cls.add_method('Add', 'void', [param('int', 'v'), param('std::string', 'name')]) ## enum.h (module 'core'): void ns3::EnumChecker::AddDefault(int v, std::string name) [member function] cls.add_method('AddDefault', 'void', [param('int', 'v'), param('std::string', 'name')]) ## enum.h (module 'core'): bool ns3::EnumChecker::Check(ns3::AttributeValue const & value) const [member function] cls.add_method('Check', 'bool', [param('ns3::AttributeValue const &', 'value')], is_const=True, is_virtual=True) ## enum.h (module 'core'): bool ns3::EnumChecker::Copy(ns3::AttributeValue const & src, ns3::AttributeValue & dst) const [member function] cls.add_method('Copy', 'bool', [param('ns3::AttributeValue const &', 'src'), param('ns3::AttributeValue &', 'dst')], is_const=True, is_virtual=True) ## enum.h (module 'core'): ns3::Ptr ns3::EnumChecker::Create() const [member function] cls.add_method('Create', 'ns3::Ptr< ns3::AttributeValue >', [], is_const=True, is_virtual=True) ## enum.h (module 'core'): std::string ns3::EnumChecker::GetUnderlyingTypeInformation() const [member function] cls.add_method('GetUnderlyingTypeInformation', 'std::string', [], is_const=True, is_virtual=True) ## enum.h (module 'core'): std::string ns3::EnumChecker::GetValueTypeName() const [member function] cls.add_method('GetValueTypeName', 'std::string', [], is_const=True, is_virtual=True) ## enum.h (module 'core'): bool ns3::EnumChecker::HasUnderlyingTypeInformation() const [member function] cls.add_method('HasUnderlyingTypeInformation', 'bool', [], is_const=True, is_virtual=True) return def register_Ns3EnumValue_methods(root_module, cls): ## enum.h (module 'core'): ns3::EnumValue::EnumValue(ns3::EnumValue const & arg0) [copy constructor] cls.add_constructor([param('ns3::EnumValue const &', 'arg0')]) ## enum.h (module 'core'): ns3::EnumValue::EnumValue() [constructor] cls.add_constructor([]) ## enum.h (module 'core'): ns3::EnumValue::EnumValue(int v) [constructor] cls.add_constructor([param('int', 'v')]) ## enum.h (module 'core'): ns3::Ptr ns3::EnumValue::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::AttributeValue >', [], is_const=True, is_virtual=True) ## enum.h (module 'core'): bool ns3::EnumValue::DeserializeFromString(std::string value, ns3::Ptr checker) [member function] cls.add_method('DeserializeFromString', 'bool', [param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_virtual=True) ## enum.h (module 'core'): int ns3::EnumValue::Get() const [member function] cls.add_method('Get', 'int', [], is_const=True) ## enum.h (module 'core'): std::string ns3::EnumValue::SerializeToString(ns3::Ptr checker) const [member function] cls.add_method('SerializeToString', 'std::string', [param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_const=True, is_virtual=True) ## enum.h (module 'core'): void ns3::EnumValue::Set(int v) [member function] cls.add_method('Set', 'void', [param('int', 'v')]) return def register_Ns3ErlangRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::ErlangRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::ErlangRandomVariable::ErlangRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): uint32_t ns3::ErlangRandomVariable::GetK() const [member function] cls.add_method('GetK', 'uint32_t', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::ErlangRandomVariable::GetLambda() const [member function] cls.add_method('GetLambda', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::ErlangRandomVariable::GetValue(uint32_t k, double lambda) [member function] cls.add_method('GetValue', 'double', [param('uint32_t', 'k'), param('double', 'lambda')]) ## random-variable-stream.h (module 'core'): uint32_t ns3::ErlangRandomVariable::GetInteger(uint32_t k, uint32_t lambda) [member function] cls.add_method('GetInteger', 'uint32_t', [param('uint32_t', 'k'), param('uint32_t', 'lambda')]) ## random-variable-stream.h (module 'core'): double ns3::ErlangRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::ErlangRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3EventImpl_methods(root_module, cls): ## event-impl.h (module 'core'): ns3::EventImpl::EventImpl(ns3::EventImpl const & arg0) [copy constructor] cls.add_constructor([param('ns3::EventImpl const &', 'arg0')]) ## event-impl.h (module 'core'): ns3::EventImpl::EventImpl() [constructor] cls.add_constructor([]) ## event-impl.h (module 'core'): void ns3::EventImpl::Cancel() [member function] cls.add_method('Cancel', 'void', []) ## event-impl.h (module 'core'): void ns3::EventImpl::Invoke() [member function] cls.add_method('Invoke', 'void', []) ## event-impl.h (module 'core'): bool ns3::EventImpl::IsCancelled() [member function] cls.add_method('IsCancelled', 'bool', []) ## event-impl.h (module 'core'): void ns3::EventImpl::Notify() [member function] cls.add_method('Notify', 'void', [], is_pure_virtual=True, visibility='protected', is_virtual=True) return def register_Ns3ExponentialRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::ExponentialRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::ExponentialRandomVariable::ExponentialRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): double ns3::ExponentialRandomVariable::GetMean() const [member function] cls.add_method('GetMean', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::ExponentialRandomVariable::GetBound() const [member function] cls.add_method('GetBound', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::ExponentialRandomVariable::GetValue(double mean, double bound) [member function] cls.add_method('GetValue', 'double', [param('double', 'mean'), param('double', 'bound')]) ## random-variable-stream.h (module 'core'): uint32_t ns3::ExponentialRandomVariable::GetInteger(uint32_t mean, uint32_t bound) [member function] cls.add_method('GetInteger', 'uint32_t', [param('uint32_t', 'mean'), param('uint32_t', 'bound')]) ## random-variable-stream.h (module 'core'): double ns3::ExponentialRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::ExponentialRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3GammaRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::GammaRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::GammaRandomVariable::GammaRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): double ns3::GammaRandomVariable::GetAlpha() const [member function] cls.add_method('GetAlpha', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::GammaRandomVariable::GetBeta() const [member function] cls.add_method('GetBeta', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::GammaRandomVariable::GetValue(double alpha, double beta) [member function] cls.add_method('GetValue', 'double', [param('double', 'alpha'), param('double', 'beta')]) ## random-variable-stream.h (module 'core'): uint32_t ns3::GammaRandomVariable::GetInteger(uint32_t alpha, uint32_t beta) [member function] cls.add_method('GetInteger', 'uint32_t', [param('uint32_t', 'alpha'), param('uint32_t', 'beta')]) ## random-variable-stream.h (module 'core'): double ns3::GammaRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::GammaRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3IpL4Protocol_methods(root_module, cls): ## ip-l4-protocol.h (module 'internet'): ns3::IpL4Protocol::IpL4Protocol() [constructor] cls.add_constructor([]) ## ip-l4-protocol.h (module 'internet'): ns3::IpL4Protocol::IpL4Protocol(ns3::IpL4Protocol const & arg0) [copy constructor] cls.add_constructor([param('ns3::IpL4Protocol const &', 'arg0')]) ## ip-l4-protocol.h (module 'internet'): ns3::Callback,ns3::Ipv4Address,ns3::Ipv4Address,unsigned char,ns3::Ptr,ns3::empty,ns3::empty,ns3::empty,ns3::empty> ns3::IpL4Protocol::GetDownTarget() const [member function] cls.add_method('GetDownTarget', 'ns3::Callback< void, ns3::Ptr< ns3::Packet >, ns3::Ipv4Address, ns3::Ipv4Address, unsigned char, ns3::Ptr< ns3::Ipv4Route >, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## ip-l4-protocol.h (module 'internet'): ns3::Callback,ns3::Ipv6Address,ns3::Ipv6Address,unsigned char,ns3::Ptr,ns3::empty,ns3::empty,ns3::empty,ns3::empty> ns3::IpL4Protocol::GetDownTarget6() const [member function] cls.add_method('GetDownTarget6', 'ns3::Callback< void, ns3::Ptr< ns3::Packet >, ns3::Ipv6Address, ns3::Ipv6Address, unsigned char, ns3::Ptr< ns3::Ipv6Route >, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## ip-l4-protocol.h (module 'internet'): int ns3::IpL4Protocol::GetProtocolNumber() const [member function] cls.add_method('GetProtocolNumber', 'int', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## ip-l4-protocol.h (module 'internet'): static ns3::TypeId ns3::IpL4Protocol::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## ip-l4-protocol.h (module 'internet'): ns3::IpL4Protocol::RxStatus ns3::IpL4Protocol::Receive(ns3::Ptr p, ns3::Ipv4Header const & header, ns3::Ptr incomingInterface) [member function] cls.add_method('Receive', 'ns3::IpL4Protocol::RxStatus', [param('ns3::Ptr< ns3::Packet >', 'p'), param('ns3::Ipv4Header const &', 'header'), param('ns3::Ptr< ns3::Ipv4Interface >', 'incomingInterface')], is_pure_virtual=True, is_virtual=True) ## ip-l4-protocol.h (module 'internet'): ns3::IpL4Protocol::RxStatus ns3::IpL4Protocol::Receive(ns3::Ptr p, ns3::Ipv6Header const & header, ns3::Ptr incomingInterface) [member function] cls.add_method('Receive', 'ns3::IpL4Protocol::RxStatus', [param('ns3::Ptr< ns3::Packet >', 'p'), param('ns3::Ipv6Header const &', 'header'), param('ns3::Ptr< ns3::Ipv6Interface >', 'incomingInterface')], is_pure_virtual=True, is_virtual=True) ## ip-l4-protocol.h (module 'internet'): void ns3::IpL4Protocol::ReceiveIcmp(ns3::Ipv4Address icmpSource, uint8_t icmpTtl, uint8_t icmpType, uint8_t icmpCode, uint32_t icmpInfo, ns3::Ipv4Address payloadSource, ns3::Ipv4Address payloadDestination, uint8_t const * payload) [member function] cls.add_method('ReceiveIcmp', 'void', [param('ns3::Ipv4Address', 'icmpSource'), param('uint8_t', 'icmpTtl'), param('uint8_t', 'icmpType'), param('uint8_t', 'icmpCode'), param('uint32_t', 'icmpInfo'), param('ns3::Ipv4Address', 'payloadSource'), param('ns3::Ipv4Address', 'payloadDestination'), param('uint8_t const *', 'payload')], is_virtual=True) ## ip-l4-protocol.h (module 'internet'): void ns3::IpL4Protocol::ReceiveIcmp(ns3::Ipv6Address icmpSource, uint8_t icmpTtl, uint8_t icmpType, uint8_t icmpCode, uint32_t icmpInfo, ns3::Ipv6Address payloadSource, ns3::Ipv6Address payloadDestination, uint8_t const * payload) [member function] cls.add_method('ReceiveIcmp', 'void', [param('ns3::Ipv6Address', 'icmpSource'), param('uint8_t', 'icmpTtl'), param('uint8_t', 'icmpType'), param('uint8_t', 'icmpCode'), param('uint32_t', 'icmpInfo'), param('ns3::Ipv6Address', 'payloadSource'), param('ns3::Ipv6Address', 'payloadDestination'), param('uint8_t const *', 'payload')], is_virtual=True) ## ip-l4-protocol.h (module 'internet'): void ns3::IpL4Protocol::SetDownTarget(ns3::Callback,ns3::Ipv4Address,ns3::Ipv4Address,unsigned char,ns3::Ptr,ns3::empty,ns3::empty,ns3::empty,ns3::empty> cb) [member function] cls.add_method('SetDownTarget', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::Packet >, ns3::Ipv4Address, ns3::Ipv4Address, unsigned char, ns3::Ptr< ns3::Ipv4Route >, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'cb')], is_pure_virtual=True, is_virtual=True) ## ip-l4-protocol.h (module 'internet'): void ns3::IpL4Protocol::SetDownTarget6(ns3::Callback,ns3::Ipv6Address,ns3::Ipv6Address,unsigned char,ns3::Ptr,ns3::empty,ns3::empty,ns3::empty,ns3::empty> cb) [member function] cls.add_method('SetDownTarget6', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::Packet >, ns3::Ipv6Address, ns3::Ipv6Address, unsigned char, ns3::Ptr< ns3::Ipv6Route >, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'cb')], is_pure_virtual=True, is_virtual=True) return def register_Ns3Ipv4_methods(root_module, cls): ## ipv4.h (module 'internet'): ns3::Ipv4::Ipv4(ns3::Ipv4 const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv4 const &', 'arg0')]) ## ipv4.h (module 'internet'): ns3::Ipv4::Ipv4() [constructor] cls.add_constructor([]) ## ipv4.h (module 'internet'): bool ns3::Ipv4::AddAddress(uint32_t interface, ns3::Ipv4InterfaceAddress address) [member function] cls.add_method('AddAddress', 'bool', [param('uint32_t', 'interface'), param('ns3::Ipv4InterfaceAddress', 'address')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): uint32_t ns3::Ipv4::AddInterface(ns3::Ptr device) [member function] cls.add_method('AddInterface', 'uint32_t', [param('ns3::Ptr< ns3::NetDevice >', 'device')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): ns3::Ptr ns3::Ipv4::CreateRawSocket() [member function] cls.add_method('CreateRawSocket', 'ns3::Ptr< ns3::Socket >', [], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): void ns3::Ipv4::DeleteRawSocket(ns3::Ptr socket) [member function] cls.add_method('DeleteRawSocket', 'void', [param('ns3::Ptr< ns3::Socket >', 'socket')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): ns3::Ipv4InterfaceAddress ns3::Ipv4::GetAddress(uint32_t interface, uint32_t addressIndex) const [member function] cls.add_method('GetAddress', 'ns3::Ipv4InterfaceAddress', [param('uint32_t', 'interface'), param('uint32_t', 'addressIndex')], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4.h (module 'internet'): int32_t ns3::Ipv4::GetInterfaceForAddress(ns3::Ipv4Address address) const [member function] cls.add_method('GetInterfaceForAddress', 'int32_t', [param('ns3::Ipv4Address', 'address')], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4.h (module 'internet'): int32_t ns3::Ipv4::GetInterfaceForDevice(ns3::Ptr device) const [member function] cls.add_method('GetInterfaceForDevice', 'int32_t', [param('ns3::Ptr< ns3::NetDevice const >', 'device')], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4.h (module 'internet'): int32_t ns3::Ipv4::GetInterfaceForPrefix(ns3::Ipv4Address address, ns3::Ipv4Mask mask) const [member function] cls.add_method('GetInterfaceForPrefix', 'int32_t', [param('ns3::Ipv4Address', 'address'), param('ns3::Ipv4Mask', 'mask')], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4.h (module 'internet'): uint16_t ns3::Ipv4::GetMetric(uint32_t interface) const [member function] cls.add_method('GetMetric', 'uint16_t', [param('uint32_t', 'interface')], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4.h (module 'internet'): uint16_t ns3::Ipv4::GetMtu(uint32_t interface) const [member function] cls.add_method('GetMtu', 'uint16_t', [param('uint32_t', 'interface')], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4.h (module 'internet'): uint32_t ns3::Ipv4::GetNAddresses(uint32_t interface) const [member function] cls.add_method('GetNAddresses', 'uint32_t', [param('uint32_t', 'interface')], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4.h (module 'internet'): uint32_t ns3::Ipv4::GetNInterfaces() const [member function] cls.add_method('GetNInterfaces', 'uint32_t', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4.h (module 'internet'): ns3::Ptr ns3::Ipv4::GetNetDevice(uint32_t interface) [member function] cls.add_method('GetNetDevice', 'ns3::Ptr< ns3::NetDevice >', [param('uint32_t', 'interface')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): ns3::Ptr ns3::Ipv4::GetProtocol(int protocolNumber) const [member function] cls.add_method('GetProtocol', 'ns3::Ptr< ns3::IpL4Protocol >', [param('int', 'protocolNumber')], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4.h (module 'internet'): ns3::Ptr ns3::Ipv4::GetRoutingProtocol() const [member function] cls.add_method('GetRoutingProtocol', 'ns3::Ptr< ns3::Ipv4RoutingProtocol >', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4.h (module 'internet'): static ns3::TypeId ns3::Ipv4::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## ipv4.h (module 'internet'): void ns3::Ipv4::Insert(ns3::Ptr protocol) [member function] cls.add_method('Insert', 'void', [param('ns3::Ptr< ns3::IpL4Protocol >', 'protocol')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): bool ns3::Ipv4::IsDestinationAddress(ns3::Ipv4Address address, uint32_t iif) const [member function] cls.add_method('IsDestinationAddress', 'bool', [param('ns3::Ipv4Address', 'address'), param('uint32_t', 'iif')], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4.h (module 'internet'): bool ns3::Ipv4::IsForwarding(uint32_t interface) const [member function] cls.add_method('IsForwarding', 'bool', [param('uint32_t', 'interface')], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4.h (module 'internet'): bool ns3::Ipv4::IsUp(uint32_t interface) const [member function] cls.add_method('IsUp', 'bool', [param('uint32_t', 'interface')], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4.h (module 'internet'): bool ns3::Ipv4::RemoveAddress(uint32_t interface, uint32_t addressIndex) [member function] cls.add_method('RemoveAddress', 'bool', [param('uint32_t', 'interface'), param('uint32_t', 'addressIndex')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): ns3::Ipv4Address ns3::Ipv4::SelectSourceAddress(ns3::Ptr device, ns3::Ipv4Address dst, ns3::Ipv4InterfaceAddress::InterfaceAddressScope_e scope) [member function] cls.add_method('SelectSourceAddress', 'ns3::Ipv4Address', [param('ns3::Ptr< ns3::NetDevice const >', 'device'), param('ns3::Ipv4Address', 'dst'), param('ns3::Ipv4InterfaceAddress::InterfaceAddressScope_e', 'scope')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): void ns3::Ipv4::Send(ns3::Ptr packet, ns3::Ipv4Address source, ns3::Ipv4Address destination, uint8_t protocol, ns3::Ptr route) [member function] cls.add_method('Send', 'void', [param('ns3::Ptr< ns3::Packet >', 'packet'), param('ns3::Ipv4Address', 'source'), param('ns3::Ipv4Address', 'destination'), param('uint8_t', 'protocol'), param('ns3::Ptr< ns3::Ipv4Route >', 'route')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): void ns3::Ipv4::SendWithHeader(ns3::Ptr packet, ns3::Ipv4Header ipHeader, ns3::Ptr route) [member function] cls.add_method('SendWithHeader', 'void', [param('ns3::Ptr< ns3::Packet >', 'packet'), param('ns3::Ipv4Header', 'ipHeader'), param('ns3::Ptr< ns3::Ipv4Route >', 'route')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): void ns3::Ipv4::SetDown(uint32_t interface) [member function] cls.add_method('SetDown', 'void', [param('uint32_t', 'interface')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): void ns3::Ipv4::SetForwarding(uint32_t interface, bool val) [member function] cls.add_method('SetForwarding', 'void', [param('uint32_t', 'interface'), param('bool', 'val')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): void ns3::Ipv4::SetMetric(uint32_t interface, uint16_t metric) [member function] cls.add_method('SetMetric', 'void', [param('uint32_t', 'interface'), param('uint16_t', 'metric')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): void ns3::Ipv4::SetRoutingProtocol(ns3::Ptr routingProtocol) [member function] cls.add_method('SetRoutingProtocol', 'void', [param('ns3::Ptr< ns3::Ipv4RoutingProtocol >', 'routingProtocol')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): void ns3::Ipv4::SetUp(uint32_t interface) [member function] cls.add_method('SetUp', 'void', [param('uint32_t', 'interface')], is_pure_virtual=True, is_virtual=True) ## ipv4.h (module 'internet'): ns3::Ipv4::IF_ANY [variable] cls.add_static_attribute('IF_ANY', 'uint32_t const', is_const=True) ## ipv4.h (module 'internet'): bool ns3::Ipv4::GetIpForward() const [member function] cls.add_method('GetIpForward', 'bool', [], is_pure_virtual=True, is_const=True, visibility='private', is_virtual=True) ## ipv4.h (module 'internet'): bool ns3::Ipv4::GetWeakEsModel() const [member function] cls.add_method('GetWeakEsModel', 'bool', [], is_pure_virtual=True, is_const=True, visibility='private', is_virtual=True) ## ipv4.h (module 'internet'): void ns3::Ipv4::SetIpForward(bool forward) [member function] cls.add_method('SetIpForward', 'void', [param('bool', 'forward')], is_pure_virtual=True, visibility='private', is_virtual=True) ## ipv4.h (module 'internet'): void ns3::Ipv4::SetWeakEsModel(bool model) [member function] cls.add_method('SetWeakEsModel', 'void', [param('bool', 'model')], is_pure_virtual=True, visibility='private', is_virtual=True) return def register_Ns3Ipv4AddressChecker_methods(root_module, cls): ## ipv4-address.h (module 'network'): ns3::Ipv4AddressChecker::Ipv4AddressChecker() [constructor] cls.add_constructor([]) ## ipv4-address.h (module 'network'): ns3::Ipv4AddressChecker::Ipv4AddressChecker(ns3::Ipv4AddressChecker const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv4AddressChecker const &', 'arg0')]) return def register_Ns3Ipv4AddressValue_methods(root_module, cls): ## ipv4-address.h (module 'network'): ns3::Ipv4AddressValue::Ipv4AddressValue() [constructor] cls.add_constructor([]) ## ipv4-address.h (module 'network'): ns3::Ipv4AddressValue::Ipv4AddressValue(ns3::Ipv4AddressValue const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv4AddressValue const &', 'arg0')]) ## ipv4-address.h (module 'network'): ns3::Ipv4AddressValue::Ipv4AddressValue(ns3::Ipv4Address const & value) [constructor] cls.add_constructor([param('ns3::Ipv4Address const &', 'value')]) ## ipv4-address.h (module 'network'): ns3::Ptr ns3::Ipv4AddressValue::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::AttributeValue >', [], is_const=True, is_virtual=True) ## ipv4-address.h (module 'network'): bool ns3::Ipv4AddressValue::DeserializeFromString(std::string value, ns3::Ptr checker) [member function] cls.add_method('DeserializeFromString', 'bool', [param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_virtual=True) ## ipv4-address.h (module 'network'): ns3::Ipv4Address ns3::Ipv4AddressValue::Get() const [member function] cls.add_method('Get', 'ns3::Ipv4Address', [], is_const=True) ## ipv4-address.h (module 'network'): std::string ns3::Ipv4AddressValue::SerializeToString(ns3::Ptr checker) const [member function] cls.add_method('SerializeToString', 'std::string', [param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_const=True, is_virtual=True) ## ipv4-address.h (module 'network'): void ns3::Ipv4AddressValue::Set(ns3::Ipv4Address const & value) [member function] cls.add_method('Set', 'void', [param('ns3::Ipv4Address const &', 'value')]) return def register_Ns3Ipv4Interface_methods(root_module, cls): ## ipv4-interface.h (module 'internet'): ns3::Ipv4Interface::Ipv4Interface(ns3::Ipv4Interface const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv4Interface const &', 'arg0')]) ## ipv4-interface.h (module 'internet'): ns3::Ipv4Interface::Ipv4Interface() [constructor] cls.add_constructor([]) ## ipv4-interface.h (module 'internet'): bool ns3::Ipv4Interface::AddAddress(ns3::Ipv4InterfaceAddress address) [member function] cls.add_method('AddAddress', 'bool', [param('ns3::Ipv4InterfaceAddress', 'address')]) ## ipv4-interface.h (module 'internet'): ns3::Ipv4InterfaceAddress ns3::Ipv4Interface::GetAddress(uint32_t index) const [member function] cls.add_method('GetAddress', 'ns3::Ipv4InterfaceAddress', [param('uint32_t', 'index')], is_const=True) ## ipv4-interface.h (module 'internet'): ns3::Ptr ns3::Ipv4Interface::GetArpCache() const [member function] cls.add_method('GetArpCache', 'ns3::Ptr< ns3::ArpCache >', [], is_const=True) ## ipv4-interface.h (module 'internet'): ns3::Ptr ns3::Ipv4Interface::GetDevice() const [member function] cls.add_method('GetDevice', 'ns3::Ptr< ns3::NetDevice >', [], is_const=True) ## ipv4-interface.h (module 'internet'): uint16_t ns3::Ipv4Interface::GetMetric() const [member function] cls.add_method('GetMetric', 'uint16_t', [], is_const=True) ## ipv4-interface.h (module 'internet'): uint32_t ns3::Ipv4Interface::GetNAddresses() const [member function] cls.add_method('GetNAddresses', 'uint32_t', [], is_const=True) ## ipv4-interface.h (module 'internet'): static ns3::TypeId ns3::Ipv4Interface::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## ipv4-interface.h (module 'internet'): bool ns3::Ipv4Interface::IsDown() const [member function] cls.add_method('IsDown', 'bool', [], is_const=True) ## ipv4-interface.h (module 'internet'): bool ns3::Ipv4Interface::IsForwarding() const [member function] cls.add_method('IsForwarding', 'bool', [], is_const=True) ## ipv4-interface.h (module 'internet'): bool ns3::Ipv4Interface::IsUp() const [member function] cls.add_method('IsUp', 'bool', [], is_const=True) ## ipv4-interface.h (module 'internet'): ns3::Ipv4InterfaceAddress ns3::Ipv4Interface::RemoveAddress(uint32_t index) [member function] cls.add_method('RemoveAddress', 'ns3::Ipv4InterfaceAddress', [param('uint32_t', 'index')]) ## ipv4-interface.h (module 'internet'): void ns3::Ipv4Interface::Send(ns3::Ptr p, ns3::Ipv4Address dest) [member function] cls.add_method('Send', 'void', [param('ns3::Ptr< ns3::Packet >', 'p'), param('ns3::Ipv4Address', 'dest')]) ## ipv4-interface.h (module 'internet'): void ns3::Ipv4Interface::SetArpCache(ns3::Ptr arg0) [member function] cls.add_method('SetArpCache', 'void', [param('ns3::Ptr< ns3::ArpCache >', 'arg0')]) ## ipv4-interface.h (module 'internet'): void ns3::Ipv4Interface::SetDevice(ns3::Ptr device) [member function] cls.add_method('SetDevice', 'void', [param('ns3::Ptr< ns3::NetDevice >', 'device')]) ## ipv4-interface.h (module 'internet'): void ns3::Ipv4Interface::SetDown() [member function] cls.add_method('SetDown', 'void', []) ## ipv4-interface.h (module 'internet'): void ns3::Ipv4Interface::SetForwarding(bool val) [member function] cls.add_method('SetForwarding', 'void', [param('bool', 'val')]) ## ipv4-interface.h (module 'internet'): void ns3::Ipv4Interface::SetMetric(uint16_t metric) [member function] cls.add_method('SetMetric', 'void', [param('uint16_t', 'metric')]) ## ipv4-interface.h (module 'internet'): void ns3::Ipv4Interface::SetNode(ns3::Ptr node) [member function] cls.add_method('SetNode', 'void', [param('ns3::Ptr< ns3::Node >', 'node')]) ## ipv4-interface.h (module 'internet'): void ns3::Ipv4Interface::SetUp() [member function] cls.add_method('SetUp', 'void', []) ## ipv4-interface.h (module 'internet'): void ns3::Ipv4Interface::DoDispose() [member function] cls.add_method('DoDispose', 'void', [], visibility='protected', is_virtual=True) return def register_Ns3Ipv4L3Protocol_methods(root_module, cls): ## ipv4-l3-protocol.h (module 'internet'): ns3::Ipv4L3Protocol::Ipv4L3Protocol() [constructor] cls.add_constructor([]) ## ipv4-l3-protocol.h (module 'internet'): bool ns3::Ipv4L3Protocol::AddAddress(uint32_t i, ns3::Ipv4InterfaceAddress address) [member function] cls.add_method('AddAddress', 'bool', [param('uint32_t', 'i'), param('ns3::Ipv4InterfaceAddress', 'address')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): uint32_t ns3::Ipv4L3Protocol::AddInterface(ns3::Ptr device) [member function] cls.add_method('AddInterface', 'uint32_t', [param('ns3::Ptr< ns3::NetDevice >', 'device')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): ns3::Ptr ns3::Ipv4L3Protocol::CreateRawSocket() [member function] cls.add_method('CreateRawSocket', 'ns3::Ptr< ns3::Socket >', [], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::DeleteRawSocket(ns3::Ptr socket) [member function] cls.add_method('DeleteRawSocket', 'void', [param('ns3::Ptr< ns3::Socket >', 'socket')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): ns3::Ipv4InterfaceAddress ns3::Ipv4L3Protocol::GetAddress(uint32_t interfaceIndex, uint32_t addressIndex) const [member function] cls.add_method('GetAddress', 'ns3::Ipv4InterfaceAddress', [param('uint32_t', 'interfaceIndex'), param('uint32_t', 'addressIndex')], is_const=True, is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): ns3::Ptr ns3::Ipv4L3Protocol::GetInterface(uint32_t i) const [member function] cls.add_method('GetInterface', 'ns3::Ptr< ns3::Ipv4Interface >', [param('uint32_t', 'i')], is_const=True) ## ipv4-l3-protocol.h (module 'internet'): int32_t ns3::Ipv4L3Protocol::GetInterfaceForAddress(ns3::Ipv4Address addr) const [member function] cls.add_method('GetInterfaceForAddress', 'int32_t', [param('ns3::Ipv4Address', 'addr')], is_const=True, is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): int32_t ns3::Ipv4L3Protocol::GetInterfaceForDevice(ns3::Ptr device) const [member function] cls.add_method('GetInterfaceForDevice', 'int32_t', [param('ns3::Ptr< ns3::NetDevice const >', 'device')], is_const=True, is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): int32_t ns3::Ipv4L3Protocol::GetInterfaceForPrefix(ns3::Ipv4Address addr, ns3::Ipv4Mask mask) const [member function] cls.add_method('GetInterfaceForPrefix', 'int32_t', [param('ns3::Ipv4Address', 'addr'), param('ns3::Ipv4Mask', 'mask')], is_const=True, is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): uint16_t ns3::Ipv4L3Protocol::GetMetric(uint32_t i) const [member function] cls.add_method('GetMetric', 'uint16_t', [param('uint32_t', 'i')], is_const=True, is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): uint16_t ns3::Ipv4L3Protocol::GetMtu(uint32_t i) const [member function] cls.add_method('GetMtu', 'uint16_t', [param('uint32_t', 'i')], is_const=True, is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): uint32_t ns3::Ipv4L3Protocol::GetNAddresses(uint32_t interface) const [member function] cls.add_method('GetNAddresses', 'uint32_t', [param('uint32_t', 'interface')], is_const=True, is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): uint32_t ns3::Ipv4L3Protocol::GetNInterfaces() const [member function] cls.add_method('GetNInterfaces', 'uint32_t', [], is_const=True, is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): ns3::Ptr ns3::Ipv4L3Protocol::GetNetDevice(uint32_t i) [member function] cls.add_method('GetNetDevice', 'ns3::Ptr< ns3::NetDevice >', [param('uint32_t', 'i')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): ns3::Ptr ns3::Ipv4L3Protocol::GetProtocol(int protocolNumber) const [member function] cls.add_method('GetProtocol', 'ns3::Ptr< ns3::IpL4Protocol >', [param('int', 'protocolNumber')], is_const=True, is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): ns3::Ptr ns3::Ipv4L3Protocol::GetRoutingProtocol() const [member function] cls.add_method('GetRoutingProtocol', 'ns3::Ptr< ns3::Ipv4RoutingProtocol >', [], is_const=True, is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): static ns3::TypeId ns3::Ipv4L3Protocol::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::Insert(ns3::Ptr protocol) [member function] cls.add_method('Insert', 'void', [param('ns3::Ptr< ns3::IpL4Protocol >', 'protocol')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): bool ns3::Ipv4L3Protocol::IsDestinationAddress(ns3::Ipv4Address address, uint32_t iif) const [member function] cls.add_method('IsDestinationAddress', 'bool', [param('ns3::Ipv4Address', 'address'), param('uint32_t', 'iif')], is_const=True, is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): bool ns3::Ipv4L3Protocol::IsForwarding(uint32_t i) const [member function] cls.add_method('IsForwarding', 'bool', [param('uint32_t', 'i')], is_const=True, is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): bool ns3::Ipv4L3Protocol::IsUp(uint32_t i) const [member function] cls.add_method('IsUp', 'bool', [param('uint32_t', 'i')], is_const=True, is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::Receive(ns3::Ptr device, ns3::Ptr p, uint16_t protocol, ns3::Address const & from, ns3::Address const & to, ns3::NetDevice::PacketType packetType) [member function] cls.add_method('Receive', 'void', [param('ns3::Ptr< ns3::NetDevice >', 'device'), param('ns3::Ptr< ns3::Packet const >', 'p'), param('uint16_t', 'protocol'), param('ns3::Address const &', 'from'), param('ns3::Address const &', 'to'), param('ns3::NetDevice::PacketType', 'packetType')]) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::Remove(ns3::Ptr protocol) [member function] cls.add_method('Remove', 'void', [param('ns3::Ptr< ns3::IpL4Protocol >', 'protocol')]) ## ipv4-l3-protocol.h (module 'internet'): bool ns3::Ipv4L3Protocol::RemoveAddress(uint32_t interfaceIndex, uint32_t addressIndex) [member function] cls.add_method('RemoveAddress', 'bool', [param('uint32_t', 'interfaceIndex'), param('uint32_t', 'addressIndex')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): ns3::Ipv4Address ns3::Ipv4L3Protocol::SelectSourceAddress(ns3::Ptr device, ns3::Ipv4Address dst, ns3::Ipv4InterfaceAddress::InterfaceAddressScope_e scope) [member function] cls.add_method('SelectSourceAddress', 'ns3::Ipv4Address', [param('ns3::Ptr< ns3::NetDevice const >', 'device'), param('ns3::Ipv4Address', 'dst'), param('ns3::Ipv4InterfaceAddress::InterfaceAddressScope_e', 'scope')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::Send(ns3::Ptr packet, ns3::Ipv4Address source, ns3::Ipv4Address destination, uint8_t protocol, ns3::Ptr route) [member function] cls.add_method('Send', 'void', [param('ns3::Ptr< ns3::Packet >', 'packet'), param('ns3::Ipv4Address', 'source'), param('ns3::Ipv4Address', 'destination'), param('uint8_t', 'protocol'), param('ns3::Ptr< ns3::Ipv4Route >', 'route')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::SendWithHeader(ns3::Ptr packet, ns3::Ipv4Header ipHeader, ns3::Ptr route) [member function] cls.add_method('SendWithHeader', 'void', [param('ns3::Ptr< ns3::Packet >', 'packet'), param('ns3::Ipv4Header', 'ipHeader'), param('ns3::Ptr< ns3::Ipv4Route >', 'route')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::SetDefaultTtl(uint8_t ttl) [member function] cls.add_method('SetDefaultTtl', 'void', [param('uint8_t', 'ttl')]) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::SetDown(uint32_t i) [member function] cls.add_method('SetDown', 'void', [param('uint32_t', 'i')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::SetForwarding(uint32_t i, bool val) [member function] cls.add_method('SetForwarding', 'void', [param('uint32_t', 'i'), param('bool', 'val')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::SetMetric(uint32_t i, uint16_t metric) [member function] cls.add_method('SetMetric', 'void', [param('uint32_t', 'i'), param('uint16_t', 'metric')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::SetNode(ns3::Ptr node) [member function] cls.add_method('SetNode', 'void', [param('ns3::Ptr< ns3::Node >', 'node')]) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::SetRoutingProtocol(ns3::Ptr routingProtocol) [member function] cls.add_method('SetRoutingProtocol', 'void', [param('ns3::Ptr< ns3::Ipv4RoutingProtocol >', 'routingProtocol')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::SetUp(uint32_t i) [member function] cls.add_method('SetUp', 'void', [param('uint32_t', 'i')], is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): ns3::Ipv4L3Protocol::PROT_NUMBER [variable] cls.add_static_attribute('PROT_NUMBER', 'uint16_t const', is_const=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::DoDispose() [member function] cls.add_method('DoDispose', 'void', [], visibility='protected', is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::NotifyNewAggregate() [member function] cls.add_method('NotifyNewAggregate', 'void', [], visibility='protected', is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): bool ns3::Ipv4L3Protocol::GetIpForward() const [member function] cls.add_method('GetIpForward', 'bool', [], is_const=True, visibility='private', is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): bool ns3::Ipv4L3Protocol::GetWeakEsModel() const [member function] cls.add_method('GetWeakEsModel', 'bool', [], is_const=True, visibility='private', is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::SetIpForward(bool forward) [member function] cls.add_method('SetIpForward', 'void', [param('bool', 'forward')], visibility='private', is_virtual=True) ## ipv4-l3-protocol.h (module 'internet'): void ns3::Ipv4L3Protocol::SetWeakEsModel(bool model) [member function] cls.add_method('SetWeakEsModel', 'void', [param('bool', 'model')], visibility='private', is_virtual=True) return def register_Ns3Ipv4MaskChecker_methods(root_module, cls): ## ipv4-address.h (module 'network'): ns3::Ipv4MaskChecker::Ipv4MaskChecker() [constructor] cls.add_constructor([]) ## ipv4-address.h (module 'network'): ns3::Ipv4MaskChecker::Ipv4MaskChecker(ns3::Ipv4MaskChecker const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv4MaskChecker const &', 'arg0')]) return def register_Ns3Ipv4MaskValue_methods(root_module, cls): ## ipv4-address.h (module 'network'): ns3::Ipv4MaskValue::Ipv4MaskValue() [constructor] cls.add_constructor([]) ## ipv4-address.h (module 'network'): ns3::Ipv4MaskValue::Ipv4MaskValue(ns3::Ipv4MaskValue const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv4MaskValue const &', 'arg0')]) ## ipv4-address.h (module 'network'): ns3::Ipv4MaskValue::Ipv4MaskValue(ns3::Ipv4Mask const & value) [constructor] cls.add_constructor([param('ns3::Ipv4Mask const &', 'value')]) ## ipv4-address.h (module 'network'): ns3::Ptr ns3::Ipv4MaskValue::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::AttributeValue >', [], is_const=True, is_virtual=True) ## ipv4-address.h (module 'network'): bool ns3::Ipv4MaskValue::DeserializeFromString(std::string value, ns3::Ptr checker) [member function] cls.add_method('DeserializeFromString', 'bool', [param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_virtual=True) ## ipv4-address.h (module 'network'): ns3::Ipv4Mask ns3::Ipv4MaskValue::Get() const [member function] cls.add_method('Get', 'ns3::Ipv4Mask', [], is_const=True) ## ipv4-address.h (module 'network'): std::string ns3::Ipv4MaskValue::SerializeToString(ns3::Ptr checker) const [member function] cls.add_method('SerializeToString', 'std::string', [param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_const=True, is_virtual=True) ## ipv4-address.h (module 'network'): void ns3::Ipv4MaskValue::Set(ns3::Ipv4Mask const & value) [member function] cls.add_method('Set', 'void', [param('ns3::Ipv4Mask const &', 'value')]) return def register_Ns3Ipv4MulticastRoute_methods(root_module, cls): ## ipv4-route.h (module 'internet'): ns3::Ipv4MulticastRoute::Ipv4MulticastRoute(ns3::Ipv4MulticastRoute const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv4MulticastRoute const &', 'arg0')]) ## ipv4-route.h (module 'internet'): ns3::Ipv4MulticastRoute::Ipv4MulticastRoute() [constructor] cls.add_constructor([]) ## ipv4-route.h (module 'internet'): ns3::Ipv4Address ns3::Ipv4MulticastRoute::GetGroup() const [member function] cls.add_method('GetGroup', 'ns3::Ipv4Address', [], is_const=True) ## ipv4-route.h (module 'internet'): ns3::Ipv4Address ns3::Ipv4MulticastRoute::GetOrigin() const [member function] cls.add_method('GetOrigin', 'ns3::Ipv4Address', [], is_const=True) ## ipv4-route.h (module 'internet'): uint32_t ns3::Ipv4MulticastRoute::GetOutputTtl(uint32_t oif) [member function] cls.add_method('GetOutputTtl', 'uint32_t', [param('uint32_t', 'oif')], deprecated=True) ## ipv4-route.h (module 'internet'): std::map, std::allocator > > ns3::Ipv4MulticastRoute::GetOutputTtlMap() const [member function] cls.add_method('GetOutputTtlMap', 'std::map< unsigned int, unsigned int >', [], is_const=True) ## ipv4-route.h (module 'internet'): uint32_t ns3::Ipv4MulticastRoute::GetParent() const [member function] cls.add_method('GetParent', 'uint32_t', [], is_const=True) ## ipv4-route.h (module 'internet'): void ns3::Ipv4MulticastRoute::SetGroup(ns3::Ipv4Address const group) [member function] cls.add_method('SetGroup', 'void', [param('ns3::Ipv4Address const', 'group')]) ## ipv4-route.h (module 'internet'): void ns3::Ipv4MulticastRoute::SetOrigin(ns3::Ipv4Address const origin) [member function] cls.add_method('SetOrigin', 'void', [param('ns3::Ipv4Address const', 'origin')]) ## ipv4-route.h (module 'internet'): void ns3::Ipv4MulticastRoute::SetOutputTtl(uint32_t oif, uint32_t ttl) [member function] cls.add_method('SetOutputTtl', 'void', [param('uint32_t', 'oif'), param('uint32_t', 'ttl')]) ## ipv4-route.h (module 'internet'): void ns3::Ipv4MulticastRoute::SetParent(uint32_t iif) [member function] cls.add_method('SetParent', 'void', [param('uint32_t', 'iif')]) ## ipv4-route.h (module 'internet'): ns3::Ipv4MulticastRoute::MAX_INTERFACES [variable] cls.add_static_attribute('MAX_INTERFACES', 'uint32_t const', is_const=True) ## ipv4-route.h (module 'internet'): ns3::Ipv4MulticastRoute::MAX_TTL [variable] cls.add_static_attribute('MAX_TTL', 'uint32_t const', is_const=True) return def register_Ns3Ipv4Route_methods(root_module, cls): cls.add_output_stream_operator() ## ipv4-route.h (module 'internet'): ns3::Ipv4Route::Ipv4Route(ns3::Ipv4Route const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv4Route const &', 'arg0')]) ## ipv4-route.h (module 'internet'): ns3::Ipv4Route::Ipv4Route() [constructor] cls.add_constructor([]) ## ipv4-route.h (module 'internet'): ns3::Ipv4Address ns3::Ipv4Route::GetDestination() const [member function] cls.add_method('GetDestination', 'ns3::Ipv4Address', [], is_const=True) ## ipv4-route.h (module 'internet'): ns3::Ipv4Address ns3::Ipv4Route::GetGateway() const [member function] cls.add_method('GetGateway', 'ns3::Ipv4Address', [], is_const=True) ## ipv4-route.h (module 'internet'): ns3::Ptr ns3::Ipv4Route::GetOutputDevice() const [member function] cls.add_method('GetOutputDevice', 'ns3::Ptr< ns3::NetDevice >', [], is_const=True) ## ipv4-route.h (module 'internet'): ns3::Ipv4Address ns3::Ipv4Route::GetSource() const [member function] cls.add_method('GetSource', 'ns3::Ipv4Address', [], is_const=True) ## ipv4-route.h (module 'internet'): void ns3::Ipv4Route::SetDestination(ns3::Ipv4Address dest) [member function] cls.add_method('SetDestination', 'void', [param('ns3::Ipv4Address', 'dest')]) ## ipv4-route.h (module 'internet'): void ns3::Ipv4Route::SetGateway(ns3::Ipv4Address gw) [member function] cls.add_method('SetGateway', 'void', [param('ns3::Ipv4Address', 'gw')]) ## ipv4-route.h (module 'internet'): void ns3::Ipv4Route::SetOutputDevice(ns3::Ptr outputDevice) [member function] cls.add_method('SetOutputDevice', 'void', [param('ns3::Ptr< ns3::NetDevice >', 'outputDevice')]) ## ipv4-route.h (module 'internet'): void ns3::Ipv4Route::SetSource(ns3::Ipv4Address src) [member function] cls.add_method('SetSource', 'void', [param('ns3::Ipv4Address', 'src')]) return def register_Ns3Ipv4RoutingProtocol_methods(root_module, cls): ## ipv4-routing-protocol.h (module 'internet'): ns3::Ipv4RoutingProtocol::Ipv4RoutingProtocol() [constructor] cls.add_constructor([]) ## ipv4-routing-protocol.h (module 'internet'): ns3::Ipv4RoutingProtocol::Ipv4RoutingProtocol(ns3::Ipv4RoutingProtocol const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv4RoutingProtocol const &', 'arg0')]) ## ipv4-routing-protocol.h (module 'internet'): static ns3::TypeId ns3::Ipv4RoutingProtocol::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## ipv4-routing-protocol.h (module 'internet'): void ns3::Ipv4RoutingProtocol::NotifyAddAddress(uint32_t interface, ns3::Ipv4InterfaceAddress address) [member function] cls.add_method('NotifyAddAddress', 'void', [param('uint32_t', 'interface'), param('ns3::Ipv4InterfaceAddress', 'address')], is_pure_virtual=True, is_virtual=True) ## ipv4-routing-protocol.h (module 'internet'): void ns3::Ipv4RoutingProtocol::NotifyInterfaceDown(uint32_t interface) [member function] cls.add_method('NotifyInterfaceDown', 'void', [param('uint32_t', 'interface')], is_pure_virtual=True, is_virtual=True) ## ipv4-routing-protocol.h (module 'internet'): void ns3::Ipv4RoutingProtocol::NotifyInterfaceUp(uint32_t interface) [member function] cls.add_method('NotifyInterfaceUp', 'void', [param('uint32_t', 'interface')], is_pure_virtual=True, is_virtual=True) ## ipv4-routing-protocol.h (module 'internet'): void ns3::Ipv4RoutingProtocol::NotifyRemoveAddress(uint32_t interface, ns3::Ipv4InterfaceAddress address) [member function] cls.add_method('NotifyRemoveAddress', 'void', [param('uint32_t', 'interface'), param('ns3::Ipv4InterfaceAddress', 'address')], is_pure_virtual=True, is_virtual=True) ## ipv4-routing-protocol.h (module 'internet'): void ns3::Ipv4RoutingProtocol::PrintRoutingTable(ns3::Ptr stream) const [member function] cls.add_method('PrintRoutingTable', 'void', [param('ns3::Ptr< ns3::OutputStreamWrapper >', 'stream')], is_pure_virtual=True, is_const=True, is_virtual=True) ## ipv4-routing-protocol.h (module 'internet'): bool ns3::Ipv4RoutingProtocol::RouteInput(ns3::Ptr p, ns3::Ipv4Header const & header, ns3::Ptr idev, ns3::Callback, ns3::Ptr, ns3::Ipv4Header const&, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> ucb, ns3::Callback,ns3::Ptr,const ns3::Ipv4Header&,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty> mcb, ns3::Callback,const ns3::Ipv4Header&,unsigned int,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty> lcb, ns3::Callback, ns3::Ipv4Header const&, ns3::Socket::SocketErrno, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> ecb) [member function] cls.add_method('RouteInput', 'bool', [param('ns3::Ptr< ns3::Packet const >', 'p'), param('ns3::Ipv4Header const &', 'header'), param('ns3::Ptr< ns3::NetDevice const >', 'idev'), param('ns3::Callback< void, ns3::Ptr< ns3::Ipv4Route >, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'ucb'), param('ns3::Callback< void, ns3::Ptr< ns3::Ipv4MulticastRoute >, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'mcb'), param('ns3::Callback< void, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, unsigned int, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'lcb'), param('ns3::Callback< void, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, ns3::Socket::SocketErrno, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'ecb')], is_pure_virtual=True, is_virtual=True) ## ipv4-routing-protocol.h (module 'internet'): ns3::Ptr ns3::Ipv4RoutingProtocol::RouteOutput(ns3::Ptr p, ns3::Ipv4Header const & header, ns3::Ptr oif, ns3::Socket::SocketErrno & sockerr) [member function] cls.add_method('RouteOutput', 'ns3::Ptr< ns3::Ipv4Route >', [param('ns3::Ptr< ns3::Packet >', 'p'), param('ns3::Ipv4Header const &', 'header'), param('ns3::Ptr< ns3::NetDevice >', 'oif'), param('ns3::Socket::SocketErrno &', 'sockerr')], is_pure_virtual=True, is_virtual=True) ## ipv4-routing-protocol.h (module 'internet'): void ns3::Ipv4RoutingProtocol::SetIpv4(ns3::Ptr ipv4) [member function] cls.add_method('SetIpv4', 'void', [param('ns3::Ptr< ns3::Ipv4 >', 'ipv4')], is_pure_virtual=True, is_virtual=True) return def register_Ns3Ipv6AddressChecker_methods(root_module, cls): ## ipv6-address.h (module 'network'): ns3::Ipv6AddressChecker::Ipv6AddressChecker() [constructor] cls.add_constructor([]) ## ipv6-address.h (module 'network'): ns3::Ipv6AddressChecker::Ipv6AddressChecker(ns3::Ipv6AddressChecker const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv6AddressChecker const &', 'arg0')]) return def register_Ns3Ipv6AddressValue_methods(root_module, cls): ## ipv6-address.h (module 'network'): ns3::Ipv6AddressValue::Ipv6AddressValue() [constructor] cls.add_constructor([]) ## ipv6-address.h (module 'network'): ns3::Ipv6AddressValue::Ipv6AddressValue(ns3::Ipv6AddressValue const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv6AddressValue const &', 'arg0')]) ## ipv6-address.h (module 'network'): ns3::Ipv6AddressValue::Ipv6AddressValue(ns3::Ipv6Address const & value) [constructor] cls.add_constructor([param('ns3::Ipv6Address const &', 'value')]) ## ipv6-address.h (module 'network'): ns3::Ptr ns3::Ipv6AddressValue::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::AttributeValue >', [], is_const=True, is_virtual=True) ## ipv6-address.h (module 'network'): bool ns3::Ipv6AddressValue::DeserializeFromString(std::string value, ns3::Ptr checker) [member function] cls.add_method('DeserializeFromString', 'bool', [param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_virtual=True) ## ipv6-address.h (module 'network'): ns3::Ipv6Address ns3::Ipv6AddressValue::Get() const [member function] cls.add_method('Get', 'ns3::Ipv6Address', [], is_const=True) ## ipv6-address.h (module 'network'): std::string ns3::Ipv6AddressValue::SerializeToString(ns3::Ptr checker) const [member function] cls.add_method('SerializeToString', 'std::string', [param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_const=True, is_virtual=True) ## ipv6-address.h (module 'network'): void ns3::Ipv6AddressValue::Set(ns3::Ipv6Address const & value) [member function] cls.add_method('Set', 'void', [param('ns3::Ipv6Address const &', 'value')]) return def register_Ns3Ipv6Interface_methods(root_module, cls): ## ipv6-interface.h (module 'internet'): ns3::Ipv6Interface::Ipv6Interface(ns3::Ipv6Interface const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv6Interface const &', 'arg0')]) ## ipv6-interface.h (module 'internet'): ns3::Ipv6Interface::Ipv6Interface() [constructor] cls.add_constructor([]) ## ipv6-interface.h (module 'internet'): bool ns3::Ipv6Interface::AddAddress(ns3::Ipv6InterfaceAddress iface) [member function] cls.add_method('AddAddress', 'bool', [param('ns3::Ipv6InterfaceAddress', 'iface')]) ## ipv6-interface.h (module 'internet'): ns3::Ipv6InterfaceAddress ns3::Ipv6Interface::GetAddress(uint32_t index) const [member function] cls.add_method('GetAddress', 'ns3::Ipv6InterfaceAddress', [param('uint32_t', 'index')], is_const=True) ## ipv6-interface.h (module 'internet'): ns3::Ipv6InterfaceAddress ns3::Ipv6Interface::GetAddressMatchingDestination(ns3::Ipv6Address dst) [member function] cls.add_method('GetAddressMatchingDestination', 'ns3::Ipv6InterfaceAddress', [param('ns3::Ipv6Address', 'dst')]) ## ipv6-interface.h (module 'internet'): uint16_t ns3::Ipv6Interface::GetBaseReachableTime() const [member function] cls.add_method('GetBaseReachableTime', 'uint16_t', [], is_const=True) ## ipv6-interface.h (module 'internet'): uint8_t ns3::Ipv6Interface::GetCurHopLimit() const [member function] cls.add_method('GetCurHopLimit', 'uint8_t', [], is_const=True) ## ipv6-interface.h (module 'internet'): ns3::Ptr ns3::Ipv6Interface::GetDevice() const [member function] cls.add_method('GetDevice', 'ns3::Ptr< ns3::NetDevice >', [], is_const=True, is_virtual=True) ## ipv6-interface.h (module 'internet'): ns3::Ipv6InterfaceAddress ns3::Ipv6Interface::GetLinkLocalAddress() const [member function] cls.add_method('GetLinkLocalAddress', 'ns3::Ipv6InterfaceAddress', [], is_const=True) ## ipv6-interface.h (module 'internet'): uint16_t ns3::Ipv6Interface::GetMetric() const [member function] cls.add_method('GetMetric', 'uint16_t', [], is_const=True) ## ipv6-interface.h (module 'internet'): uint32_t ns3::Ipv6Interface::GetNAddresses() const [member function] cls.add_method('GetNAddresses', 'uint32_t', [], is_const=True) ## ipv6-interface.h (module 'internet'): uint16_t ns3::Ipv6Interface::GetReachableTime() const [member function] cls.add_method('GetReachableTime', 'uint16_t', [], is_const=True) ## ipv6-interface.h (module 'internet'): uint16_t ns3::Ipv6Interface::GetRetransTimer() const [member function] cls.add_method('GetRetransTimer', 'uint16_t', [], is_const=True) ## ipv6-interface.h (module 'internet'): static ns3::TypeId ns3::Ipv6Interface::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## ipv6-interface.h (module 'internet'): bool ns3::Ipv6Interface::IsDown() const [member function] cls.add_method('IsDown', 'bool', [], is_const=True) ## ipv6-interface.h (module 'internet'): bool ns3::Ipv6Interface::IsForwarding() const [member function] cls.add_method('IsForwarding', 'bool', [], is_const=True) ## ipv6-interface.h (module 'internet'): bool ns3::Ipv6Interface::IsUp() const [member function] cls.add_method('IsUp', 'bool', [], is_const=True) ## ipv6-interface.h (module 'internet'): ns3::Ipv6InterfaceAddress ns3::Ipv6Interface::RemoveAddress(uint32_t index) [member function] cls.add_method('RemoveAddress', 'ns3::Ipv6InterfaceAddress', [param('uint32_t', 'index')]) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::Send(ns3::Ptr p, ns3::Ipv6Address dest) [member function] cls.add_method('Send', 'void', [param('ns3::Ptr< ns3::Packet >', 'p'), param('ns3::Ipv6Address', 'dest')]) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::SetBaseReachableTime(uint16_t baseReachableTime) [member function] cls.add_method('SetBaseReachableTime', 'void', [param('uint16_t', 'baseReachableTime')]) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::SetCurHopLimit(uint8_t curHopLimit) [member function] cls.add_method('SetCurHopLimit', 'void', [param('uint8_t', 'curHopLimit')]) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::SetDevice(ns3::Ptr device) [member function] cls.add_method('SetDevice', 'void', [param('ns3::Ptr< ns3::NetDevice >', 'device')]) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::SetDown() [member function] cls.add_method('SetDown', 'void', []) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::SetForwarding(bool forward) [member function] cls.add_method('SetForwarding', 'void', [param('bool', 'forward')]) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::SetMetric(uint16_t metric) [member function] cls.add_method('SetMetric', 'void', [param('uint16_t', 'metric')]) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::SetNode(ns3::Ptr node) [member function] cls.add_method('SetNode', 'void', [param('ns3::Ptr< ns3::Node >', 'node')]) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::SetNsDadUid(ns3::Ipv6Address address, uint32_t uid) [member function] cls.add_method('SetNsDadUid', 'void', [param('ns3::Ipv6Address', 'address'), param('uint32_t', 'uid')]) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::SetReachableTime(uint16_t reachableTime) [member function] cls.add_method('SetReachableTime', 'void', [param('uint16_t', 'reachableTime')]) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::SetRetransTimer(uint16_t retransTimer) [member function] cls.add_method('SetRetransTimer', 'void', [param('uint16_t', 'retransTimer')]) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::SetState(ns3::Ipv6Address address, ns3::Ipv6InterfaceAddress::State_e state) [member function] cls.add_method('SetState', 'void', [param('ns3::Ipv6Address', 'address'), param('ns3::Ipv6InterfaceAddress::State_e', 'state')]) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::SetUp() [member function] cls.add_method('SetUp', 'void', []) ## ipv6-interface.h (module 'internet'): void ns3::Ipv6Interface::DoDispose() [member function] cls.add_method('DoDispose', 'void', [], visibility='protected', is_virtual=True) return def register_Ns3Ipv6PrefixChecker_methods(root_module, cls): ## ipv6-address.h (module 'network'): ns3::Ipv6PrefixChecker::Ipv6PrefixChecker() [constructor] cls.add_constructor([]) ## ipv6-address.h (module 'network'): ns3::Ipv6PrefixChecker::Ipv6PrefixChecker(ns3::Ipv6PrefixChecker const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv6PrefixChecker const &', 'arg0')]) return def register_Ns3Ipv6PrefixValue_methods(root_module, cls): ## ipv6-address.h (module 'network'): ns3::Ipv6PrefixValue::Ipv6PrefixValue() [constructor] cls.add_constructor([]) ## ipv6-address.h (module 'network'): ns3::Ipv6PrefixValue::Ipv6PrefixValue(ns3::Ipv6PrefixValue const & arg0) [copy constructor] cls.add_constructor([param('ns3::Ipv6PrefixValue const &', 'arg0')]) ## ipv6-address.h (module 'network'): ns3::Ipv6PrefixValue::Ipv6PrefixValue(ns3::Ipv6Prefix const & value) [constructor] cls.add_constructor([param('ns3::Ipv6Prefix const &', 'value')]) ## ipv6-address.h (module 'network'): ns3::Ptr ns3::Ipv6PrefixValue::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::AttributeValue >', [], is_const=True, is_virtual=True) ## ipv6-address.h (module 'network'): bool ns3::Ipv6PrefixValue::DeserializeFromString(std::string value, ns3::Ptr checker) [member function] cls.add_method('DeserializeFromString', 'bool', [param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_virtual=True) ## ipv6-address.h (module 'network'): ns3::Ipv6Prefix ns3::Ipv6PrefixValue::Get() const [member function] cls.add_method('Get', 'ns3::Ipv6Prefix', [], is_const=True) ## ipv6-address.h (module 'network'): std::string ns3::Ipv6PrefixValue::SerializeToString(ns3::Ptr checker) const [member function] cls.add_method('SerializeToString', 'std::string', [param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_const=True, is_virtual=True) ## ipv6-address.h (module 'network'): void ns3::Ipv6PrefixValue::Set(ns3::Ipv6Prefix const & value) [member function] cls.add_method('Set', 'void', [param('ns3::Ipv6Prefix const &', 'value')]) return def register_Ns3LogNormalRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::LogNormalRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::LogNormalRandomVariable::LogNormalRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): double ns3::LogNormalRandomVariable::GetMu() const [member function] cls.add_method('GetMu', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::LogNormalRandomVariable::GetSigma() const [member function] cls.add_method('GetSigma', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::LogNormalRandomVariable::GetValue(double mu, double sigma) [member function] cls.add_method('GetValue', 'double', [param('double', 'mu'), param('double', 'sigma')]) ## random-variable-stream.h (module 'core'): uint32_t ns3::LogNormalRandomVariable::GetInteger(uint32_t mu, uint32_t sigma) [member function] cls.add_method('GetInteger', 'uint32_t', [param('uint32_t', 'mu'), param('uint32_t', 'sigma')]) ## random-variable-stream.h (module 'core'): double ns3::LogNormalRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::LogNormalRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3Mac48AddressChecker_methods(root_module, cls): ## mac48-address.h (module 'network'): ns3::Mac48AddressChecker::Mac48AddressChecker() [constructor] cls.add_constructor([]) ## mac48-address.h (module 'network'): ns3::Mac48AddressChecker::Mac48AddressChecker(ns3::Mac48AddressChecker const & arg0) [copy constructor] cls.add_constructor([param('ns3::Mac48AddressChecker const &', 'arg0')]) return def register_Ns3Mac48AddressValue_methods(root_module, cls): ## mac48-address.h (module 'network'): ns3::Mac48AddressValue::Mac48AddressValue() [constructor] cls.add_constructor([]) ## mac48-address.h (module 'network'): ns3::Mac48AddressValue::Mac48AddressValue(ns3::Mac48AddressValue const & arg0) [copy constructor] cls.add_constructor([param('ns3::Mac48AddressValue const &', 'arg0')]) ## mac48-address.h (module 'network'): ns3::Mac48AddressValue::Mac48AddressValue(ns3::Mac48Address const & value) [constructor] cls.add_constructor([param('ns3::Mac48Address const &', 'value')]) ## mac48-address.h (module 'network'): ns3::Ptr ns3::Mac48AddressValue::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::AttributeValue >', [], is_const=True, is_virtual=True) ## mac48-address.h (module 'network'): bool ns3::Mac48AddressValue::DeserializeFromString(std::string value, ns3::Ptr checker) [member function] cls.add_method('DeserializeFromString', 'bool', [param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_virtual=True) ## mac48-address.h (module 'network'): ns3::Mac48Address ns3::Mac48AddressValue::Get() const [member function] cls.add_method('Get', 'ns3::Mac48Address', [], is_const=True) ## mac48-address.h (module 'network'): std::string ns3::Mac48AddressValue::SerializeToString(ns3::Ptr checker) const [member function] cls.add_method('SerializeToString', 'std::string', [param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_const=True, is_virtual=True) ## mac48-address.h (module 'network'): void ns3::Mac48AddressValue::Set(ns3::Mac48Address const & value) [member function] cls.add_method('Set', 'void', [param('ns3::Mac48Address const &', 'value')]) return def register_Ns3NetDevice_methods(root_module, cls): ## net-device.h (module 'network'): ns3::NetDevice::NetDevice() [constructor] cls.add_constructor([]) ## net-device.h (module 'network'): ns3::NetDevice::NetDevice(ns3::NetDevice const & arg0) [copy constructor] cls.add_constructor([param('ns3::NetDevice const &', 'arg0')]) ## net-device.h (module 'network'): void ns3::NetDevice::AddLinkChangeCallback(ns3::Callback callback) [member function] cls.add_method('AddLinkChangeCallback', 'void', [param('ns3::Callback< void, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'callback')], is_pure_virtual=True, is_virtual=True) ## net-device.h (module 'network'): ns3::Address ns3::NetDevice::GetAddress() const [member function] cls.add_method('GetAddress', 'ns3::Address', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): ns3::Address ns3::NetDevice::GetBroadcast() const [member function] cls.add_method('GetBroadcast', 'ns3::Address', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): ns3::Ptr ns3::NetDevice::GetChannel() const [member function] cls.add_method('GetChannel', 'ns3::Ptr< ns3::Channel >', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): uint32_t ns3::NetDevice::GetIfIndex() const [member function] cls.add_method('GetIfIndex', 'uint32_t', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): uint16_t ns3::NetDevice::GetMtu() const [member function] cls.add_method('GetMtu', 'uint16_t', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): ns3::Address ns3::NetDevice::GetMulticast(ns3::Ipv4Address multicastGroup) const [member function] cls.add_method('GetMulticast', 'ns3::Address', [param('ns3::Ipv4Address', 'multicastGroup')], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): ns3::Address ns3::NetDevice::GetMulticast(ns3::Ipv6Address addr) const [member function] cls.add_method('GetMulticast', 'ns3::Address', [param('ns3::Ipv6Address', 'addr')], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): ns3::Ptr ns3::NetDevice::GetNode() const [member function] cls.add_method('GetNode', 'ns3::Ptr< ns3::Node >', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): static ns3::TypeId ns3::NetDevice::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## net-device.h (module 'network'): bool ns3::NetDevice::IsBridge() const [member function] cls.add_method('IsBridge', 'bool', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): bool ns3::NetDevice::IsBroadcast() const [member function] cls.add_method('IsBroadcast', 'bool', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): bool ns3::NetDevice::IsLinkUp() const [member function] cls.add_method('IsLinkUp', 'bool', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): bool ns3::NetDevice::IsMulticast() const [member function] cls.add_method('IsMulticast', 'bool', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): bool ns3::NetDevice::IsPointToPoint() const [member function] cls.add_method('IsPointToPoint', 'bool', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): bool ns3::NetDevice::NeedsArp() const [member function] cls.add_method('NeedsArp', 'bool', [], is_pure_virtual=True, is_const=True, is_virtual=True) ## net-device.h (module 'network'): bool ns3::NetDevice::Send(ns3::Ptr 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_pure_virtual=True, is_virtual=True) ## net-device.h (module 'network'): bool ns3::NetDevice::SendFrom(ns3::Ptr 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_pure_virtual=True, is_virtual=True) ## net-device.h (module 'network'): void ns3::NetDevice::SetAddress(ns3::Address address) [member function] cls.add_method('SetAddress', 'void', [param('ns3::Address', 'address')], is_pure_virtual=True, is_virtual=True) ## net-device.h (module 'network'): void ns3::NetDevice::SetIfIndex(uint32_t const index) [member function] cls.add_method('SetIfIndex', 'void', [param('uint32_t const', 'index')], is_pure_virtual=True, is_virtual=True) ## net-device.h (module 'network'): bool ns3::NetDevice::SetMtu(uint16_t const mtu) [member function] cls.add_method('SetMtu', 'bool', [param('uint16_t const', 'mtu')], is_pure_virtual=True, is_virtual=True) ## net-device.h (module 'network'): void ns3::NetDevice::SetNode(ns3::Ptr node) [member function] cls.add_method('SetNode', 'void', [param('ns3::Ptr< ns3::Node >', 'node')], is_pure_virtual=True, is_virtual=True) ## net-device.h (module 'network'): void ns3::NetDevice::SetPromiscReceiveCallback(ns3::Callback,ns3::Ptr,short unsigned int,const ns3::Address&,const ns3::Address&,ns3::NetDevice::PacketType,ns3::empty,ns3::empty,ns3::empty> cb) [member function] cls.add_method('SetPromiscReceiveCallback', 'void', [param('ns3::Callback< bool, ns3::Ptr< ns3::NetDevice >, ns3::Ptr< ns3::Packet const >, short unsigned int, ns3::Address const &, ns3::Address const &, ns3::NetDevice::PacketType, ns3::empty, ns3::empty, ns3::empty >', 'cb')], is_pure_virtual=True, is_virtual=True) ## net-device.h (module 'network'): void ns3::NetDevice::SetReceiveCallback(ns3::Callback,ns3::Ptr,short unsigned int,const ns3::Address&,ns3::empty,ns3::empty,ns3::empty,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 >, short unsigned int, ns3::Address const &, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'cb')], is_pure_virtual=True, is_virtual=True) ## net-device.h (module 'network'): bool ns3::NetDevice::SupportsSendFrom() const [member function] cls.add_method('SupportsSendFrom', 'bool', [], is_pure_virtual=True, is_const=True, is_virtual=True) return def register_Ns3NixVector_methods(root_module, cls): cls.add_output_stream_operator() ## nix-vector.h (module 'network'): ns3::NixVector::NixVector() [constructor] cls.add_constructor([]) ## nix-vector.h (module 'network'): ns3::NixVector::NixVector(ns3::NixVector const & o) [copy constructor] cls.add_constructor([param('ns3::NixVector const &', 'o')]) ## nix-vector.h (module 'network'): void ns3::NixVector::AddNeighborIndex(uint32_t newBits, uint32_t numberOfBits) [member function] cls.add_method('AddNeighborIndex', 'void', [param('uint32_t', 'newBits'), param('uint32_t', 'numberOfBits')]) ## nix-vector.h (module 'network'): uint32_t ns3::NixVector::BitCount(uint32_t numberOfNeighbors) const [member function] cls.add_method('BitCount', 'uint32_t', [param('uint32_t', 'numberOfNeighbors')], is_const=True) ## nix-vector.h (module 'network'): ns3::Ptr ns3::NixVector::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::NixVector >', [], is_const=True) ## nix-vector.h (module 'network'): uint32_t ns3::NixVector::Deserialize(uint32_t const * buffer, uint32_t size) [member function] cls.add_method('Deserialize', 'uint32_t', [param('uint32_t const *', 'buffer'), param('uint32_t', 'size')]) ## nix-vector.h (module 'network'): uint32_t ns3::NixVector::ExtractNeighborIndex(uint32_t numberOfBits) [member function] cls.add_method('ExtractNeighborIndex', 'uint32_t', [param('uint32_t', 'numberOfBits')]) ## nix-vector.h (module 'network'): uint32_t ns3::NixVector::GetRemainingBits() [member function] cls.add_method('GetRemainingBits', 'uint32_t', []) ## nix-vector.h (module 'network'): uint32_t ns3::NixVector::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True) ## nix-vector.h (module 'network'): uint32_t ns3::NixVector::Serialize(uint32_t * buffer, uint32_t maxSize) const [member function] cls.add_method('Serialize', 'uint32_t', [param('uint32_t *', 'buffer'), param('uint32_t', 'maxSize')], is_const=True) return def register_Ns3Node_methods(root_module, cls): ## node.h (module 'network'): ns3::Node::Node(ns3::Node const & arg0) [copy constructor] cls.add_constructor([param('ns3::Node const &', 'arg0')]) ## node.h (module 'network'): ns3::Node::Node() [constructor] cls.add_constructor([]) ## node.h (module 'network'): ns3::Node::Node(uint32_t systemId) [constructor] cls.add_constructor([param('uint32_t', 'systemId')]) ## node.h (module 'network'): uint32_t ns3::Node::AddApplication(ns3::Ptr application) [member function] cls.add_method('AddApplication', 'uint32_t', [param('ns3::Ptr< ns3::Application >', 'application')]) ## node.h (module 'network'): uint32_t ns3::Node::AddDevice(ns3::Ptr device) [member function] cls.add_method('AddDevice', 'uint32_t', [param('ns3::Ptr< ns3::NetDevice >', 'device')]) ## node.h (module 'network'): static bool ns3::Node::ChecksumEnabled() [member function] cls.add_method('ChecksumEnabled', 'bool', [], is_static=True) ## node.h (module 'network'): ns3::Ptr ns3::Node::GetApplication(uint32_t index) const [member function] cls.add_method('GetApplication', 'ns3::Ptr< ns3::Application >', [param('uint32_t', 'index')], is_const=True) ## node.h (module 'network'): ns3::Ptr ns3::Node::GetDevice(uint32_t index) const [member function] cls.add_method('GetDevice', 'ns3::Ptr< ns3::NetDevice >', [param('uint32_t', 'index')], is_const=True) ## node.h (module 'network'): uint32_t ns3::Node::GetId() const [member function] cls.add_method('GetId', 'uint32_t', [], is_const=True) ## node.h (module 'network'): uint32_t ns3::Node::GetNApplications() const [member function] cls.add_method('GetNApplications', 'uint32_t', [], is_const=True) ## node.h (module 'network'): uint32_t ns3::Node::GetNDevices() const [member function] cls.add_method('GetNDevices', 'uint32_t', [], is_const=True) ## node.h (module 'network'): uint32_t ns3::Node::GetSystemId() const [member function] cls.add_method('GetSystemId', 'uint32_t', [], is_const=True) ## node.h (module 'network'): static ns3::TypeId ns3::Node::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## node.h (module 'network'): void ns3::Node::RegisterDeviceAdditionListener(ns3::Callback,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty> listener) [member function] cls.add_method('RegisterDeviceAdditionListener', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::NetDevice >, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'listener')]) ## node.h (module 'network'): void ns3::Node::RegisterProtocolHandler(ns3::Callback, ns3::Ptr, unsigned short, ns3::Address const&, ns3::Address const&, ns3::NetDevice::PacketType, ns3::empty, ns3::empty, ns3::empty> handler, uint16_t protocolType, ns3::Ptr device, bool promiscuous=false) [member function] cls.add_method('RegisterProtocolHandler', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::NetDevice >, ns3::Ptr< ns3::Packet const >, unsigned short, ns3::Address const &, ns3::Address const &, ns3::NetDevice::PacketType, ns3::empty, ns3::empty, ns3::empty >', 'handler'), param('uint16_t', 'protocolType'), param('ns3::Ptr< ns3::NetDevice >', 'device'), param('bool', 'promiscuous', default_value='false')]) ## node.h (module 'network'): void ns3::Node::UnregisterDeviceAdditionListener(ns3::Callback,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty> listener) [member function] cls.add_method('UnregisterDeviceAdditionListener', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::NetDevice >, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'listener')]) ## node.h (module 'network'): void ns3::Node::UnregisterProtocolHandler(ns3::Callback, ns3::Ptr, unsigned short, ns3::Address const&, ns3::Address const&, ns3::NetDevice::PacketType, ns3::empty, ns3::empty, ns3::empty> handler) [member function] cls.add_method('UnregisterProtocolHandler', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::NetDevice >, ns3::Ptr< ns3::Packet const >, unsigned short, ns3::Address const &, ns3::Address const &, ns3::NetDevice::PacketType, ns3::empty, ns3::empty, ns3::empty >', 'handler')]) ## node.h (module 'network'): void ns3::Node::DoDispose() [member function] cls.add_method('DoDispose', 'void', [], visibility='protected', is_virtual=True) ## node.h (module 'network'): void ns3::Node::DoInitialize() [member function] cls.add_method('DoInitialize', 'void', [], visibility='protected', is_virtual=True) return def register_Ns3NormalRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): ns3::NormalRandomVariable::INFINITE_VALUE [variable] cls.add_static_attribute('INFINITE_VALUE', 'double const', is_const=True) ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::NormalRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::NormalRandomVariable::NormalRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): double ns3::NormalRandomVariable::GetMean() const [member function] cls.add_method('GetMean', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::NormalRandomVariable::GetVariance() const [member function] cls.add_method('GetVariance', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::NormalRandomVariable::GetBound() const [member function] cls.add_method('GetBound', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::NormalRandomVariable::GetValue(double mean, double variance, double bound=ns3::NormalRandomVariable::INFINITE_VALUE) [member function] cls.add_method('GetValue', 'double', [param('double', 'mean'), param('double', 'variance'), param('double', 'bound', default_value='ns3::NormalRandomVariable::INFINITE_VALUE')]) ## random-variable-stream.h (module 'core'): uint32_t ns3::NormalRandomVariable::GetInteger(uint32_t mean, uint32_t variance, uint32_t bound) [member function] cls.add_method('GetInteger', 'uint32_t', [param('uint32_t', 'mean'), param('uint32_t', 'variance'), param('uint32_t', 'bound')]) ## random-variable-stream.h (module 'core'): double ns3::NormalRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::NormalRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3ObjectFactoryChecker_methods(root_module, cls): ## object-factory.h (module 'core'): ns3::ObjectFactoryChecker::ObjectFactoryChecker() [constructor] cls.add_constructor([]) ## object-factory.h (module 'core'): ns3::ObjectFactoryChecker::ObjectFactoryChecker(ns3::ObjectFactoryChecker const & arg0) [copy constructor] cls.add_constructor([param('ns3::ObjectFactoryChecker const &', 'arg0')]) return def register_Ns3ObjectFactoryValue_methods(root_module, cls): ## object-factory.h (module 'core'): ns3::ObjectFactoryValue::ObjectFactoryValue() [constructor] cls.add_constructor([]) ## object-factory.h (module 'core'): ns3::ObjectFactoryValue::ObjectFactoryValue(ns3::ObjectFactoryValue const & arg0) [copy constructor] cls.add_constructor([param('ns3::ObjectFactoryValue const &', 'arg0')]) ## object-factory.h (module 'core'): ns3::ObjectFactoryValue::ObjectFactoryValue(ns3::ObjectFactory const & value) [constructor] cls.add_constructor([param('ns3::ObjectFactory const &', 'value')]) ## object-factory.h (module 'core'): ns3::Ptr ns3::ObjectFactoryValue::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::AttributeValue >', [], is_const=True, is_virtual=True) ## object-factory.h (module 'core'): bool ns3::ObjectFactoryValue::DeserializeFromString(std::string value, ns3::Ptr checker) [member function] cls.add_method('DeserializeFromString', 'bool', [param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_virtual=True) ## object-factory.h (module 'core'): ns3::ObjectFactory ns3::ObjectFactoryValue::Get() const [member function] cls.add_method('Get', 'ns3::ObjectFactory', [], is_const=True) ## object-factory.h (module 'core'): std::string ns3::ObjectFactoryValue::SerializeToString(ns3::Ptr checker) const [member function] cls.add_method('SerializeToString', 'std::string', [param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_const=True, is_virtual=True) ## object-factory.h (module 'core'): void ns3::ObjectFactoryValue::Set(ns3::ObjectFactory const & value) [member function] cls.add_method('Set', 'void', [param('ns3::ObjectFactory const &', 'value')]) return def register_Ns3OutputStreamWrapper_methods(root_module, cls): ## output-stream-wrapper.h (module 'network'): ns3::OutputStreamWrapper::OutputStreamWrapper(ns3::OutputStreamWrapper const & arg0) [copy constructor] cls.add_constructor([param('ns3::OutputStreamWrapper const &', 'arg0')]) ## output-stream-wrapper.h (module 'network'): ns3::OutputStreamWrapper::OutputStreamWrapper(std::string filename, std::_Ios_Openmode filemode) [constructor] cls.add_constructor([param('std::string', 'filename'), param('std::_Ios_Openmode', 'filemode')]) ## output-stream-wrapper.h (module 'network'): ns3::OutputStreamWrapper::OutputStreamWrapper(std::ostream * os) [constructor] cls.add_constructor([param('std::ostream *', 'os')]) ## output-stream-wrapper.h (module 'network'): std::ostream * ns3::OutputStreamWrapper::GetStream() [member function] cls.add_method('GetStream', 'std::ostream *', []) return def register_Ns3Packet_methods(root_module, cls): cls.add_output_stream_operator() ## packet.h (module 'network'): ns3::Packet::Packet() [constructor] cls.add_constructor([]) ## packet.h (module 'network'): ns3::Packet::Packet(ns3::Packet const & o) [copy constructor] cls.add_constructor([param('ns3::Packet const &', 'o')]) ## packet.h (module 'network'): ns3::Packet::Packet(uint32_t size) [constructor] cls.add_constructor([param('uint32_t', 'size')]) ## packet.h (module 'network'): ns3::Packet::Packet(uint8_t const * buffer, uint32_t size, bool magic) [constructor] cls.add_constructor([param('uint8_t const *', 'buffer'), param('uint32_t', 'size'), param('bool', 'magic')]) ## packet.h (module 'network'): ns3::Packet::Packet(uint8_t const * buffer, uint32_t size) [constructor] cls.add_constructor([param('uint8_t const *', 'buffer'), param('uint32_t', 'size')]) ## packet.h (module 'network'): void ns3::Packet::AddAtEnd(ns3::Ptr packet) [member function] cls.add_method('AddAtEnd', 'void', [param('ns3::Ptr< ns3::Packet const >', 'packet')]) ## packet.h (module 'network'): void ns3::Packet::AddByteTag(ns3::Tag const & tag) const [member function] cls.add_method('AddByteTag', 'void', [param('ns3::Tag const &', 'tag')], is_const=True) ## packet.h (module 'network'): void ns3::Packet::AddHeader(ns3::Header const & header) [member function] cls.add_method('AddHeader', 'void', [param('ns3::Header const &', 'header')]) ## packet.h (module 'network'): void ns3::Packet::AddPacketTag(ns3::Tag const & tag) const [member function] cls.add_method('AddPacketTag', 'void', [param('ns3::Tag const &', 'tag')], is_const=True) ## packet.h (module 'network'): void ns3::Packet::AddPaddingAtEnd(uint32_t size) [member function] cls.add_method('AddPaddingAtEnd', 'void', [param('uint32_t', 'size')]) ## packet.h (module 'network'): void ns3::Packet::AddTrailer(ns3::Trailer const & trailer) [member function] cls.add_method('AddTrailer', 'void', [param('ns3::Trailer const &', 'trailer')]) ## packet.h (module 'network'): ns3::PacketMetadata::ItemIterator ns3::Packet::BeginItem() const [member function] cls.add_method('BeginItem', 'ns3::PacketMetadata::ItemIterator', [], is_const=True) ## packet.h (module 'network'): ns3::Ptr ns3::Packet::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::Packet >', [], is_const=True) ## packet.h (module 'network'): uint32_t ns3::Packet::CopyData(uint8_t * buffer, uint32_t size) const [member function] cls.add_method('CopyData', 'uint32_t', [param('uint8_t *', 'buffer'), param('uint32_t', 'size')], is_const=True) ## packet.h (module 'network'): void ns3::Packet::CopyData(std::ostream * os, uint32_t size) const [member function] cls.add_method('CopyData', 'void', [param('std::ostream *', 'os'), param('uint32_t', 'size')], is_const=True) ## packet.h (module 'network'): ns3::Ptr ns3::Packet::CreateFragment(uint32_t start, uint32_t length) const [member function] cls.add_method('CreateFragment', 'ns3::Ptr< ns3::Packet >', [param('uint32_t', 'start'), param('uint32_t', 'length')], is_const=True) ## packet.h (module 'network'): static void ns3::Packet::EnableChecking() [member function] cls.add_method('EnableChecking', 'void', [], is_static=True) ## packet.h (module 'network'): static void ns3::Packet::EnablePrinting() [member function] cls.add_method('EnablePrinting', 'void', [], is_static=True) ## packet.h (module 'network'): bool ns3::Packet::FindFirstMatchingByteTag(ns3::Tag & tag) const [member function] cls.add_method('FindFirstMatchingByteTag', 'bool', [param('ns3::Tag &', 'tag')], is_const=True) ## packet.h (module 'network'): ns3::ByteTagIterator ns3::Packet::GetByteTagIterator() const [member function] cls.add_method('GetByteTagIterator', 'ns3::ByteTagIterator', [], is_const=True) ## packet.h (module 'network'): ns3::Ptr ns3::Packet::GetNixVector() const [member function] cls.add_method('GetNixVector', 'ns3::Ptr< ns3::NixVector >', [], is_const=True) ## packet.h (module 'network'): ns3::PacketTagIterator ns3::Packet::GetPacketTagIterator() const [member function] cls.add_method('GetPacketTagIterator', 'ns3::PacketTagIterator', [], is_const=True) ## packet.h (module 'network'): uint32_t ns3::Packet::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True) ## packet.h (module 'network'): uint32_t ns3::Packet::GetSize() const [member function] cls.add_method('GetSize', 'uint32_t', [], is_const=True) ## packet.h (module 'network'): uint64_t ns3::Packet::GetUid() const [member function] cls.add_method('GetUid', 'uint64_t', [], is_const=True) ## packet.h (module 'network'): uint8_t const * ns3::Packet::PeekData() const [member function] cls.add_method('PeekData', 'uint8_t const *', [], deprecated=True, is_const=True) ## packet.h (module 'network'): uint32_t ns3::Packet::PeekHeader(ns3::Header & header) const [member function] cls.add_method('PeekHeader', 'uint32_t', [param('ns3::Header &', 'header')], is_const=True) ## packet.h (module 'network'): bool ns3::Packet::PeekPacketTag(ns3::Tag & tag) const [member function] cls.add_method('PeekPacketTag', 'bool', [param('ns3::Tag &', 'tag')], is_const=True) ## packet.h (module 'network'): uint32_t ns3::Packet::PeekTrailer(ns3::Trailer & trailer) [member function] cls.add_method('PeekTrailer', 'uint32_t', [param('ns3::Trailer &', 'trailer')]) ## packet.h (module 'network'): void ns3::Packet::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True) ## packet.h (module 'network'): void ns3::Packet::PrintByteTags(std::ostream & os) const [member function] cls.add_method('PrintByteTags', 'void', [param('std::ostream &', 'os')], is_const=True) ## packet.h (module 'network'): void ns3::Packet::PrintPacketTags(std::ostream & os) const [member function] cls.add_method('PrintPacketTags', 'void', [param('std::ostream &', 'os')], is_const=True) ## packet.h (module 'network'): void ns3::Packet::RemoveAllByteTags() [member function] cls.add_method('RemoveAllByteTags', 'void', []) ## packet.h (module 'network'): void ns3::Packet::RemoveAllPacketTags() [member function] cls.add_method('RemoveAllPacketTags', 'void', []) ## packet.h (module 'network'): void ns3::Packet::RemoveAtEnd(uint32_t size) [member function] cls.add_method('RemoveAtEnd', 'void', [param('uint32_t', 'size')]) ## packet.h (module 'network'): void ns3::Packet::RemoveAtStart(uint32_t size) [member function] cls.add_method('RemoveAtStart', 'void', [param('uint32_t', 'size')]) ## packet.h (module 'network'): uint32_t ns3::Packet::RemoveHeader(ns3::Header & header) [member function] cls.add_method('RemoveHeader', 'uint32_t', [param('ns3::Header &', 'header')]) ## packet.h (module 'network'): bool ns3::Packet::RemovePacketTag(ns3::Tag & tag) [member function] cls.add_method('RemovePacketTag', 'bool', [param('ns3::Tag &', 'tag')]) ## packet.h (module 'network'): uint32_t ns3::Packet::RemoveTrailer(ns3::Trailer & trailer) [member function] cls.add_method('RemoveTrailer', 'uint32_t', [param('ns3::Trailer &', 'trailer')]) ## packet.h (module 'network'): uint32_t ns3::Packet::Serialize(uint8_t * buffer, uint32_t maxSize) const [member function] cls.add_method('Serialize', 'uint32_t', [param('uint8_t *', 'buffer'), param('uint32_t', 'maxSize')], is_const=True) ## packet.h (module 'network'): void ns3::Packet::SetNixVector(ns3::Ptr arg0) [member function] cls.add_method('SetNixVector', 'void', [param('ns3::Ptr< ns3::NixVector >', 'arg0')]) return def register_Ns3ParetoRandomVariable_methods(root_module, cls): ## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::ParetoRandomVariable::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## random-variable-stream.h (module 'core'): ns3::ParetoRandomVariable::ParetoRandomVariable() [constructor] cls.add_constructor([]) ## random-variable-stream.h (module 'core'): double ns3::ParetoRandomVariable::GetMean() const [member function] cls.add_method('GetMean', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::ParetoRandomVariable::GetShape() const [member function] cls.add_method('GetShape', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::ParetoRandomVariable::GetBound() const [member function] cls.add_method('GetBound', 'double', [], is_const=True) ## random-variable-stream.h (module 'core'): double ns3::ParetoRandomVariable::GetValue(double mean, double shape, double bound) [member function] cls.add_method('GetValue', 'double', [param('double', 'mean'), param('double', 'shape'), param('double', 'bound')]) ## random-variable-stream.h (module 'core'): uint32_t ns3::ParetoRandomVariable::GetInteger(uint32_t mean, uint32_t shape, uint32_t bound) [member function] cls.add_method('GetInteger', 'uint32_t', [param('uint32_t', 'mean'), param('uint32_t', 'shape'), param('uint32_t', 'bound')]) ## random-variable-stream.h (module 'core'): double ns3::ParetoRandomVariable::GetValue() [member function] cls.add_method('GetValue', 'double', [], is_virtual=True) ## random-variable-stream.h (module 'core'): uint32_t ns3::ParetoRandomVariable::GetInteger() [member function] cls.add_method('GetInteger', 'uint32_t', [], is_virtual=True) return def register_Ns3TimeChecker_methods(root_module, cls): ## nstime.h (module 'core'): ns3::TimeChecker::TimeChecker() [constructor] cls.add_constructor([]) ## nstime.h (module 'core'): ns3::TimeChecker::TimeChecker(ns3::TimeChecker const & arg0) [copy constructor] cls.add_constructor([param('ns3::TimeChecker const &', 'arg0')]) return def register_Ns3TimeValue_methods(root_module, cls): ## nstime.h (module 'core'): ns3::TimeValue::TimeValue() [constructor] cls.add_constructor([]) ## nstime.h (module 'core'): ns3::TimeValue::TimeValue(ns3::TimeValue const & arg0) [copy constructor] cls.add_constructor([param('ns3::TimeValue const &', 'arg0')]) ## nstime.h (module 'core'): ns3::TimeValue::TimeValue(ns3::Time const & value) [constructor] cls.add_constructor([param('ns3::Time const &', 'value')]) ## nstime.h (module 'core'): ns3::Ptr ns3::TimeValue::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::AttributeValue >', [], is_const=True, is_virtual=True) ## nstime.h (module 'core'): bool ns3::TimeValue::DeserializeFromString(std::string value, ns3::Ptr checker) [member function] cls.add_method('DeserializeFromString', 'bool', [param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_virtual=True) ## nstime.h (module 'core'): ns3::Time ns3::TimeValue::Get() const [member function] cls.add_method('Get', 'ns3::Time', [], is_const=True) ## nstime.h (module 'core'): std::string ns3::TimeValue::SerializeToString(ns3::Ptr 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 (module 'core'): void ns3::TimeValue::Set(ns3::Time const & value) [member function] cls.add_method('Set', 'void', [param('ns3::Time const &', 'value')]) return def register_Ns3TypeIdChecker_methods(root_module, cls): ## type-id.h (module 'core'): ns3::TypeIdChecker::TypeIdChecker() [constructor] cls.add_constructor([]) ## type-id.h (module 'core'): ns3::TypeIdChecker::TypeIdChecker(ns3::TypeIdChecker const & arg0) [copy constructor] cls.add_constructor([param('ns3::TypeIdChecker const &', 'arg0')]) return def register_Ns3TypeIdValue_methods(root_module, cls): ## type-id.h (module 'core'): ns3::TypeIdValue::TypeIdValue() [constructor] cls.add_constructor([]) ## type-id.h (module 'core'): ns3::TypeIdValue::TypeIdValue(ns3::TypeIdValue const & arg0) [copy constructor] cls.add_constructor([param('ns3::TypeIdValue const &', 'arg0')]) ## type-id.h (module 'core'): ns3::TypeIdValue::TypeIdValue(ns3::TypeId const & value) [constructor] cls.add_constructor([param('ns3::TypeId const &', 'value')]) ## type-id.h (module 'core'): ns3::Ptr ns3::TypeIdValue::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::AttributeValue >', [], is_const=True, is_virtual=True) ## type-id.h (module 'core'): bool ns3::TypeIdValue::DeserializeFromString(std::string value, ns3::Ptr checker) [member function] cls.add_method('DeserializeFromString', 'bool', [param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_virtual=True) ## type-id.h (module 'core'): ns3::TypeId ns3::TypeIdValue::Get() const [member function] cls.add_method('Get', 'ns3::TypeId', [], is_const=True) ## type-id.h (module 'core'): std::string ns3::TypeIdValue::SerializeToString(ns3::Ptr checker) const [member function] cls.add_method('SerializeToString', 'std::string', [param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_const=True, is_virtual=True) ## type-id.h (module 'core'): void ns3::TypeIdValue::Set(ns3::TypeId const & value) [member function] cls.add_method('Set', 'void', [param('ns3::TypeId const &', 'value')]) return def register_Ns3AddressChecker_methods(root_module, cls): ## address.h (module 'network'): ns3::AddressChecker::AddressChecker() [constructor] cls.add_constructor([]) ## address.h (module 'network'): ns3::AddressChecker::AddressChecker(ns3::AddressChecker const & arg0) [copy constructor] cls.add_constructor([param('ns3::AddressChecker const &', 'arg0')]) return def register_Ns3AddressValue_methods(root_module, cls): ## address.h (module 'network'): ns3::AddressValue::AddressValue() [constructor] cls.add_constructor([]) ## address.h (module 'network'): ns3::AddressValue::AddressValue(ns3::AddressValue const & arg0) [copy constructor] cls.add_constructor([param('ns3::AddressValue const &', 'arg0')]) ## address.h (module 'network'): ns3::AddressValue::AddressValue(ns3::Address const & value) [constructor] cls.add_constructor([param('ns3::Address const &', 'value')]) ## address.h (module 'network'): ns3::Ptr ns3::AddressValue::Copy() const [member function] cls.add_method('Copy', 'ns3::Ptr< ns3::AttributeValue >', [], is_const=True, is_virtual=True) ## address.h (module 'network'): bool ns3::AddressValue::DeserializeFromString(std::string value, ns3::Ptr checker) [member function] cls.add_method('DeserializeFromString', 'bool', [param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_virtual=True) ## address.h (module 'network'): ns3::Address ns3::AddressValue::Get() const [member function] cls.add_method('Get', 'ns3::Address', [], is_const=True) ## address.h (module 'network'): std::string ns3::AddressValue::SerializeToString(ns3::Ptr checker) const [member function] cls.add_method('SerializeToString', 'std::string', [param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')], is_const=True, is_virtual=True) ## address.h (module 'network'): void ns3::AddressValue::Set(ns3::Address const & value) [member function] cls.add_method('Set', 'void', [param('ns3::Address const &', 'value')]) return def register_Ns3AodvDuplicatePacketDetection_methods(root_module, cls): ## aodv-dpd.h (module 'aodv'): ns3::aodv::DuplicatePacketDetection::DuplicatePacketDetection(ns3::aodv::DuplicatePacketDetection const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::DuplicatePacketDetection const &', 'arg0')]) ## aodv-dpd.h (module 'aodv'): ns3::aodv::DuplicatePacketDetection::DuplicatePacketDetection(ns3::Time lifetime) [constructor] cls.add_constructor([param('ns3::Time', 'lifetime')]) ## aodv-dpd.h (module 'aodv'): ns3::Time ns3::aodv::DuplicatePacketDetection::GetLifetime() const [member function] cls.add_method('GetLifetime', 'ns3::Time', [], is_const=True) ## aodv-dpd.h (module 'aodv'): bool ns3::aodv::DuplicatePacketDetection::IsDuplicate(ns3::Ptr p, ns3::Ipv4Header const & header) [member function] cls.add_method('IsDuplicate', 'bool', [param('ns3::Ptr< ns3::Packet const >', 'p'), param('ns3::Ipv4Header const &', 'header')]) ## aodv-dpd.h (module 'aodv'): void ns3::aodv::DuplicatePacketDetection::SetLifetime(ns3::Time lifetime) [member function] cls.add_method('SetLifetime', 'void', [param('ns3::Time', 'lifetime')]) return def register_Ns3AodvIdCache_methods(root_module, cls): ## aodv-id-cache.h (module 'aodv'): ns3::aodv::IdCache::IdCache(ns3::aodv::IdCache const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::IdCache const &', 'arg0')]) ## aodv-id-cache.h (module 'aodv'): ns3::aodv::IdCache::IdCache(ns3::Time lifetime) [constructor] cls.add_constructor([param('ns3::Time', 'lifetime')]) ## aodv-id-cache.h (module 'aodv'): ns3::Time ns3::aodv::IdCache::GetLifeTime() const [member function] cls.add_method('GetLifeTime', 'ns3::Time', [], is_const=True) ## aodv-id-cache.h (module 'aodv'): uint32_t ns3::aodv::IdCache::GetSize() [member function] cls.add_method('GetSize', 'uint32_t', []) ## aodv-id-cache.h (module 'aodv'): bool ns3::aodv::IdCache::IsDuplicate(ns3::Ipv4Address addr, uint32_t id) [member function] cls.add_method('IsDuplicate', 'bool', [param('ns3::Ipv4Address', 'addr'), param('uint32_t', 'id')]) ## aodv-id-cache.h (module 'aodv'): void ns3::aodv::IdCache::Purge() [member function] cls.add_method('Purge', 'void', []) ## aodv-id-cache.h (module 'aodv'): void ns3::aodv::IdCache::SetLifetime(ns3::Time lifetime) [member function] cls.add_method('SetLifetime', 'void', [param('ns3::Time', 'lifetime')]) return def register_Ns3AodvNeighbors_methods(root_module, cls): ## aodv-neighbor.h (module 'aodv'): ns3::aodv::Neighbors::Neighbors(ns3::aodv::Neighbors const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::Neighbors const &', 'arg0')]) ## aodv-neighbor.h (module 'aodv'): ns3::aodv::Neighbors::Neighbors(ns3::Time delay) [constructor] cls.add_constructor([param('ns3::Time', 'delay')]) ## aodv-neighbor.h (module 'aodv'): void ns3::aodv::Neighbors::AddArpCache(ns3::Ptr arg0) [member function] cls.add_method('AddArpCache', 'void', [param('ns3::Ptr< ns3::ArpCache >', 'arg0')]) ## aodv-neighbor.h (module 'aodv'): void ns3::aodv::Neighbors::Clear() [member function] cls.add_method('Clear', 'void', []) ## aodv-neighbor.h (module 'aodv'): void ns3::aodv::Neighbors::DelArpCache(ns3::Ptr arg0) [member function] cls.add_method('DelArpCache', 'void', [param('ns3::Ptr< ns3::ArpCache >', 'arg0')]) ## aodv-neighbor.h (module 'aodv'): ns3::Callback ns3::aodv::Neighbors::GetCallback() const [member function] cls.add_method('GetCallback', 'ns3::Callback< void, ns3::Ipv4Address, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', [], is_const=True) ## aodv-neighbor.h (module 'aodv'): ns3::Time ns3::aodv::Neighbors::GetExpireTime(ns3::Ipv4Address addr) [member function] cls.add_method('GetExpireTime', 'ns3::Time', [param('ns3::Ipv4Address', 'addr')]) ## aodv-neighbor.h (module 'aodv'): ns3::Callback ns3::aodv::Neighbors::GetTxErrorCallback() const [member function] cls.add_method('GetTxErrorCallback', 'ns3::Callback< void, ns3::WifiMacHeader const &, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', [], is_const=True) ## aodv-neighbor.h (module 'aodv'): bool ns3::aodv::Neighbors::IsNeighbor(ns3::Ipv4Address addr) [member function] cls.add_method('IsNeighbor', 'bool', [param('ns3::Ipv4Address', 'addr')]) ## aodv-neighbor.h (module 'aodv'): void ns3::aodv::Neighbors::Purge() [member function] cls.add_method('Purge', 'void', []) ## aodv-neighbor.h (module 'aodv'): void ns3::aodv::Neighbors::ScheduleTimer() [member function] cls.add_method('ScheduleTimer', 'void', []) ## aodv-neighbor.h (module 'aodv'): void ns3::aodv::Neighbors::SetCallback(ns3::Callback cb) [member function] cls.add_method('SetCallback', 'void', [param('ns3::Callback< void, ns3::Ipv4Address, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'cb')]) ## aodv-neighbor.h (module 'aodv'): void ns3::aodv::Neighbors::Update(ns3::Ipv4Address addr, ns3::Time expire) [member function] cls.add_method('Update', 'void', [param('ns3::Ipv4Address', 'addr'), param('ns3::Time', 'expire')]) return def register_Ns3AodvNeighborsNeighbor_methods(root_module, cls): ## aodv-neighbor.h (module 'aodv'): ns3::aodv::Neighbors::Neighbor::Neighbor(ns3::aodv::Neighbors::Neighbor const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::Neighbors::Neighbor const &', 'arg0')]) ## aodv-neighbor.h (module 'aodv'): ns3::aodv::Neighbors::Neighbor::Neighbor(ns3::Ipv4Address ip, ns3::Mac48Address mac, ns3::Time t) [constructor] cls.add_constructor([param('ns3::Ipv4Address', 'ip'), param('ns3::Mac48Address', 'mac'), param('ns3::Time', 't')]) ## aodv-neighbor.h (module 'aodv'): ns3::aodv::Neighbors::Neighbor::close [variable] cls.add_instance_attribute('close', 'bool', is_const=False) ## aodv-neighbor.h (module 'aodv'): ns3::aodv::Neighbors::Neighbor::m_expireTime [variable] cls.add_instance_attribute('m_expireTime', 'ns3::Time', is_const=False) ## aodv-neighbor.h (module 'aodv'): ns3::aodv::Neighbors::Neighbor::m_hardwareAddress [variable] cls.add_instance_attribute('m_hardwareAddress', 'ns3::Mac48Address', is_const=False) ## aodv-neighbor.h (module 'aodv'): ns3::aodv::Neighbors::Neighbor::m_neighborAddress [variable] cls.add_instance_attribute('m_neighborAddress', 'ns3::Ipv4Address', is_const=False) return def register_Ns3AodvQueueEntry_methods(root_module, cls): cls.add_binary_comparison_operator('==') ## aodv-rqueue.h (module 'aodv'): ns3::aodv::QueueEntry::QueueEntry(ns3::aodv::QueueEntry const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::QueueEntry const &', 'arg0')]) ## aodv-rqueue.h (module 'aodv'): ns3::aodv::QueueEntry::QueueEntry(ns3::Ptr pa=0, ns3::Ipv4Header const & h=ns3::Ipv4Header(), ns3::Callback, ns3::Ptr, ns3::Ipv4Header const&, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> ucb=ns3::Callback, ns3::Ptr, const ns3::Ipv4Header&, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty>(), ns3::Callback, ns3::Ipv4Header const&, ns3::Socket::SocketErrno, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> ecb=ns3::Callback, const ns3::Ipv4Header&, ns3::Socket::SocketErrno, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty>(), ns3::Time exp=ns3::Simulator::Now( )) [constructor] cls.add_constructor([param('ns3::Ptr< ns3::Packet const >', 'pa', default_value='0'), param('ns3::Ipv4Header const &', 'h', default_value='ns3::Ipv4Header()'), param('ns3::Callback< void, ns3::Ptr< ns3::Ipv4Route >, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'ucb', default_value='ns3::Callback, ns3::Ptr, const ns3::Ipv4Header&, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty>()'), param('ns3::Callback< void, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, ns3::Socket::SocketErrno, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'ecb', default_value='ns3::Callback, const ns3::Ipv4Header&, ns3::Socket::SocketErrno, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty>()'), param('ns3::Time', 'exp', default_value='ns3::Simulator::Now( )')]) ## aodv-rqueue.h (module 'aodv'): ns3::Callback, ns3::Ipv4Header const&, ns3::Socket::SocketErrno, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> ns3::aodv::QueueEntry::GetErrorCallback() const [member function] cls.add_method('GetErrorCallback', 'ns3::Callback< void, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, ns3::Socket::SocketErrno, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', [], is_const=True) ## aodv-rqueue.h (module 'aodv'): ns3::Time ns3::aodv::QueueEntry::GetExpireTime() const [member function] cls.add_method('GetExpireTime', 'ns3::Time', [], is_const=True) ## aodv-rqueue.h (module 'aodv'): ns3::Ipv4Header ns3::aodv::QueueEntry::GetIpv4Header() const [member function] cls.add_method('GetIpv4Header', 'ns3::Ipv4Header', [], is_const=True) ## aodv-rqueue.h (module 'aodv'): ns3::Ptr ns3::aodv::QueueEntry::GetPacket() const [member function] cls.add_method('GetPacket', 'ns3::Ptr< ns3::Packet const >', [], is_const=True) ## aodv-rqueue.h (module 'aodv'): ns3::Callback, ns3::Ptr, ns3::Ipv4Header const&, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> ns3::aodv::QueueEntry::GetUnicastForwardCallback() const [member function] cls.add_method('GetUnicastForwardCallback', 'ns3::Callback< void, ns3::Ptr< ns3::Ipv4Route >, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', [], is_const=True) ## aodv-rqueue.h (module 'aodv'): void ns3::aodv::QueueEntry::SetErrorCallback(ns3::Callback, ns3::Ipv4Header const&, ns3::Socket::SocketErrno, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> ecb) [member function] cls.add_method('SetErrorCallback', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, ns3::Socket::SocketErrno, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'ecb')]) ## aodv-rqueue.h (module 'aodv'): void ns3::aodv::QueueEntry::SetExpireTime(ns3::Time exp) [member function] cls.add_method('SetExpireTime', 'void', [param('ns3::Time', 'exp')]) ## aodv-rqueue.h (module 'aodv'): void ns3::aodv::QueueEntry::SetIpv4Header(ns3::Ipv4Header h) [member function] cls.add_method('SetIpv4Header', 'void', [param('ns3::Ipv4Header', 'h')]) ## aodv-rqueue.h (module 'aodv'): void ns3::aodv::QueueEntry::SetPacket(ns3::Ptr p) [member function] cls.add_method('SetPacket', 'void', [param('ns3::Ptr< ns3::Packet const >', 'p')]) ## aodv-rqueue.h (module 'aodv'): void ns3::aodv::QueueEntry::SetUnicastForwardCallback(ns3::Callback, ns3::Ptr, ns3::Ipv4Header const&, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> ucb) [member function] cls.add_method('SetUnicastForwardCallback', 'void', [param('ns3::Callback< void, ns3::Ptr< ns3::Ipv4Route >, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'ucb')]) return def register_Ns3AodvRequestQueue_methods(root_module, cls): ## aodv-rqueue.h (module 'aodv'): ns3::aodv::RequestQueue::RequestQueue(ns3::aodv::RequestQueue const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::RequestQueue const &', 'arg0')]) ## aodv-rqueue.h (module 'aodv'): ns3::aodv::RequestQueue::RequestQueue(uint32_t maxLen, ns3::Time routeToQueueTimeout) [constructor] cls.add_constructor([param('uint32_t', 'maxLen'), param('ns3::Time', 'routeToQueueTimeout')]) ## aodv-rqueue.h (module 'aodv'): bool ns3::aodv::RequestQueue::Dequeue(ns3::Ipv4Address dst, ns3::aodv::QueueEntry & entry) [member function] cls.add_method('Dequeue', 'bool', [param('ns3::Ipv4Address', 'dst'), param('ns3::aodv::QueueEntry &', 'entry')]) ## aodv-rqueue.h (module 'aodv'): void ns3::aodv::RequestQueue::DropPacketWithDst(ns3::Ipv4Address dst) [member function] cls.add_method('DropPacketWithDst', 'void', [param('ns3::Ipv4Address', 'dst')]) ## aodv-rqueue.h (module 'aodv'): bool ns3::aodv::RequestQueue::Enqueue(ns3::aodv::QueueEntry & entry) [member function] cls.add_method('Enqueue', 'bool', [param('ns3::aodv::QueueEntry &', 'entry')]) ## aodv-rqueue.h (module 'aodv'): bool ns3::aodv::RequestQueue::Find(ns3::Ipv4Address dst) [member function] cls.add_method('Find', 'bool', [param('ns3::Ipv4Address', 'dst')]) ## aodv-rqueue.h (module 'aodv'): uint32_t ns3::aodv::RequestQueue::GetMaxQueueLen() const [member function] cls.add_method('GetMaxQueueLen', 'uint32_t', [], is_const=True) ## aodv-rqueue.h (module 'aodv'): ns3::Time ns3::aodv::RequestQueue::GetQueueTimeout() const [member function] cls.add_method('GetQueueTimeout', 'ns3::Time', [], is_const=True) ## aodv-rqueue.h (module 'aodv'): uint32_t ns3::aodv::RequestQueue::GetSize() [member function] cls.add_method('GetSize', 'uint32_t', []) ## aodv-rqueue.h (module 'aodv'): void ns3::aodv::RequestQueue::SetMaxQueueLen(uint32_t len) [member function] cls.add_method('SetMaxQueueLen', 'void', [param('uint32_t', 'len')]) ## aodv-rqueue.h (module 'aodv'): void ns3::aodv::RequestQueue::SetQueueTimeout(ns3::Time t) [member function] cls.add_method('SetQueueTimeout', 'void', [param('ns3::Time', 't')]) return def register_Ns3AodvRerrHeader_methods(root_module, cls): cls.add_output_stream_operator() cls.add_binary_comparison_operator('==') ## aodv-packet.h (module 'aodv'): ns3::aodv::RerrHeader::RerrHeader(ns3::aodv::RerrHeader const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::RerrHeader const &', 'arg0')]) ## aodv-packet.h (module 'aodv'): ns3::aodv::RerrHeader::RerrHeader() [constructor] cls.add_constructor([]) ## aodv-packet.h (module 'aodv'): bool ns3::aodv::RerrHeader::AddUnDestination(ns3::Ipv4Address dst, uint32_t seqNo) [member function] cls.add_method('AddUnDestination', 'bool', [param('ns3::Ipv4Address', 'dst'), param('uint32_t', 'seqNo')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RerrHeader::Clear() [member function] cls.add_method('Clear', 'void', []) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::RerrHeader::Deserialize(ns3::Buffer::Iterator start) [member function] cls.add_method('Deserialize', 'uint32_t', [param('ns3::Buffer::Iterator', 'start')], is_virtual=True) ## aodv-packet.h (module 'aodv'): uint8_t ns3::aodv::RerrHeader::GetDestCount() const [member function] cls.add_method('GetDestCount', 'uint8_t', [], is_const=True) ## aodv-packet.h (module 'aodv'): ns3::TypeId ns3::aodv::RerrHeader::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): bool ns3::aodv::RerrHeader::GetNoDelete() const [member function] cls.add_method('GetNoDelete', 'bool', [], is_const=True) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::RerrHeader::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): static ns3::TypeId ns3::aodv::RerrHeader::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RerrHeader::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): bool ns3::aodv::RerrHeader::RemoveUnDestination(std::pair & un) [member function] cls.add_method('RemoveUnDestination', 'bool', [param('std::pair< ns3::Ipv4Address, unsigned int > &', 'un')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RerrHeader::Serialize(ns3::Buffer::Iterator i) const [member function] cls.add_method('Serialize', 'void', [param('ns3::Buffer::Iterator', 'i')], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RerrHeader::SetNoDelete(bool f) [member function] cls.add_method('SetNoDelete', 'void', [param('bool', 'f')]) return def register_Ns3AodvRoutingProtocol_methods(root_module, cls): ## aodv-routing-protocol.h (module 'aodv'): ns3::aodv::RoutingProtocol::RoutingProtocol(ns3::aodv::RoutingProtocol const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::RoutingProtocol const &', 'arg0')]) ## aodv-routing-protocol.h (module 'aodv'): ns3::aodv::RoutingProtocol::RoutingProtocol() [constructor] cls.add_constructor([]) ## aodv-routing-protocol.h (module 'aodv'): int64_t ns3::aodv::RoutingProtocol::AssignStreams(int64_t stream) [member function] cls.add_method('AssignStreams', 'int64_t', [param('int64_t', 'stream')]) ## aodv-routing-protocol.h (module 'aodv'): void ns3::aodv::RoutingProtocol::DoDispose() [member function] cls.add_method('DoDispose', 'void', [], is_virtual=True) ## aodv-routing-protocol.h (module 'aodv'): bool ns3::aodv::RoutingProtocol::GetBroadcastEnable() const [member function] cls.add_method('GetBroadcastEnable', 'bool', [], is_const=True) ## aodv-routing-protocol.h (module 'aodv'): bool ns3::aodv::RoutingProtocol::GetDesinationOnlyFlag() const [member function] cls.add_method('GetDesinationOnlyFlag', 'bool', [], is_const=True) ## aodv-routing-protocol.h (module 'aodv'): bool ns3::aodv::RoutingProtocol::GetGratuitousReplyFlag() const [member function] cls.add_method('GetGratuitousReplyFlag', 'bool', [], is_const=True) ## aodv-routing-protocol.h (module 'aodv'): bool ns3::aodv::RoutingProtocol::GetHelloEnable() const [member function] cls.add_method('GetHelloEnable', 'bool', [], is_const=True) ## aodv-routing-protocol.h (module 'aodv'): uint32_t ns3::aodv::RoutingProtocol::GetMaxQueueLen() const [member function] cls.add_method('GetMaxQueueLen', 'uint32_t', [], is_const=True) ## aodv-routing-protocol.h (module 'aodv'): ns3::Time ns3::aodv::RoutingProtocol::GetMaxQueueTime() const [member function] cls.add_method('GetMaxQueueTime', 'ns3::Time', [], is_const=True) ## aodv-routing-protocol.h (module 'aodv'): static ns3::TypeId ns3::aodv::RoutingProtocol::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## aodv-routing-protocol.h (module 'aodv'): void ns3::aodv::RoutingProtocol::NotifyAddAddress(uint32_t interface, ns3::Ipv4InterfaceAddress address) [member function] cls.add_method('NotifyAddAddress', 'void', [param('uint32_t', 'interface'), param('ns3::Ipv4InterfaceAddress', 'address')], is_virtual=True) ## aodv-routing-protocol.h (module 'aodv'): void ns3::aodv::RoutingProtocol::NotifyInterfaceDown(uint32_t interface) [member function] cls.add_method('NotifyInterfaceDown', 'void', [param('uint32_t', 'interface')], is_virtual=True) ## aodv-routing-protocol.h (module 'aodv'): void ns3::aodv::RoutingProtocol::NotifyInterfaceUp(uint32_t interface) [member function] cls.add_method('NotifyInterfaceUp', 'void', [param('uint32_t', 'interface')], is_virtual=True) ## aodv-routing-protocol.h (module 'aodv'): void ns3::aodv::RoutingProtocol::NotifyRemoveAddress(uint32_t interface, ns3::Ipv4InterfaceAddress address) [member function] cls.add_method('NotifyRemoveAddress', 'void', [param('uint32_t', 'interface'), param('ns3::Ipv4InterfaceAddress', 'address')], is_virtual=True) ## aodv-routing-protocol.h (module 'aodv'): void ns3::aodv::RoutingProtocol::PrintRoutingTable(ns3::Ptr stream) const [member function] cls.add_method('PrintRoutingTable', 'void', [param('ns3::Ptr< ns3::OutputStreamWrapper >', 'stream')], is_const=True, is_virtual=True) ## aodv-routing-protocol.h (module 'aodv'): bool ns3::aodv::RoutingProtocol::RouteInput(ns3::Ptr p, ns3::Ipv4Header const & header, ns3::Ptr idev, ns3::Callback, ns3::Ptr, ns3::Ipv4Header const&, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> ucb, ns3::Callback,ns3::Ptr,const ns3::Ipv4Header&,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty> mcb, ns3::Callback,const ns3::Ipv4Header&,unsigned int,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty> lcb, ns3::Callback, ns3::Ipv4Header const&, ns3::Socket::SocketErrno, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> ecb) [member function] cls.add_method('RouteInput', 'bool', [param('ns3::Ptr< ns3::Packet const >', 'p'), param('ns3::Ipv4Header const &', 'header'), param('ns3::Ptr< ns3::NetDevice const >', 'idev'), param('ns3::Callback< void, ns3::Ptr< ns3::Ipv4Route >, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'ucb'), param('ns3::Callback< void, ns3::Ptr< ns3::Ipv4MulticastRoute >, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'mcb'), param('ns3::Callback< void, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, unsigned int, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'lcb'), param('ns3::Callback< void, ns3::Ptr< ns3::Packet const >, ns3::Ipv4Header const &, ns3::Socket::SocketErrno, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'ecb')], is_virtual=True) ## aodv-routing-protocol.h (module 'aodv'): ns3::Ptr ns3::aodv::RoutingProtocol::RouteOutput(ns3::Ptr p, ns3::Ipv4Header const & header, ns3::Ptr oif, ns3::Socket::SocketErrno & sockerr) [member function] cls.add_method('RouteOutput', 'ns3::Ptr< ns3::Ipv4Route >', [param('ns3::Ptr< ns3::Packet >', 'p'), param('ns3::Ipv4Header const &', 'header'), param('ns3::Ptr< ns3::NetDevice >', 'oif'), param('ns3::Socket::SocketErrno &', 'sockerr')], is_virtual=True) ## aodv-routing-protocol.h (module 'aodv'): void ns3::aodv::RoutingProtocol::SetBroadcastEnable(bool f) [member function] cls.add_method('SetBroadcastEnable', 'void', [param('bool', 'f')]) ## aodv-routing-protocol.h (module 'aodv'): void ns3::aodv::RoutingProtocol::SetDesinationOnlyFlag(bool f) [member function] cls.add_method('SetDesinationOnlyFlag', 'void', [param('bool', 'f')]) ## aodv-routing-protocol.h (module 'aodv'): void ns3::aodv::RoutingProtocol::SetGratuitousReplyFlag(bool f) [member function] cls.add_method('SetGratuitousReplyFlag', 'void', [param('bool', 'f')]) ## aodv-routing-protocol.h (module 'aodv'): void ns3::aodv::RoutingProtocol::SetHelloEnable(bool f) [member function] cls.add_method('SetHelloEnable', 'void', [param('bool', 'f')]) ## aodv-routing-protocol.h (module 'aodv'): void ns3::aodv::RoutingProtocol::SetIpv4(ns3::Ptr ipv4) [member function] cls.add_method('SetIpv4', 'void', [param('ns3::Ptr< ns3::Ipv4 >', 'ipv4')], is_virtual=True) ## aodv-routing-protocol.h (module 'aodv'): void ns3::aodv::RoutingProtocol::SetMaxQueueLen(uint32_t len) [member function] cls.add_method('SetMaxQueueLen', 'void', [param('uint32_t', 'len')]) ## aodv-routing-protocol.h (module 'aodv'): void ns3::aodv::RoutingProtocol::SetMaxQueueTime(ns3::Time t) [member function] cls.add_method('SetMaxQueueTime', 'void', [param('ns3::Time', 't')]) ## aodv-routing-protocol.h (module 'aodv'): ns3::aodv::RoutingProtocol::AODV_PORT [variable] cls.add_static_attribute('AODV_PORT', 'uint32_t const', is_const=True) return def register_Ns3AodvRoutingTable_methods(root_module, cls): ## aodv-rtable.h (module 'aodv'): ns3::aodv::RoutingTable::RoutingTable(ns3::aodv::RoutingTable const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::RoutingTable const &', 'arg0')]) ## aodv-rtable.h (module 'aodv'): ns3::aodv::RoutingTable::RoutingTable(ns3::Time t) [constructor] cls.add_constructor([param('ns3::Time', 't')]) ## aodv-rtable.h (module 'aodv'): bool ns3::aodv::RoutingTable::AddRoute(ns3::aodv::RoutingTableEntry & r) [member function] cls.add_method('AddRoute', 'bool', [param('ns3::aodv::RoutingTableEntry &', 'r')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTable::Clear() [member function] cls.add_method('Clear', 'void', []) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTable::DeleteAllRoutesFromInterface(ns3::Ipv4InterfaceAddress iface) [member function] cls.add_method('DeleteAllRoutesFromInterface', 'void', [param('ns3::Ipv4InterfaceAddress', 'iface')]) ## aodv-rtable.h (module 'aodv'): bool ns3::aodv::RoutingTable::DeleteRoute(ns3::Ipv4Address dst) [member function] cls.add_method('DeleteRoute', 'bool', [param('ns3::Ipv4Address', 'dst')]) ## aodv-rtable.h (module 'aodv'): ns3::Time ns3::aodv::RoutingTable::GetBadLinkLifetime() const [member function] cls.add_method('GetBadLinkLifetime', 'ns3::Time', [], is_const=True) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTable::GetListOfDestinationWithNextHop(ns3::Ipv4Address nextHop, std::map, std::allocator > > & unreachable) [member function] cls.add_method('GetListOfDestinationWithNextHop', 'void', [param('ns3::Ipv4Address', 'nextHop'), param('std::map< ns3::Ipv4Address, unsigned int > &', 'unreachable')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTable::InvalidateRoutesWithDst(std::map, std::allocator > > const & unreachable) [member function] cls.add_method('InvalidateRoutesWithDst', 'void', [param('std::map< ns3::Ipv4Address, unsigned int > const &', 'unreachable')]) ## aodv-rtable.h (module 'aodv'): bool ns3::aodv::RoutingTable::LookupRoute(ns3::Ipv4Address dst, ns3::aodv::RoutingTableEntry & rt) [member function] cls.add_method('LookupRoute', 'bool', [param('ns3::Ipv4Address', 'dst'), param('ns3::aodv::RoutingTableEntry &', 'rt')]) ## aodv-rtable.h (module 'aodv'): bool ns3::aodv::RoutingTable::LookupValidRoute(ns3::Ipv4Address dst, ns3::aodv::RoutingTableEntry & rt) [member function] cls.add_method('LookupValidRoute', 'bool', [param('ns3::Ipv4Address', 'dst'), param('ns3::aodv::RoutingTableEntry &', 'rt')]) ## aodv-rtable.h (module 'aodv'): bool ns3::aodv::RoutingTable::MarkLinkAsUnidirectional(ns3::Ipv4Address neighbor, ns3::Time blacklistTimeout) [member function] cls.add_method('MarkLinkAsUnidirectional', 'bool', [param('ns3::Ipv4Address', 'neighbor'), param('ns3::Time', 'blacklistTimeout')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTable::Print(ns3::Ptr stream) const [member function] cls.add_method('Print', 'void', [param('ns3::Ptr< ns3::OutputStreamWrapper >', 'stream')], is_const=True) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTable::Purge() [member function] cls.add_method('Purge', 'void', []) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTable::SetBadLinkLifetime(ns3::Time t) [member function] cls.add_method('SetBadLinkLifetime', 'void', [param('ns3::Time', 't')]) ## aodv-rtable.h (module 'aodv'): bool ns3::aodv::RoutingTable::SetEntryState(ns3::Ipv4Address dst, ns3::aodv::RouteFlags state) [member function] cls.add_method('SetEntryState', 'bool', [param('ns3::Ipv4Address', 'dst'), param('ns3::aodv::RouteFlags', 'state')]) ## aodv-rtable.h (module 'aodv'): bool ns3::aodv::RoutingTable::Update(ns3::aodv::RoutingTableEntry & rt) [member function] cls.add_method('Update', 'bool', [param('ns3::aodv::RoutingTableEntry &', 'rt')]) return def register_Ns3AodvRoutingTableEntry_methods(root_module, cls): ## aodv-rtable.h (module 'aodv'): ns3::aodv::RoutingTableEntry::RoutingTableEntry(ns3::aodv::RoutingTableEntry const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::RoutingTableEntry const &', 'arg0')]) ## aodv-rtable.h (module 'aodv'): ns3::aodv::RoutingTableEntry::RoutingTableEntry(ns3::Ptr dev=0, ns3::Ipv4Address dst=ns3::Ipv4Address(), bool vSeqNo=false, uint32_t m_seqNo=0, ns3::Ipv4InterfaceAddress iface=ns3::Ipv4InterfaceAddress(), uint16_t hops=0, ns3::Ipv4Address nextHop=ns3::Ipv4Address(), ns3::Time lifetime=ns3::Simulator::Now( )) [constructor] cls.add_constructor([param('ns3::Ptr< ns3::NetDevice >', 'dev', default_value='0'), param('ns3::Ipv4Address', 'dst', default_value='ns3::Ipv4Address()'), param('bool', 'vSeqNo', default_value='false'), param('uint32_t', 'm_seqNo', default_value='0'), param('ns3::Ipv4InterfaceAddress', 'iface', default_value='ns3::Ipv4InterfaceAddress()'), param('uint16_t', 'hops', default_value='0'), param('ns3::Ipv4Address', 'nextHop', default_value='ns3::Ipv4Address()'), param('ns3::Time', 'lifetime', default_value='ns3::Simulator::Now( )')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::DeleteAllPrecursors() [member function] cls.add_method('DeleteAllPrecursors', 'void', []) ## aodv-rtable.h (module 'aodv'): bool ns3::aodv::RoutingTableEntry::DeletePrecursor(ns3::Ipv4Address id) [member function] cls.add_method('DeletePrecursor', 'bool', [param('ns3::Ipv4Address', 'id')]) ## aodv-rtable.h (module 'aodv'): ns3::Time ns3::aodv::RoutingTableEntry::GetBlacklistTimeout() const [member function] cls.add_method('GetBlacklistTimeout', 'ns3::Time', [], is_const=True) ## aodv-rtable.h (module 'aodv'): ns3::Ipv4Address ns3::aodv::RoutingTableEntry::GetDestination() const [member function] cls.add_method('GetDestination', 'ns3::Ipv4Address', [], is_const=True) ## aodv-rtable.h (module 'aodv'): ns3::aodv::RouteFlags ns3::aodv::RoutingTableEntry::GetFlag() const [member function] cls.add_method('GetFlag', 'ns3::aodv::RouteFlags', [], is_const=True) ## aodv-rtable.h (module 'aodv'): uint16_t ns3::aodv::RoutingTableEntry::GetHop() const [member function] cls.add_method('GetHop', 'uint16_t', [], is_const=True) ## aodv-rtable.h (module 'aodv'): ns3::Ipv4InterfaceAddress ns3::aodv::RoutingTableEntry::GetInterface() const [member function] cls.add_method('GetInterface', 'ns3::Ipv4InterfaceAddress', [], is_const=True) ## aodv-rtable.h (module 'aodv'): ns3::Time ns3::aodv::RoutingTableEntry::GetLifeTime() const [member function] cls.add_method('GetLifeTime', 'ns3::Time', [], is_const=True) ## aodv-rtable.h (module 'aodv'): ns3::Ipv4Address ns3::aodv::RoutingTableEntry::GetNextHop() const [member function] cls.add_method('GetNextHop', 'ns3::Ipv4Address', [], is_const=True) ## aodv-rtable.h (module 'aodv'): ns3::Ptr ns3::aodv::RoutingTableEntry::GetOutputDevice() const [member function] cls.add_method('GetOutputDevice', 'ns3::Ptr< ns3::NetDevice >', [], is_const=True) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::GetPrecursors(std::vector > & prec) const [member function] cls.add_method('GetPrecursors', 'void', [param('std::vector< ns3::Ipv4Address > &', 'prec')], is_const=True) ## aodv-rtable.h (module 'aodv'): ns3::Ptr ns3::aodv::RoutingTableEntry::GetRoute() const [member function] cls.add_method('GetRoute', 'ns3::Ptr< ns3::Ipv4Route >', [], is_const=True) ## aodv-rtable.h (module 'aodv'): uint8_t ns3::aodv::RoutingTableEntry::GetRreqCnt() const [member function] cls.add_method('GetRreqCnt', 'uint8_t', [], is_const=True) ## aodv-rtable.h (module 'aodv'): uint32_t ns3::aodv::RoutingTableEntry::GetSeqNo() const [member function] cls.add_method('GetSeqNo', 'uint32_t', [], is_const=True) ## aodv-rtable.h (module 'aodv'): bool ns3::aodv::RoutingTableEntry::GetValidSeqNo() const [member function] cls.add_method('GetValidSeqNo', 'bool', [], is_const=True) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::IncrementRreqCnt() [member function] cls.add_method('IncrementRreqCnt', 'void', []) ## aodv-rtable.h (module 'aodv'): bool ns3::aodv::RoutingTableEntry::InsertPrecursor(ns3::Ipv4Address id) [member function] cls.add_method('InsertPrecursor', 'bool', [param('ns3::Ipv4Address', 'id')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::Invalidate(ns3::Time badLinkLifetime) [member function] cls.add_method('Invalidate', 'void', [param('ns3::Time', 'badLinkLifetime')]) ## aodv-rtable.h (module 'aodv'): bool ns3::aodv::RoutingTableEntry::IsPrecursorListEmpty() const [member function] cls.add_method('IsPrecursorListEmpty', 'bool', [], is_const=True) ## aodv-rtable.h (module 'aodv'): bool ns3::aodv::RoutingTableEntry::IsUnidirectional() const [member function] cls.add_method('IsUnidirectional', 'bool', [], is_const=True) ## aodv-rtable.h (module 'aodv'): bool ns3::aodv::RoutingTableEntry::LookupPrecursor(ns3::Ipv4Address id) [member function] cls.add_method('LookupPrecursor', 'bool', [param('ns3::Ipv4Address', 'id')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::Print(ns3::Ptr stream) const [member function] cls.add_method('Print', 'void', [param('ns3::Ptr< ns3::OutputStreamWrapper >', 'stream')], is_const=True) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::SetBalcklistTimeout(ns3::Time t) [member function] cls.add_method('SetBalcklistTimeout', 'void', [param('ns3::Time', 't')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::SetFlag(ns3::aodv::RouteFlags flag) [member function] cls.add_method('SetFlag', 'void', [param('ns3::aodv::RouteFlags', 'flag')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::SetHop(uint16_t hop) [member function] cls.add_method('SetHop', 'void', [param('uint16_t', 'hop')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::SetInterface(ns3::Ipv4InterfaceAddress iface) [member function] cls.add_method('SetInterface', 'void', [param('ns3::Ipv4InterfaceAddress', 'iface')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::SetLifeTime(ns3::Time lt) [member function] cls.add_method('SetLifeTime', 'void', [param('ns3::Time', 'lt')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::SetNextHop(ns3::Ipv4Address nextHop) [member function] cls.add_method('SetNextHop', 'void', [param('ns3::Ipv4Address', 'nextHop')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::SetOutputDevice(ns3::Ptr dev) [member function] cls.add_method('SetOutputDevice', 'void', [param('ns3::Ptr< ns3::NetDevice >', 'dev')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::SetRoute(ns3::Ptr r) [member function] cls.add_method('SetRoute', 'void', [param('ns3::Ptr< ns3::Ipv4Route >', 'r')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::SetRreqCnt(uint8_t n) [member function] cls.add_method('SetRreqCnt', 'void', [param('uint8_t', 'n')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::SetSeqNo(uint32_t sn) [member function] cls.add_method('SetSeqNo', 'void', [param('uint32_t', 'sn')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::SetUnidirectional(bool u) [member function] cls.add_method('SetUnidirectional', 'void', [param('bool', 'u')]) ## aodv-rtable.h (module 'aodv'): void ns3::aodv::RoutingTableEntry::SetValidSeqNo(bool s) [member function] cls.add_method('SetValidSeqNo', 'void', [param('bool', 's')]) ## aodv-rtable.h (module 'aodv'): ns3::aodv::RoutingTableEntry::m_ackTimer [variable] cls.add_instance_attribute('m_ackTimer', 'ns3::Timer', is_const=False) return def register_Ns3AodvRrepAckHeader_methods(root_module, cls): cls.add_output_stream_operator() cls.add_binary_comparison_operator('==') ## aodv-packet.h (module 'aodv'): ns3::aodv::RrepAckHeader::RrepAckHeader(ns3::aodv::RrepAckHeader const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::RrepAckHeader const &', 'arg0')]) ## aodv-packet.h (module 'aodv'): ns3::aodv::RrepAckHeader::RrepAckHeader() [constructor] cls.add_constructor([]) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::RrepAckHeader::Deserialize(ns3::Buffer::Iterator start) [member function] cls.add_method('Deserialize', 'uint32_t', [param('ns3::Buffer::Iterator', 'start')], is_virtual=True) ## aodv-packet.h (module 'aodv'): ns3::TypeId ns3::aodv::RrepAckHeader::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::RrepAckHeader::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): static ns3::TypeId ns3::aodv::RrepAckHeader::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RrepAckHeader::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RrepAckHeader::Serialize(ns3::Buffer::Iterator start) const [member function] cls.add_method('Serialize', 'void', [param('ns3::Buffer::Iterator', 'start')], is_const=True, is_virtual=True) return def register_Ns3AodvRrepHeader_methods(root_module, cls): cls.add_output_stream_operator() cls.add_binary_comparison_operator('==') ## aodv-packet.h (module 'aodv'): ns3::aodv::RrepHeader::RrepHeader(ns3::aodv::RrepHeader const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::RrepHeader const &', 'arg0')]) ## aodv-packet.h (module 'aodv'): ns3::aodv::RrepHeader::RrepHeader(uint8_t prefixSize=0, uint8_t hopCount=0, ns3::Ipv4Address dst=ns3::Ipv4Address(), uint32_t dstSeqNo=0, ns3::Ipv4Address origin=ns3::Ipv4Address(), ns3::Time lifetime=ns3::MilliSeconds( )) [constructor] cls.add_constructor([param('uint8_t', 'prefixSize', default_value='0'), param('uint8_t', 'hopCount', default_value='0'), param('ns3::Ipv4Address', 'dst', default_value='ns3::Ipv4Address()'), param('uint32_t', 'dstSeqNo', default_value='0'), param('ns3::Ipv4Address', 'origin', default_value='ns3::Ipv4Address()'), param('ns3::Time', 'lifetime', default_value='ns3::MilliSeconds(0)')]) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::RrepHeader::Deserialize(ns3::Buffer::Iterator start) [member function] cls.add_method('Deserialize', 'uint32_t', [param('ns3::Buffer::Iterator', 'start')], is_virtual=True) ## aodv-packet.h (module 'aodv'): bool ns3::aodv::RrepHeader::GetAckRequired() const [member function] cls.add_method('GetAckRequired', 'bool', [], is_const=True) ## aodv-packet.h (module 'aodv'): ns3::Ipv4Address ns3::aodv::RrepHeader::GetDst() const [member function] cls.add_method('GetDst', 'ns3::Ipv4Address', [], is_const=True) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::RrepHeader::GetDstSeqno() const [member function] cls.add_method('GetDstSeqno', 'uint32_t', [], is_const=True) ## aodv-packet.h (module 'aodv'): uint8_t ns3::aodv::RrepHeader::GetHopCount() const [member function] cls.add_method('GetHopCount', 'uint8_t', [], is_const=True) ## aodv-packet.h (module 'aodv'): ns3::TypeId ns3::aodv::RrepHeader::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): ns3::Time ns3::aodv::RrepHeader::GetLifeTime() const [member function] cls.add_method('GetLifeTime', 'ns3::Time', [], is_const=True) ## aodv-packet.h (module 'aodv'): ns3::Ipv4Address ns3::aodv::RrepHeader::GetOrigin() const [member function] cls.add_method('GetOrigin', 'ns3::Ipv4Address', [], is_const=True) ## aodv-packet.h (module 'aodv'): uint8_t ns3::aodv::RrepHeader::GetPrefixSize() const [member function] cls.add_method('GetPrefixSize', 'uint8_t', [], is_const=True) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::RrepHeader::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): static ns3::TypeId ns3::aodv::RrepHeader::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RrepHeader::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RrepHeader::Serialize(ns3::Buffer::Iterator start) const [member function] cls.add_method('Serialize', 'void', [param('ns3::Buffer::Iterator', 'start')], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RrepHeader::SetAckRequired(bool f) [member function] cls.add_method('SetAckRequired', 'void', [param('bool', 'f')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RrepHeader::SetDst(ns3::Ipv4Address a) [member function] cls.add_method('SetDst', 'void', [param('ns3::Ipv4Address', 'a')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RrepHeader::SetDstSeqno(uint32_t s) [member function] cls.add_method('SetDstSeqno', 'void', [param('uint32_t', 's')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RrepHeader::SetHello(ns3::Ipv4Address src, uint32_t srcSeqNo, ns3::Time lifetime) [member function] cls.add_method('SetHello', 'void', [param('ns3::Ipv4Address', 'src'), param('uint32_t', 'srcSeqNo'), param('ns3::Time', 'lifetime')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RrepHeader::SetHopCount(uint8_t count) [member function] cls.add_method('SetHopCount', 'void', [param('uint8_t', 'count')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RrepHeader::SetLifeTime(ns3::Time t) [member function] cls.add_method('SetLifeTime', 'void', [param('ns3::Time', 't')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RrepHeader::SetOrigin(ns3::Ipv4Address a) [member function] cls.add_method('SetOrigin', 'void', [param('ns3::Ipv4Address', 'a')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RrepHeader::SetPrefixSize(uint8_t sz) [member function] cls.add_method('SetPrefixSize', 'void', [param('uint8_t', 'sz')]) return def register_Ns3AodvRreqHeader_methods(root_module, cls): cls.add_output_stream_operator() cls.add_binary_comparison_operator('==') ## aodv-packet.h (module 'aodv'): ns3::aodv::RreqHeader::RreqHeader(ns3::aodv::RreqHeader const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::RreqHeader const &', 'arg0')]) ## aodv-packet.h (module 'aodv'): ns3::aodv::RreqHeader::RreqHeader(uint8_t flags=0, uint8_t reserved=0, uint8_t hopCount=0, uint32_t requestID=0, ns3::Ipv4Address dst=ns3::Ipv4Address(), uint32_t dstSeqNo=0, ns3::Ipv4Address origin=ns3::Ipv4Address(), uint32_t originSeqNo=0) [constructor] cls.add_constructor([param('uint8_t', 'flags', default_value='0'), param('uint8_t', 'reserved', default_value='0'), param('uint8_t', 'hopCount', default_value='0'), param('uint32_t', 'requestID', default_value='0'), param('ns3::Ipv4Address', 'dst', default_value='ns3::Ipv4Address()'), param('uint32_t', 'dstSeqNo', default_value='0'), param('ns3::Ipv4Address', 'origin', default_value='ns3::Ipv4Address()'), param('uint32_t', 'originSeqNo', default_value='0')]) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::RreqHeader::Deserialize(ns3::Buffer::Iterator start) [member function] cls.add_method('Deserialize', 'uint32_t', [param('ns3::Buffer::Iterator', 'start')], is_virtual=True) ## aodv-packet.h (module 'aodv'): bool ns3::aodv::RreqHeader::GetDestinationOnly() const [member function] cls.add_method('GetDestinationOnly', 'bool', [], is_const=True) ## aodv-packet.h (module 'aodv'): ns3::Ipv4Address ns3::aodv::RreqHeader::GetDst() const [member function] cls.add_method('GetDst', 'ns3::Ipv4Address', [], is_const=True) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::RreqHeader::GetDstSeqno() const [member function] cls.add_method('GetDstSeqno', 'uint32_t', [], is_const=True) ## aodv-packet.h (module 'aodv'): bool ns3::aodv::RreqHeader::GetGratiousRrep() const [member function] cls.add_method('GetGratiousRrep', 'bool', [], is_const=True) ## aodv-packet.h (module 'aodv'): uint8_t ns3::aodv::RreqHeader::GetHopCount() const [member function] cls.add_method('GetHopCount', 'uint8_t', [], is_const=True) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::RreqHeader::GetId() const [member function] cls.add_method('GetId', 'uint32_t', [], is_const=True) ## aodv-packet.h (module 'aodv'): ns3::TypeId ns3::aodv::RreqHeader::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): ns3::Ipv4Address ns3::aodv::RreqHeader::GetOrigin() const [member function] cls.add_method('GetOrigin', 'ns3::Ipv4Address', [], is_const=True) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::RreqHeader::GetOriginSeqno() const [member function] cls.add_method('GetOriginSeqno', 'uint32_t', [], is_const=True) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::RreqHeader::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): static ns3::TypeId ns3::aodv::RreqHeader::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## aodv-packet.h (module 'aodv'): bool ns3::aodv::RreqHeader::GetUnknownSeqno() const [member function] cls.add_method('GetUnknownSeqno', 'bool', [], is_const=True) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RreqHeader::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RreqHeader::Serialize(ns3::Buffer::Iterator start) const [member function] cls.add_method('Serialize', 'void', [param('ns3::Buffer::Iterator', 'start')], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RreqHeader::SetDestinationOnly(bool f) [member function] cls.add_method('SetDestinationOnly', 'void', [param('bool', 'f')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RreqHeader::SetDst(ns3::Ipv4Address a) [member function] cls.add_method('SetDst', 'void', [param('ns3::Ipv4Address', 'a')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RreqHeader::SetDstSeqno(uint32_t s) [member function] cls.add_method('SetDstSeqno', 'void', [param('uint32_t', 's')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RreqHeader::SetGratiousRrep(bool f) [member function] cls.add_method('SetGratiousRrep', 'void', [param('bool', 'f')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RreqHeader::SetHopCount(uint8_t count) [member function] cls.add_method('SetHopCount', 'void', [param('uint8_t', 'count')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RreqHeader::SetId(uint32_t id) [member function] cls.add_method('SetId', 'void', [param('uint32_t', 'id')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RreqHeader::SetOrigin(ns3::Ipv4Address a) [member function] cls.add_method('SetOrigin', 'void', [param('ns3::Ipv4Address', 'a')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RreqHeader::SetOriginSeqno(uint32_t s) [member function] cls.add_method('SetOriginSeqno', 'void', [param('uint32_t', 's')]) ## aodv-packet.h (module 'aodv'): void ns3::aodv::RreqHeader::SetUnknownSeqno(bool f) [member function] cls.add_method('SetUnknownSeqno', 'void', [param('bool', 'f')]) return def register_Ns3AodvTypeHeader_methods(root_module, cls): cls.add_output_stream_operator() cls.add_binary_comparison_operator('==') ## aodv-packet.h (module 'aodv'): ns3::aodv::TypeHeader::TypeHeader(ns3::aodv::TypeHeader const & arg0) [copy constructor] cls.add_constructor([param('ns3::aodv::TypeHeader const &', 'arg0')]) ## aodv-packet.h (module 'aodv'): ns3::aodv::TypeHeader::TypeHeader(ns3::aodv::MessageType t=::ns3::aodv::AODVTYPE_RREQ) [constructor] cls.add_constructor([param('ns3::aodv::MessageType', 't', default_value='::ns3::aodv::AODVTYPE_RREQ')]) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::TypeHeader::Deserialize(ns3::Buffer::Iterator start) [member function] cls.add_method('Deserialize', 'uint32_t', [param('ns3::Buffer::Iterator', 'start')], is_virtual=True) ## aodv-packet.h (module 'aodv'): ns3::aodv::MessageType ns3::aodv::TypeHeader::Get() const [member function] cls.add_method('Get', 'ns3::aodv::MessageType', [], is_const=True) ## aodv-packet.h (module 'aodv'): ns3::TypeId ns3::aodv::TypeHeader::GetInstanceTypeId() const [member function] cls.add_method('GetInstanceTypeId', 'ns3::TypeId', [], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): uint32_t ns3::aodv::TypeHeader::GetSerializedSize() const [member function] cls.add_method('GetSerializedSize', 'uint32_t', [], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): static ns3::TypeId ns3::aodv::TypeHeader::GetTypeId() [member function] cls.add_method('GetTypeId', 'ns3::TypeId', [], is_static=True) ## aodv-packet.h (module 'aodv'): bool ns3::aodv::TypeHeader::IsValid() const [member function] cls.add_method('IsValid', 'bool', [], is_const=True) ## aodv-packet.h (module 'aodv'): void ns3::aodv::TypeHeader::Print(std::ostream & os) const [member function] cls.add_method('Print', 'void', [param('std::ostream &', 'os')], is_const=True, is_virtual=True) ## aodv-packet.h (module 'aodv'): void ns3::aodv::TypeHeader::Serialize(ns3::Buffer::Iterator start) const [member function] cls.add_method('Serialize', 'void', [param('ns3::Buffer::Iterator', 'start')], is_const=True, is_virtual=True) return def register_functions(root_module): module = root_module register_functions_ns3_FatalImpl(module.get_submodule('FatalImpl'), root_module) register_functions_ns3_aodv(module.get_submodule('aodv'), root_module) return def register_functions_ns3_FatalImpl(module, root_module): return def register_functions_ns3_aodv(module, root_module): return def main(): out = FileCodeSink(sys.stdout) root_module = module_init() register_types(root_module) register_methods(root_module) register_functions(root_module) root_module.generate(out) if __name__ == '__main__': main() #!/usr/bin/python2.4 # # CDDL HEADER START # # The contents of this file are subject to the terms of the # Common Development and Distribution License (the "License"). # You may not use this file except in compliance with the License. # # You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE # or http://www.opensolaris.org/os/licensing. # See the License for the specific language governing permissions # and limitations under the License. # # When distributing Covered Code, include this CDDL HEADER in each # file and include the License file at usr/src/OPENSOLARIS.LICENSE. # If applicable, add the following below this CDDL HEADER, with the # fields enclosed by brackets "[]" replaced with your own identifying # information: Portions Copyright [yyyy] [name of copyright owner] # # CDDL HEADER END # # Copyright 2008 Sun Microsystems, Inc. All rights reserved. # Use is subject to license terms. # """ Generic implementation of OS support for most unix-derived OSs. In general, if os.type is "posix", most if not all of these methods can be used. For any that are unusable (or where a better implementation exists), a module can be provided which overrides these. """ import pwd import grp import errno import os import platform import shutil import sys import util as os_util # used to cache contents of passwd and group files users = {} uids = {} users_lastupdate = {} groups = {} gids = {} groups_lastupdate = {} # storage to repeat first call to group routines __been_here = {} def already_called(): callers_name = sys._getframe(1).f_code.co_name if callers_name in __been_here: return True else: __been_here[callers_name] = True return False def get_isainfo(): return platform.uname()[5] def get_release(): return os_util.get_os_release() def get_platform(): return platform.uname()[4] def get_userid(): # If the software is being executed with pfexec, the uid or euid will # likely be 0 which is of no use. Since the os.getlogin() interface # provided by Python breaks in a number of interesting ways, their # recommendation is to pull the username from the environment instead. user = os.getenv('USER', os.getenv('LOGNAME', os.getenv('USERNAME'))) if user: try: return get_user_by_name(user, None, False) except KeyError: # The environment username wasn't valid. pass return os.getuid() def get_username(): if not already_called(): get_username() return pwd.getpwuid(get_userid()).pw_name def is_admin(): return os.getuid() == 0 def get_group_by_name(name, dirpath, use_file): if not already_called(): get_group_by_name(name, dirpath, use_file) if not use_file: return grp.getgrnam(name).gr_gid try: load_groups(dirpath) return groups[dirpath][name].gr_gid except OSError, e: if e.errno != errno.ENOENT: raise # If the password file doesn't exist, bootstrap # ourselves from the current environment. return grp.getgrnam(name).gr_gid except KeyError: raise KeyError, "group name not found: %s" % name def get_user_by_name(name, dirpath, use_file): if not already_called(): get_user_by_name(name, dirpath, use_file) if not use_file: return pwd.getpwnam(name).pw_uid try: load_passwd(dirpath) return users[dirpath][name].pw_uid except OSError, e: if e.errno != errno.ENOENT: raise # If the password file doesn't exist, bootstrap # ourselves from the current environment. return pwd.getpwnam(name).pw_uid except KeyError: raise KeyError, "user name not found: %s" % name def get_name_by_gid(gid, dirpath, use_file): if not already_called(): get_name_by_gid(gid, dirpath, use_file) if not use_file: return grp.getgrgid(gid).gr_name try: load_groups(dirpath) return gids[dirpath][gid].gr_name except OSError, e: if e.errno != errno.ENOENT: raise # If the password file doesn't exist, bootstrap # ourselves from the current environment. return grp.getgrgid(gid).gr_name except KeyError: raise KeyError, "group ID not found: %s" % gid def get_name_by_uid(uid, dirpath, use_file): if not already_called(): get_name_by_uid(uid, dirpath, use_file) if not use_file: return pwd.getpwuid(uid).pw_name try: load_passwd(dirpath) return uids[dirpath][uid].pw_name except OSError, e: if e.errno != errno.ENOENT: raise # If the password file doesn't exist, bootstrap # ourselves from the current environment. return pwd.getpwuid(uid).pw_name except KeyError: raise KeyError, "user ID not found: %d" % uid def load_passwd(dirpath): # check if we need to reload cache passwd_file = os.path.join(dirpath, "etc/passwd") passwd_stamp = os.stat(passwd_file).st_mtime if passwd_stamp <= users_lastupdate.get(dirpath, -1): return users[dirpath] = user = {} uids[dirpath] = uid = {} f = file(passwd_file) for line in f: arr = line.rstrip().split(":") if len(arr) != 7: # Skip any line we can't make sense of. continue try: arr[2] = int(arr[2]) arr[3] = int(arr[3]) except ValueError: # Skip any line we can't make sense of. continue pw_entry = pwd.struct_passwd(arr) user[pw_entry.pw_name] = pw_entry # Traditional systems allow multiple users to have the same # user id, so only the first one should be mapped to the # current pw_entry. uid.setdefault(pw_entry.pw_uid, pw_entry) users_lastupdate[dirpath] = passwd_stamp f.close() def load_groups(dirpath): # check if we need to reload cache group_file = os.path.join(dirpath, "etc/group") group_stamp = os.stat(group_file).st_mtime if group_stamp <= groups_lastupdate.get(dirpath, -1): return groups[dirpath] = group = {} gids[dirpath] = gid = {} f = file(group_file) for line in f: arr = line.rstrip().split(":") if len(arr) != 4: # Skip any line we can't make sense of. continue try: arr[2] = int(arr[2]) except ValueError: # Skip any line we can't make sense of. continue gr_entry = grp.struct_group(arr) group[gr_entry.gr_name] = gr_entry # Traditional systems allow multiple groups to have the same # group id, so only the first one should be mapped to the # current pw_entry. gid.setdefault(gr_entry.gr_gid, gr_entry) groups_lastupdate[dirpath] = group_stamp f.close() def chown(path, owner, group): return os.chown(path, owner, group) def rename(src, dst): os.rename(src, dst) def remove(path): os.unlink(path) def link(src, dst): os.link(src, dst) def split_path(path): return path.split('/') def get_root(path): return '/' def copyfile(src, dst): shutil.copyfile(src, dst) import os import json import time import socket from threading import Thread IPS = [] def trata_cliente(conexao, endereco): requisicao = conexao.recv(1024) print requisicao if requisicao == 'LIST': arqs = os.listdir('/etc/black/garagem/arquivos/') conexao.send(json.dumps(arqs)) elif requisicao == 'GET': arqs = os.listdir('/etc/black/garagem/arquivos/') arquivo = conexao.recv(1024) if arquivo in arqs: fp = open('/etc/black/garagem/arquivos/{0}'.format(arquivo), 'r') strng = fp.read(1024) while strng: conexao.send(strng) strng = fp.read(1024) elif requisicao == 'PUT': conexao.send('OK') arqs = os.listdir('/etc/black/garagem/arquivos/') arquivo = conexao.recv(1024) print arquivo print arqs if arquivo not in arqs: conexao.send('TRUE') arq = open('/etc/black/garagem/arquivos/{0}'.format(arquivo), 'w') while 1: dados = conexao.recv(1024) if not dados: break arq.write(dados) arq.close() else: conexao.send('FALSE') conexao.close() def loop_servidor(): soquete = socket.socket(socket.AF_INET, socket.SOCK_STREAM) soquete.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) soquete.bind(('127.0.0.1', 5555)) soquete.listen(10) global IPS # Fica aqui aguardando novas conexoes. while True: # Para cada nova conexao e criado um novo processo para tratar as requisicoes. conexao = soquete.accept() novaConexao = [] novaConexao.append(conexao[0]) novaConexao.append(conexao[1]) if conexao[1] not in IPS: IPS.append(conexao[1]) Thread(target=trata_cliente, args=(novaConexao)).start() if __name__ == '__main__': print 'Servidor de Arquivos Iniciou na Porta 5555...' Thread(target=loop_servidor).start() from typing import Any, List, Dict, Optional, Text, Union, Tuple, Iterable, TypeVar import requests from jsonschema import validate from pykechain.defaults import API_EXTRA_PARAMS from pykechain.enums import Category from pykechain.exceptions import APIError, IllegalArgumentError from pykechain.models import Base, BaseInScope from pykechain.models.input_checks import check_text, check_type from pykechain.models.representations.component import RepresentationsComponent from pykechain.models.validators import PropertyValidator from pykechain.models.validators.validator_schemas import options_json_schema from pykechain.utils import clean_empty_values, empty T = TypeVar("T") class Property(BaseInScope): """A virtual object representing a KE-chain property. .. versionadded: 3.0 This is a `Property` to communicate with a KE-chain 3 backend. :cvar bulk_update: flag to postpone update of properties until manually requested :type bulk_update: bool :ivar type: The property type of the property. One of the types described in :class:`pykechain.enums.PropertyType` :type type: str :ivar category: The category of the property, either `Category.MODEL` of `Category.INSTANCE` :type category: str :ivar description: description of the property :type description: str or None :ivar unit: unit of measure of the property :type unit: str or None :ivar model: the id of the model (not the model object) :type model: str :ivar output: a boolean if the value is configured as an output (in an activity) :type output: bool :ivar part: The (parent) part in which this property is available :type part: :class:`Part` :ivar value: the property value, can be set as well as property :type value: Any :ivar validators: the list of validators that are available in the property :type validators: List[PropertyValidator] :ivar is_valid: if the property conforms to the validators :type is_valid: bool :ivar is_invalid: if the property does not conform to the validator :type is_invalid: bool """ _USE_BULK_UPDATE = False _update_package = dict() def __init__(self, json, **kwargs): """Construct a Property from a json object.""" super().__init__(json, **kwargs) self.output: bool = json.get('output') self.model_id: Optional[Text] = json.get('model_id') self.part_id = json.get('part_id') self.ref = json.get('ref') self.type = json.get('property_type') self.category = json.get('category') self.description = json.get('description', None) self.unit = json.get('unit', None) self.order = json.get('order') # Create protected variables self._value: Any = json.get('value') self._options: Dict = json.get('value_options', {}) self._part: Optional['Part'] = None self._model: Optional['Property'] = None self._validators: List[PropertyValidator] = [] self._validation_results: List = [] self._validation_reasons: List = [] self._representations_container = RepresentationsComponent( self, self._options.get('representations', {}), self._save_representations, ) validate(self._options, options_json_schema) if self._options.get('validators'): self._parse_validators() def refresh(self, json: Optional[Dict] = None, url: Optional[Text] = None, extra_params: Optional = None) -> None: """Refresh the object in place.""" super().refresh(json=json, url=self._client._build_url('property', property_id=self.id), extra_params=API_EXTRA_PARAMS['property']) def has_value(self) -> bool: """Predicate to indicate if the property has a value set. This predicate determines if the property has a value set. It will not make a call to KE-chain API (in case of reference properties). So it is a tiny fraction 'cheaper' in terms of processing time than checking the `Property.value` itself. It will return True if the property_type is a Boolean and set to a value of False. :returns: True if the property has a value set, otherwise (also when value is None) returns False :rtype: Bool """ if isinstance(self._value, (float, int, bool)): return True # to prevent "bool(0.00) = False" or "False = False" else: return bool(self._value) @property def use_bulk_update(self): """Set or get the toggle to asynchronously update property values.""" # set the class attribute to make this value a singleton return self.__class__._USE_BULK_UPDATE @use_bulk_update.setter def use_bulk_update(self, value): self.__class__.set_bulk_update(value) @classmethod def set_bulk_update(cls, value): """Set global class attribute to toggle the use of bulk-updates of properties.""" assert isinstance(value, bool), "`bulk_update` must be set to a boolean, not {}".format(type(value)) cls._USE_BULK_UPDATE = value @property def value(self) -> Any: """Retrieve the data value of a property. Setting this value will immediately update the property in KE-chain. :returns: the value """ return self._value @value.setter def value(self, value: Any) -> None: value = self.serialize_value(value) if self.use_bulk_update: self._pend_update(dict(value=value)) self._value = value else: self._put_value(value) @classmethod def update_values(cls, client: 'Client', use_bulk_update: bool = False) -> None: """ Perform the bulk update of property values using the stored values in the `Property` class. :param client: Client object :type client: Client :param use_bulk_update: set the class attribute, defaults to False. :type use_bulk_update: bool :return: None """ if cls._USE_BULK_UPDATE: properties = [dict(id=key, **values) for key, values in cls._update_package.items()] client.update_properties(properties=properties) cls._update_package = dict() cls.set_bulk_update(use_bulk_update) def _pend_update(self, data): """Store the value to be send at a later point in time using `update_values`.""" existing_data = self.__class__._update_package.get(self.id, None) if existing_data: existing_data.update(data) else: self.__class__._update_package[self.id] = data def _put_value(self, value): """Send the value to KE-chain.""" url = self._client._build_url('property', property_id=self.id) response = self._client._request('PUT', url, params=API_EXTRA_PARAMS['property'], json={'value': value}) if response.status_code != requests.codes.ok: # pragma: no cover raise APIError("Could not update Property {}".format(self), response=response) self.refresh(json=response.json()['results'][0]) def serialize_value(self, value: [T]) -> T: """ Serialize the value to be set on the property. :param value: non-serialized value :type value: Any :return: serialized value """ return value.id if isinstance(value, Base) else value @property def part(self) -> 'Part': """ Retrieve the part that holds this Property. :returns: The :class:`Part` associated to this property :raises APIError: if the `Part` is not found """ if self._part is None: self._part = self._client.part(pk=self.part_id, category=self.category) return self._part def model(self) -> 'AnyProperty': """ Model object of the property if the property is an instance otherwise itself. Will cache the model object in order to not generate too many API calls. Otherwise will make an API call to the backend to retrieve its model object. :return: `Property` model object if the current `Property` is an instance. :rtype: :class:`pykechain.models.AnyProperty` """ if self.category == Category.MODEL: return self elif self._model is None: self._model = self._client.property(pk=self.model_id, category=Category.MODEL) return self._model @property def validators(self): """Provide list of Validator objects. :returns: list of :class:`PropertyValidator` objects :rtype: list(PropertyValidator) """ return self._validators @validators.setter def validators(self, validators: Iterable[PropertyValidator]) -> None: if self.category != Category.MODEL: raise IllegalArgumentError("To update the list of validators, it can only work on " "`Property` of category 'MODEL'") if not isinstance(validators, (tuple, list)) or not all(isinstance(v, PropertyValidator) for v in validators): raise IllegalArgumentError('Should be a list or tuple with PropertyValidator objects, ' 'got {}'.format(type(validators))) for validator in validators: validator.validate_json() # set the internal validators list self._validators = list(set(validators)) # dump to _json options self._dump_validators() # update the options to KE-chain backend self.edit(options=self._options) def _parse_validators(self): """Parse the validator in the options to validators.""" self._validators = [] validators_json = self._options.get('validators') for validator_json in validators_json: self._validators.append(PropertyValidator.parse(json=validator_json)) def _dump_validators(self): """Dump the validators as json inside the _options dictionary with the key `validators`.""" validators_json = [] for validator in self._validators: if isinstance(validator, PropertyValidator): validators_json.append(validator.as_json()) else: raise APIError("validator is not a PropertyValidator: '{}'".format(validator)) if self._options.get('validators', list()) == validators_json: # no change pass else: new_options = self._options.copy() # make a copy new_options.update({'validators': validators_json}) validate(new_options, options_json_schema) self._options = new_options @property def is_valid(self) -> Optional[bool]: """Determine if the value in the property is valid. If the value of the property is validated as 'valid', than returns a True, otherwise a False. When no validators are configured, returns a None. It checks against all configured validators and returns a single boolean outcome. :returns: True when the `value` is valid :rtype: bool or None """ if not self._validators: return None else: self.validate(reason=False) if all([vr is None for vr in self._validation_results]): return None else: return all(self._validation_results) @property def is_invalid(self) -> Optional[bool]: """Determine if the value in the property is invalid. If the value of the property is validated as 'invalid', than returns a True, otherwise a False. When no validators are configured, returns a None. It checks against all configured validators and returns a single boolean outcome. :returns: True when the `value` is invalid :rtype: bool """ return not self.is_valid if self.is_valid is not None else None def validate(self, reason: bool = True) -> List[Union[bool, Tuple]]: """Return the validation results and include an (optional) reason. If reason keyword is true, the validation is returned for each validation the [(, ), ...]. If reason is False, only a single list of validation results for each configured validator is returned. :param reason: (optional) switch to indicate if the reason of the validation should be provided :type reason: bool :return: list of validation results [bool, bool, ...] or a list of validation results, reasons [(bool, str), ...] :rtype: list(bool) or list((bool, str)) :raises Exception: for incorrect validators or incompatible values """ self._validation_results = [validator.is_valid(self._value) for validator in self._validators] self._validation_reasons = [validator.get_reason() for validator in self._validators] if reason: return list(zip(self._validation_results, self._validation_reasons)) else: return self._validation_results @property def representations(self): """Get and set the property representations.""" return self._representations_container.get_representations() @representations.setter def representations(self, value): if self.category != Category.MODEL: raise IllegalArgumentError("To update the list of representations, it can only work on a " "`Property` of category '{}'".format(Category.MODEL)) self._representations_container.set_representations(value) def _save_representations(self, representation_options): self._options.update({'representations': representation_options}) self.edit(options=self._options) @classmethod def create(cls, json: dict, **kwargs) -> 'AnyProperty': """Create a property based on the json data. This method will attach the right class to a property, enabling the use of type-specific methods. It does not create a property object in KE-chain. But a pseudo :class:`Property` object. :param json: the json from which the :class:`Property` object to create :type json: dict :return: a :class:`Property` object """ property_type = json.get('property_type') from pykechain.models import property_type_to_class_map # Get specific Property subclass, defaulting to Property itself property_class = property_type_to_class_map.get(property_type, Property) # Call constructor and return new object return property_class(json, **kwargs) def edit( self, name: Optional[Text] = empty, description: Optional[Text] = empty, unit: Optional[Text] = empty, options: Optional[Dict] = empty, **kwargs ) -> None: """Edit the details of a property (model). Setting an input to None will clear out the value (exception being name). :param name: (optional) new name of the property to edit. Cannot be cleared. :type name: basestring or None or Empty :param description: (optional) new description of the property. Can be cleared. :type description: basestring or None or Empty :param unit: (optional) new unit of the property. Can be cleared. :type unit: basestring or None or Empty :param options: (options) new options of the property. Can be cleared. :type options: dict or None or Empty :param kwargs: (optional) additional kwargs to be edited :return: None :raises APIError: When unable to edit the property :raises IllegalArgumentError: when the type of the input is provided incorrect. Examples -------- >>> front_fork = project.part('Front Fork') >>> color_property = front_fork.property(name='Color') >>> color_property.edit(name='Shade',description='Could also be called tint, depending on mixture',unit='RGB') >>> wheel_property_reference = self.project.model('Bike').property('Reference wheel') >>> wheel_model = self.project.model('Wheel') >>> diameter_property = wheel_model.property('Diameter') >>> spokes_property = wheel_model.property('Spokes') >>> prefilters = {'property_value': diameter_property.id + ":{}:lte".format(15)} >>> propmodels_excl = [spokes_property.id] >>> options = dict() >>> options['prefilters'] = prefilters >>> options['propmodels_excl'] = propmodels_excl >>> wheel_property_reference.edit(options=options) Not mentioning an input parameter in the function will leave it unchanged. Setting a parameter as None will clear its value (where that is possible). The example below will clear the description, but leave everything else unchanged. >>> wheel_property.edit(description=None) """ update_dict = { 'name': check_text(name, 'name') or self.name, 'description': check_text(description, 'description') or str(), 'unit': check_text(unit, 'unit') or str(), 'value_options': check_type(options, dict, 'options') or dict() } if kwargs: # pragma: no cover update_dict.update(kwargs) update_dict = clean_empty_values(update_dict=update_dict) if self.use_bulk_update: self._pend_update(data=update_dict) else: update_dict["id"] = self.id response = self._client._request( 'PUT', self._client._build_url('property', property_id=self.id), params=API_EXTRA_PARAMS['property'], json=update_dict ) if response.status_code != requests.codes.ok: # pragma: no cover raise APIError("Could not update Property {}".format(self), response=response) self.refresh(json=response.json()['results'][0]) def delete(self) -> None: """Delete this property. :return: None :raises APIError: if delete was not successful """ response = self._client._request('DELETE', self._client._build_url('property', property_id=self.id)) if response.status_code != requests.codes.no_content: # pragma: no cover raise APIError("Could not delete Property {}".format(self), response=response) def copy(self, target_part: 'Part', name: Optional[Text] = None) -> 'Property': """Copy a property model or instance. :param target_part: `Part` object under which the desired `Property` is copied :type target_part: :class:`Part` :param name: how the copied `Property` should be called :type name: basestring :return: copied :class:`Property` model. :raises IllegalArgumentError: if property and target_part have different `Category` Example ------- >>> property_to_copy = client.property(name='Diameter') >>> bike = client.model('Bike') >>> property_to_copy.copy(target_part=bike, name='Bike diameter?') """ from pykechain.models import Part check_type(target_part, Part, 'target_part') name = check_text(name, 'name') or self.name if self.category == Category.MODEL and target_part.category == Category.MODEL: # Cannot move a `Property` model under a `Part` instance or vice versa copied_property_model = target_part.add_property(name=name, property_type=self.type, description=self.description, unit=self.unit, default_value=self.value, options=self._options ) return copied_property_model elif self.category == Category.INSTANCE and target_part.category == Category.INSTANCE: target_model = target_part.model() self_model = self.model() target_model.add_property(name=name, property_type=self_model.type, description=self_model.description, unit=self_model.unit, default_value=self_model.value, options=self_model._options ) target_part.refresh() copied_property_instance = target_part.property(name=name) copied_property_instance.value = self.value return copied_property_instance else: raise IllegalArgumentError('property "{}" and target part "{}" must have the same category'. format(self.name, target_part.name)) def move(self, target_part: 'Part', name: Optional[Text] = None) -> 'Property': """Move a property model or instance. :param target_part: `Part` object under which the desired `Property` is moved :type target_part: :class:`Part` :param name: how the moved `Property` should be called :type name: basestring :return: copied :class:`Property` model. :raises IllegalArgumentError: if property and target_part have different `Category` Example ------- >>> property_to_move = client.property(name='Diameter') >>> bike = client.model('Bike') >>> property_to_move.move(target_part=bike, name='Bike diameter?') """ moved_property = self.copy(target_part=target_part, name=name) if self.category == Category.MODEL: self.delete() else: self.model().delete() return moved_property from __future__ import absolute_import from datetime import timedelta from django.utils import timezone from rest_framework.response import Response from sentry.api.bases.team import TeamEndpoint from sentry.api.serializers import serialize from sentry.models import Group, GroupStatus, Project class TeamGroupsNewEndpoint(TeamEndpoint): def get(self, request, team): """ Return a list of the newest groups for a given team. The resulting query will find groups which have been seen since the cutoff date, and then sort those by score, returning the highest scoring groups first. """ minutes = int(request.REQUEST.get('minutes', 15)) limit = min(100, int(request.REQUEST.get('limit', 10))) project_list = Project.objects.get_for_user(user=request.user, team=team) project_dict = dict((p.id, p) for p in project_list) cutoff = timedelta(minutes=minutes) cutoff_dt = timezone.now() - cutoff group_list = list(Group.objects.filter( project__in=project_dict.keys(), status=GroupStatus.UNRESOLVED, active_at__gte=cutoff_dt, ).extra( select={'sort_value': 'score'}, ).order_by('-score', '-first_seen')[:limit]) for group in group_list: group._project_cache = project_dict.get(group.project_id) return Response(serialize(group_list, request.user)) # (c) 2012-2014, Michael DeHaan # # This file is part of Ansible # # Ansible is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Ansible is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Ansible. If not, see . # Make coding more python3-ish from __future__ import (absolute_import, division, print_function) __metaclass__ = type import multiprocessing import os import tempfile from ansible import constants as C from ansible.errors import AnsibleError from ansible.executor.play_iterator import PlayIterator from ansible.executor.stats import AggregateStats from ansible.module_utils.six import string_types from ansible.module_utils._text import to_text from ansible.playbook.block import Block from ansible.playbook.play_context import PlayContext from ansible.plugins import callback_loader, strategy_loader, module_loader from ansible.plugins.callback import CallbackBase from ansible.template import Templar from ansible.utils.helpers import pct_to_int from ansible.vars.hostvars import HostVars from ansible.vars.reserved import warn_if_reserved try: from __main__ import display except ImportError: from ansible.utils.display import Display display = Display() __all__ = ['TaskQueueManager'] class TaskQueueManager: ''' This class handles the multiprocessing requirements of Ansible by creating a pool of worker forks, a result handler fork, and a manager object with shared datastructures/queues for coordinating work between all processes. The queue manager is responsible for loading the play strategy plugin, which dispatches the Play's tasks to hosts. ''' RUN_OK = 0 RUN_ERROR = 1 RUN_FAILED_HOSTS = 2 RUN_UNREACHABLE_HOSTS = 4 RUN_FAILED_BREAK_PLAY = 8 RUN_UNKNOWN_ERROR = 255 def __init__(self, inventory, variable_manager, loader, options, passwords, stdout_callback=None, run_additional_callbacks=True, run_tree=False): self._inventory = inventory self._variable_manager = variable_manager self._loader = loader self._options = options self._stats = AggregateStats() self.passwords = passwords self._stdout_callback = stdout_callback self._run_additional_callbacks = run_additional_callbacks self._run_tree = run_tree self._callbacks_loaded = False self._callback_plugins = [] self._start_at_done = False # make sure the module path (if specified) is parsed and # added to the module_loader object if options.module_path is not None: for path in options.module_path.split(os.pathsep): module_loader.add_directory(path) # a special flag to help us exit cleanly self._terminated = False # this dictionary is used to keep track of notified handlers self._notified_handlers = dict() self._listening_handlers = dict() # dictionaries to keep track of failed/unreachable hosts self._failed_hosts = dict() self._unreachable_hosts = dict() self._final_q = multiprocessing.Queue() # A temporary file (opened pre-fork) used by connection # plugins for inter-process locking. self._connection_lockfile = tempfile.TemporaryFile() def _initialize_processes(self, num): self._workers = [] for i in range(num): rslt_q = multiprocessing.Queue() self._workers.append([None, rslt_q]) def _initialize_notified_handlers(self, play): ''' Clears and initializes the shared notified handlers dict with entries for each handler in the play, which is an empty array that will contain inventory hostnames for those hosts triggering the handler. ''' # Zero the dictionary first by removing any entries there. # Proxied dicts don't support iteritems, so we have to use keys() self._notified_handlers.clear() self._listening_handlers.clear() def _process_block(b): temp_list = [] for t in b.block: if isinstance(t, Block): temp_list.extend(_process_block(t)) else: temp_list.append(t) return temp_list handler_list = [] for handler_block in play.handlers: handler_list.extend(_process_block(handler_block)) # then initialize it with the given handler list for handler in handler_list: if handler._uuid not in self._notified_handlers: self._notified_handlers[handler._uuid] = [] if handler.listen: listeners = handler.listen if not isinstance(listeners, list): listeners = [ listeners ] for listener in listeners: if listener not in self._listening_handlers: self._listening_handlers[listener] = [] self._listening_handlers[listener].append(handler._uuid) def load_callbacks(self): ''' Loads all available callbacks, with the exception of those which utilize the CALLBACK_TYPE option. When CALLBACK_TYPE is set to 'stdout', only one such callback plugin will be loaded. ''' if self._callbacks_loaded: return stdout_callback_loaded = False if self._stdout_callback is None: self._stdout_callback = C.DEFAULT_STDOUT_CALLBACK if isinstance(self._stdout_callback, CallbackBase): stdout_callback_loaded = True elif isinstance(self._stdout_callback, string_types): if self._stdout_callback not in callback_loader: raise AnsibleError("Invalid callback for stdout specified: %s" % self._stdout_callback) else: self._stdout_callback = callback_loader.get(self._stdout_callback) stdout_callback_loaded = True else: raise AnsibleError("callback must be an instance of CallbackBase or the name of a callback plugin") for callback_plugin in callback_loader.all(class_only=True): if hasattr(callback_plugin, 'CALLBACK_VERSION') and callback_plugin.CALLBACK_VERSION >= 2.0: # we only allow one callback of type 'stdout' to be loaded, so check # the name of the current plugin and type to see if we need to skip # loading this callback plugin callback_type = getattr(callback_plugin, 'CALLBACK_TYPE', None) callback_needs_whitelist = getattr(callback_plugin, 'CALLBACK_NEEDS_WHITELIST', False) (callback_name, _) = os.path.splitext(os.path.basename(callback_plugin._original_path)) if callback_type == 'stdout': if callback_name != self._stdout_callback or stdout_callback_loaded: continue stdout_callback_loaded = True elif callback_name == 'tree' and self._run_tree: pass elif not self._run_additional_callbacks or (callback_needs_whitelist and ( C.DEFAULT_CALLBACK_WHITELIST is None or callback_name not in C.DEFAULT_CALLBACK_WHITELIST)): continue self._callback_plugins.append(callback_plugin()) self._callbacks_loaded = True def run(self, play): ''' Iterates over the roles/tasks in a play, using the given (or default) strategy for queueing tasks. The default is the linear strategy, which operates like classic Ansible by keeping all hosts in lock-step with a given task (meaning no hosts move on to the next task until all hosts are done with the current task). ''' if not self._callbacks_loaded: self.load_callbacks() all_vars = self._variable_manager.get_vars(loader=self._loader, play=play) warn_if_reserved(all_vars) templar = Templar(loader=self._loader, variables=all_vars) new_play = play.copy() new_play.post_validate(templar) new_play.handlers = new_play.compile_roles_handlers() + new_play.handlers self.hostvars = HostVars( inventory=self._inventory, variable_manager=self._variable_manager, loader=self._loader, ) # Fork # of forks, # of hosts or serial, whichever is lowest num_hosts = len(self._inventory.get_hosts(new_play.hosts, ignore_restrictions=True)) max_serial = 0 if new_play.serial: # the play has not been post_validated here, so we may need # to convert the scalar value to a list at this point serial_items = new_play.serial if not isinstance(serial_items, list): serial_items = [serial_items] max_serial = max([pct_to_int(x, num_hosts) for x in serial_items]) contenders = [self._options.forks, max_serial, num_hosts] contenders = [v for v in contenders if v is not None and v > 0] self._initialize_processes(min(contenders)) play_context = PlayContext(new_play, self._options, self.passwords, self._connection_lockfile.fileno()) for callback_plugin in self._callback_plugins: if hasattr(callback_plugin, 'set_play_context'): callback_plugin.set_play_context(play_context) self.send_callback('v2_playbook_on_play_start', new_play) # initialize the shared dictionary containing the notified handlers self._initialize_notified_handlers(new_play) # load the specified strategy (or the default linear one) strategy = strategy_loader.get(new_play.strategy, self) if strategy is None: raise AnsibleError("Invalid play strategy specified: %s" % new_play.strategy, obj=play._ds) # build the iterator iterator = PlayIterator( inventory=self._inventory, play=new_play, play_context=play_context, variable_manager=self._variable_manager, all_vars=all_vars, start_at_done = self._start_at_done, ) # Because the TQM may survive multiple play runs, we start by marking # any hosts as failed in the iterator here which may have been marked # as failed in previous runs. Then we clear the internal list of failed # hosts so we know what failed this round. for host_name in self._failed_hosts.keys(): host = self._inventory.get_host(host_name) iterator.mark_host_failed(host) self.clear_failed_hosts() # during initialization, the PlayContext will clear the start_at_task # field to signal that a matching task was found, so check that here # and remember it so we don't try to skip tasks on future plays if getattr(self._options, 'start_at_task', None) is not None and play_context.start_at_task is None: self._start_at_done = True # and run the play using the strategy and cleanup on way out play_return = strategy.run(iterator, play_context) # now re-save the hosts that failed from the iterator to our internal list for host_name in iterator.get_failed_hosts(): self._failed_hosts[host_name] = True strategy.cleanup() self._cleanup_processes() return play_return def cleanup(self): display.debug("RUNNING CLEANUP") self.terminate() self._final_q.close() self._cleanup_processes() def _cleanup_processes(self): if hasattr(self, '_workers'): for (worker_prc, rslt_q) in self._workers: rslt_q.close() if worker_prc and worker_prc.is_alive(): try: worker_prc.terminate() except AttributeError: pass def clear_failed_hosts(self): self._failed_hosts = dict() def get_inventory(self): return self._inventory def get_variable_manager(self): return self._variable_manager def get_loader(self): return self._loader def get_workers(self): return self._workers[:] def terminate(self): self._terminated = True def has_dead_workers(self): # [, # defunct = False for idx,x in enumerate(self._workers): if hasattr(x[0], 'exitcode'): if x[0].exitcode in [-9, -11, -15]: defunct = True return defunct def send_callback(self, method_name, *args, **kwargs): for callback_plugin in [self._stdout_callback] + self._callback_plugins: # a plugin that set self.disabled to True will not be called # see osx_say.py example for such a plugin if getattr(callback_plugin, 'disabled', False): continue # try to find v2 method, fallback to v1 method, ignore callback if no method found methods = [] for possible in [method_name, 'v2_on_any']: gotit = getattr(callback_plugin, possible, None) if gotit is None: gotit = getattr(callback_plugin, possible.replace('v2_',''), None) if gotit is not None: methods.append(gotit) for method in methods: try: method(*args, **kwargs) except Exception as e: # TODO: add config toggle to make this fatal or not? display.warning(u"Failure using method (%s) in callback plugin (%s): %s" % (to_text(method_name), to_text(callback_plugin), to_text(e))) from traceback import format_tb from sys import exc_info display.debug('Callback Exception: \n' + ' '.join(format_tb(exc_info()[2]))) from jsonrpc import ServiceProxy import sys import string # ===== BEGIN USER SETTINGS ===== # if you do not set these you will be prompted for a password for every command rpcuser = "" rpcpass = "" # ====== END USER SETTINGS ====== if rpcpass == "": access = ServiceProxy("http://127.0.0.1:9332") else: access = ServiceProxy("http://"+rpcuser+":"+rpcpass+"@127.0.0.1:9332") cmd = sys.argv[1].lower() if cmd == "backupwallet": try: path = raw_input("Enter destination path/filename: ") print access.backupwallet(path) except: print "\n---An error occurred---\n" elif cmd == "getaccount": try: addr = raw_input("Enter a Litecoin address: ") print access.getaccount(addr) except: print "\n---An error occurred---\n" elif cmd == "getaccountaddress": try: acct = raw_input("Enter an account name: ") print access.getaccountaddress(acct) except: print "\n---An error occurred---\n" elif cmd == "getaddressesbyaccount": try: acct = raw_input("Enter an account name: ") print access.getaddressesbyaccount(acct) except: print "\n---An error occurred---\n" elif cmd == "getbalance": try: acct = raw_input("Enter an account (optional): ") mc = raw_input("Minimum confirmations (optional): ") try: print access.getbalance(acct, mc) except: print access.getbalance() except: print "\n---An error occurred---\n" elif cmd == "getblockbycount": try: height = raw_input("Height: ") print access.getblockbycount(height) except: print "\n---An error occurred---\n" elif cmd == "getblockcount": try: print access.getblockcount() except: print "\n---An error occurred---\n" elif cmd == "getblocknumber": try: print access.getblocknumber() except: print "\n---An error occurred---\n" elif cmd == "getconnectioncount": try: print access.getconnectioncount() except: print "\n---An error occurred---\n" elif cmd == "getdifficulty": try: print access.getdifficulty() except: print "\n---An error occurred---\n" elif cmd == "getgenerate": try: print access.getgenerate() except: print "\n---An error occurred---\n" elif cmd == "gethashespersec": try: print access.gethashespersec() except: print "\n---An error occurred---\n" elif cmd == "getinfo": try: print access.getinfo() except: print "\n---An error occurred---\n" elif cmd == "getnewaddress": try: acct = raw_input("Enter an account name: ") try: print access.getnewaddress(acct) except: print access.getnewaddress() except: print "\n---An error occurred---\n" elif cmd == "getreceivedbyaccount": try: acct = raw_input("Enter an account (optional): ") mc = raw_input("Minimum confirmations (optional): ") try: print access.getreceivedbyaccount(acct, mc) except: print access.getreceivedbyaccount() except: print "\n---An error occurred---\n" elif cmd == "getreceivedbyaddress": try: addr = raw_input("Enter a Litecoin address (optional): ") mc = raw_input("Minimum confirmations (optional): ") try: print access.getreceivedbyaddress(addr, mc) except: print access.getreceivedbyaddress() except: print "\n---An error occurred---\n" elif cmd == "gettransaction": try: txid = raw_input("Enter a transaction ID: ") print access.gettransaction(txid) except: print "\n---An error occurred---\n" elif cmd == "getwork": try: data = raw_input("Data (optional): ") try: print access.gettransaction(data) except: print access.gettransaction() except: print "\n---An error occurred---\n" elif cmd == "help": try: cmd = raw_input("Command (optional): ") try: print access.help(cmd) except: print access.help() except: print "\n---An error occurred---\n" elif cmd == "listaccounts": try: mc = raw_input("Minimum confirmations (optional): ") try: print access.listaccounts(mc) except: print access.listaccounts() except: print "\n---An error occurred---\n" elif cmd == "listreceivedbyaccount": try: mc = raw_input("Minimum confirmations (optional): ") incemp = raw_input("Include empty? (true/false, optional): ") try: print access.listreceivedbyaccount(mc, incemp) except: print access.listreceivedbyaccount() except: print "\n---An error occurred---\n" elif cmd == "listreceivedbyaddress": try: mc = raw_input("Minimum confirmations (optional): ") incemp = raw_input("Include empty? (true/false, optional): ") try: print access.listreceivedbyaddress(mc, incemp) except: print access.listreceivedbyaddress() except: print "\n---An error occurred---\n" elif cmd == "listtransactions": try: acct = raw_input("Account (optional): ") count = raw_input("Number of transactions (optional): ") frm = raw_input("Skip (optional):") try: print access.listtransactions(acct, count, frm) except: print access.listtransactions() except: print "\n---An error occurred---\n" elif cmd == "move": try: frm = raw_input("From: ") to = raw_input("To: ") amt = raw_input("Amount:") mc = raw_input("Minimum confirmations (optional): ") comment = raw_input("Comment (optional): ") try: print access.move(frm, to, amt, mc, comment) except: print access.move(frm, to, amt) except: print "\n---An error occurred---\n" elif cmd == "sendfrom": try: frm = raw_input("From: ") to = raw_input("To: ") amt = raw_input("Amount:") mc = raw_input("Minimum confirmations (optional): ") comment = raw_input("Comment (optional): ") commentto = raw_input("Comment-to (optional): ") try: print access.sendfrom(frm, to, amt, mc, comment, commentto) except: print access.sendfrom(frm, to, amt) except: print "\n---An error occurred---\n" elif cmd == "sendmany": try: frm = raw_input("From: ") to = raw_input("To (in format address1:amount1,address2:amount2,...): ") mc = raw_input("Minimum confirmations (optional): ") comment = raw_input("Comment (optional): ") try: print access.sendmany(frm,to,mc,comment) except: print access.sendmany(frm,to) except: print "\n---An error occurred---\n" elif cmd == "sendtoaddress": try: to = raw_input("To (in format address1:amount1,address2:amount2,...): ") amt = raw_input("Amount:") comment = raw_input("Comment (optional): ") commentto = raw_input("Comment-to (optional): ") try: print access.sendtoaddress(to,amt,comment,commentto) except: print access.sendtoaddress(to,amt) except: print "\n---An error occurred---\n" elif cmd == "setaccount": try: addr = raw_input("Address: ") acct = raw_input("Account:") print access.setaccount(addr,acct) except: print "\n---An error occurred---\n" elif cmd == "setgenerate": try: gen= raw_input("Generate? (true/false): ") cpus = raw_input("Max processors/cores (-1 for unlimited, optional):") try: print access.setgenerate(gen, cpus) except: print access.setgenerate(gen) except: print "\n---An error occurred---\n" elif cmd == "settxfee": try: amt = raw_input("Amount:") print access.settxfee(amt) except: print "\n---An error occurred---\n" elif cmd == "stop": try: print access.stop() except: print "\n---An error occurred---\n" elif cmd == "validateaddress": try: addr = raw_input("Address: ") print access.validateaddress(addr) except: print "\n---An error occurred---\n" elif cmd == "walletpassphrase": try: pwd = raw_input("Enter wallet passphrase: ") access.walletpassphrase(pwd, 60) print "\n---Wallet unlocked---\n" except: print "\n---An error occurred---\n" elif cmd == "walletpassphrasechange": try: pwd = raw_input("Enter old wallet passphrase: ") pwd2 = raw_input("Enter new wallet passphrase: ") access.walletpassphrasechange(pwd, pwd2) print print "\n---Passphrase changed---\n" except: print print "\n---An error occurred---\n" print else: print "Command not found or not supported" ############################################################################### # # Tests for XlsxWriter. # # Copyright (c), 2013-2016, John McNamara, jmcnamara@cpan.org # from ..excel_comparsion_test import ExcelComparisonTest from ...workbook import Workbook class TestCompareXLSXFiles(ExcelComparisonTest): """ Test file created by XlsxWriter against a file created by Excel. """ def setUp(self): self.maxDiff = None filename = 'chart_format08.xlsx' test_dir = 'xlsxwriter/test/comparison/' self.got_filename = test_dir + '_test_' + filename self.exp_filename = test_dir + 'xlsx_files/' + filename self.ignore_files = [] self.ignore_elements = {} def test_create_file(self): """Test the creation of an XlsxWriter file with chart formatting.""" workbook = Workbook(self.got_filename) worksheet = workbook.add_worksheet() chart = workbook.add_chart({'type': 'line'}) chart.axis_ids = [46164608, 46176128] data = [ [1, 2, 3, 4, 5], [2, 4, 6, 8, 10], [3, 6, 9, 12, 15], ] worksheet.write_column('A1', data[0]) worksheet.write_column('B1', data[1]) worksheet.write_column('C1', data[2]) chart.add_series({ 'categories': '=Sheet1!$A$1:$A$5', 'values': '=Sheet1!$B$1:$B$5', 'trendline': {'type': 'linear'}, }) chart.add_series({ 'categories': '=Sheet1!$A$1:$A$5', 'values': '=Sheet1!$C$1:$C$5', }) worksheet.insert_chart('E9', chart) workbook.close() self.assertExcelEqual() # -*- coding: utf-8 -*- # http://www.statoids.com/upy.html from __future__ import unicode_literals DEPARTMENT_CHOICES = ( ('AG', 'Alto Paraguay'), ('AA', 'Alto Paraná'), ('AM', 'Amambay'), ('AS', 'Asunción'), ('BQ', 'Boquerón'), ('CG', 'Caaguazú'), ('CZ', 'Caazapá'), ('CY', 'Canindeyú'), ('CE', 'Central'), ('CN', 'Concepción'), ('CR', 'Cordillera'), ('GU', 'Guairá'), ('IT', 'Itapúa'), ('MI', 'Misiones'), ('NE', 'Ñeembucú'), ('PG', 'Paraguarí'), ('PH', 'Pdte. Hayes'), ('SP', 'San Pedro'), ) DEPARTMENT_ROMAN_CHOICES = ( ('CN', 'I Concepción'), ('SP', 'II San Pedro'), ('CR', 'III Cordillera'), ('GU', 'IV Guairá'), ('CG', 'V Caaguazú'), ('CZ', 'VI Caazapá'), ('IT', 'VII Itapúa'), ('MI', 'VIII Misiones'), ('PG', 'IX Paraguarí'), ('AA', 'X Alto Paraná'), ('CE', 'XI Central'), ('NE', 'XII Ñeembucú'), ('AM', 'XIII Amambay'), ('CY', 'XIV Canindeyú'), ('PH', 'XV Pdte. Hayes'), ('AG', 'XVI Alto Paraguay'), ('BQ', 'XVII Boquerón'), ('AS', 'XVIII Asunción'), ) # coding: utf-8 from django.conf import settings from django.test import TestCase from django.core.urlresolvers import reverse from zds.utils import slugify from zds.forum.factories import CategoryFactory, ForumFactory, \ TopicFactory, PostFactory from zds.member.factories import ProfileFactory, StaffProfileFactory from zds.utils.models import CommentLike, CommentDislike, Alert from django.core import mail from .models import Post, Topic, TopicFollowed, TopicRead class ForumMemberTests(TestCase): def setUp(self): settings.EMAIL_BACKEND = \ 'django.core.mail.backends.locmem.EmailBackend' self.category1 = CategoryFactory(position=1) self.category2 = CategoryFactory(position=2) self.category3 = CategoryFactory(position=3) self.forum11 = ForumFactory( category=self.category1, position_in_category=1) self.forum12 = ForumFactory( category=self.category1, position_in_category=2) self.forum13 = ForumFactory( category=self.category1, position_in_category=3) self.forum21 = ForumFactory( category=self.category2, position_in_category=1) self.forum22 = ForumFactory( category=self.category2, position_in_category=2) self.user = ProfileFactory().user self.user2 = ProfileFactory().user log = self.client.login( username=self.user.username, password='hostel77') self.assertEqual(log, True) def test_display(self): """Test forum display (full: root, category, forum) Topic display test is in creation topic test.""" # Forum root response = self.client.get(reverse('zds.forum.views.index')) self.assertContains(response, 'Liste des forums') # Category response = self.client.get( reverse( 'zds.forum.views.cat_details', args=[ self.category1.slug])) self.assertContains(response, self.category1.title) # Forum response = self.client.get( reverse( 'zds.forum.views.details', args=[ self.category1.slug, self.forum11.slug])) self.assertContains(response, self.category1.title) self.assertContains(response, self.forum11.title) def test_create_topic(self): """To test all aspects of topic's creation by member.""" result = self.client.post( reverse('zds.forum.views.new') + '?forum={0}' .format(self.forum12.pk), {'title': u'Un autre sujet', 'subtitle': u'Encore ces lombards en plein ete', 'text': u'C\'est tout simplement l\'histoire de la ville de Paris que je voudrais vous conter ' }, follow=False) self.assertEqual(result.status_code, 302) # check topic's number self.assertEqual(Topic.objects.all().count(), 1) topic = Topic.objects.get(pk=1) # check post's number self.assertEqual(Post.objects.all().count(), 1) post = Post.objects.get(pk=1) # check topic and post self.assertEqual(post.topic, topic) # check position self.assertEqual(post.position, 1) self.assertEqual(post.author, self.user) self.assertEqual(post.editor, None) self.assertNotEqual(post.ip_address, None) self.assertNotEqual(post.text_html, None) self.assertEqual(post.like, 0) self.assertEqual(post.dislike, 0) self.assertEqual(post.is_visible, True) # check last message self.assertEqual(topic.last_message, post) # Check view response = self.client.get(topic.get_absolute_url()) self.assertContains(response, self.category1.title) self.assertContains(response, self.forum11.title) self.assertContains(response, topic.title) self.assertContains(response, topic.subtitle) def test_answer(self): """To test all aspects of answer.""" user1 = ProfileFactory().user user2 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) post1 = PostFactory(topic=topic1, author=self.user, position=1) post2 = PostFactory(topic=topic1, author=self.user, position=2) post3 = PostFactory(topic=topic1, author=user1, position=3) TopicRead(topic=topic1, user=user1, post=post3).save() TopicRead(topic=topic1, user=user2, post=post3).save() TopicRead(topic=topic1, user=self.user, post=post3).save() TopicFollowed(topic=topic1, user=user1, email=True).save() TopicFollowed(topic=topic1, user=user2, email=True).save() TopicFollowed(topic=topic1, user=self.user, email=True).save() result = self.client.post( reverse('zds.forum.views.answer') + '?sujet={0}'.format(topic1.pk), { 'last_post': topic1.last_message.pk, 'text': u'C\'est tout simplement l\'histoire de la ville de Paris que je voudrais vous conter ' }, follow=False) self.assertEqual(result.status_code, 302) self.assertEquals(len(mail.outbox), 2) # check topic's number self.assertEqual(Topic.objects.all().count(), 1) # check post's number self.assertEqual(Post.objects.all().count(), 4) # check topic and post self.assertEqual(post1.topic, topic1) self.assertEqual(post2.topic, topic1) self.assertEqual(post3.topic, topic1) # check values self.assertEqual(Post.objects.get(pk=4).topic, topic1) self.assertEqual(Post.objects.get(pk=4).position, 4) self.assertEqual(Post.objects.get(pk=4).editor, None) self.assertEqual( Post.objects.get( pk=4).text, u'C\'est tout simplement l\'histoire de la ville de Paris que je voudrais vous conter ') def test_edit_main_post(self): """To test all aspects of the edition of main post by member.""" topic1 = TopicFactory(forum=self.forum11, author=self.user) post1 = PostFactory(topic=topic1, author=self.user, position=1) topic2 = TopicFactory(forum=self.forum12, author=self.user) post2 = PostFactory(topic=topic2, author=self.user, position=1) topic3 = TopicFactory(forum=self.forum21, author=self.user) post3 = PostFactory(topic=topic3, author=self.user, position=1) result = self.client.post( reverse('zds.forum.views.edit_post') + '?message={0}' .format(post1.pk), {'title': u'Un autre sujet', 'subtitle': u'Encore ces lombards en plein été', 'text': u'C\'est tout simplement l\'histoire de la ville de Paris que je voudrais vous conter ' }, follow=False) self.assertEqual(result.status_code, 302) # check topic's number self.assertEqual(Topic.objects.all().count(), 3) # check post's number self.assertEqual(Post.objects.all().count(), 3) # check topic and post self.assertEqual(post1.topic, topic1) self.assertEqual(post2.topic, topic2) self.assertEqual(post3.topic, topic3) # check values self.assertEqual( Topic.objects.get( pk=topic1.pk).title, u'Un autre sujet') self.assertEqual( Topic.objects.get( pk=topic1.pk).subtitle, u'Encore ces lombards en plein été') self.assertEqual( Post.objects.get( pk=post1.pk).text, u'C\'est tout simplement l\'histoire de la ville de Paris que je voudrais vous conter ') # check edit data self.assertEqual(Post.objects.get(pk=post1.pk).editor, self.user) def test_edit_post(self): """To test all aspects of the edition of simple post by member.""" topic1 = TopicFactory(forum=self.forum11, author=self.user) post1 = PostFactory(topic=topic1, author=self.user, position=1) post2 = PostFactory(topic=topic1, author=self.user, position=2) post3 = PostFactory(topic=topic1, author=self.user, position=3) result = self.client.post( reverse('zds.forum.views.edit_post') + '?message={0}' .format(post2.pk), { 'text': u'C\'est tout simplement l\'histoire de la ville de Paris que je voudrais vous conter ' }, follow=False) self.assertEqual(result.status_code, 302) # check topic's number self.assertEqual(Topic.objects.all().count(), 1) # check post's number self.assertEqual(Post.objects.all().count(), 3) # check topic and post self.assertEqual(post1.topic, topic1) self.assertEqual(post2.topic, topic1) self.assertEqual(post3.topic, topic1) # check values self.assertEqual( Post.objects.get( pk=post2.pk).text, u'C\'est tout simplement l\'histoire de la ville de Paris que je voudrais vous conter ') # check edit data self.assertEqual(Post.objects.get(pk=post2.pk).editor, self.user) def test_quote_post(self): """To test when a member quote anyone post.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) PostFactory(topic=topic1, author=self.user, position=1) post2 = PostFactory(topic=topic1, author=user1, position=2) PostFactory(topic=topic1, author=user1, position=3) result = self.client.get( reverse('zds.forum.views.answer') + '?sujet={0}&cite={0}'.format( topic1.pk, post2.pk), follow=True) self.assertEqual(result.status_code, 200) def test_signal_post(self): """To test when a member quote anyone post.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) PostFactory(topic=topic1, author=self.user, position=1) post2 = PostFactory(topic=topic1, author=user1, position=2) PostFactory(topic=topic1, author=user1, position=3) result = self.client.post( reverse('zds.forum.views.edit_post') + '?message={0}'.format(post2.pk), { 'signal_text': u'Troll', 'signal_message': 'confirmer' }, follow=False) self.assertEqual(result.status_code, 302) self.assertEqual(Alert.objects.all().count(), 1) self.assertEqual(Alert.objects.filter(author=self.user).count(), 1) self.assertEqual(Alert.objects.get(author=self.user).text, u'Troll') def test_like_post(self): """Test when a member like any post.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) post1 = PostFactory(topic=topic1, author=self.user, position=1) post2 = PostFactory(topic=topic1, author=user1, position=2) post3 = PostFactory(topic=topic1, author=self.user, position=3) result = self.client.get( reverse('zds.forum.views.like_post') + '?message={0}'.format( post2.pk), follow=False) self.assertEqual(result.status_code, 302) self.assertEqual(CommentLike.objects.all().count(), 1) self.assertEqual(Post.objects.get(pk=post1.pk).like, 0) self.assertEqual(Post.objects.get(pk=post2.pk).like, 1) self.assertEqual(Post.objects.get(pk=post3.pk).like, 0) self.assertEqual(Post.objects.get(pk=post1.pk).dislike, 0) self.assertEqual(Post.objects.get(pk=post2.pk).dislike, 0) self.assertEqual(Post.objects.get(pk=post3.pk).dislike, 0) self.assertEqual( CommentLike.objects.filter( comments__pk=post1.pk).all().count(), 0) self.assertEqual( CommentLike.objects.filter( comments__pk=post2.pk).all().count(), 1) self.assertEqual( CommentLike.objects.filter( comments__pk=post3.pk).all().count(), 0) result = self.client.get( reverse('zds.forum.views.like_post') + '?message={0}'.format( post1.pk), follow=False) self.assertEqual(result.status_code, 302) self.assertEqual(CommentLike.objects.all().count(), 1) self.assertEqual(Post.objects.get(pk=post1.pk).like, 0) self.assertEqual(Post.objects.get(pk=post2.pk).like, 1) self.assertEqual(Post.objects.get(pk=post3.pk).like, 0) self.assertEqual(Post.objects.get(pk=post1.pk).dislike, 0) self.assertEqual(Post.objects.get(pk=post2.pk).dislike, 0) self.assertEqual(Post.objects.get(pk=post3.pk).dislike, 0) self.assertEqual( CommentLike.objects.filter( comments__pk=post1.pk).all().count(), 0) self.assertEqual( CommentLike.objects.filter( comments__pk=post2.pk).all().count(), 1) self.assertEqual( CommentLike.objects.filter( comments__pk=post3.pk).all().count(), 0) def test_dislike_post(self): """Test when a member dislike any post.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) post1 = PostFactory(topic=topic1, author=self.user, position=1) post2 = PostFactory(topic=topic1, author=user1, position=2) post3 = PostFactory(topic=topic1, author=self.user, position=3) result = self.client.get( reverse('zds.forum.views.dislike_post') + '?message={0}'.format( post2.pk), follow=False) self.assertEqual(result.status_code, 302) self.assertEqual(CommentDislike.objects.all().count(), 1) self.assertEqual(Post.objects.get(pk=post1.pk).like, 0) self.assertEqual(Post.objects.get(pk=post2.pk).like, 0) self.assertEqual(Post.objects.get(pk=post3.pk).like, 0) self.assertEqual(Post.objects.get(pk=post1.pk).dislike, 0) self.assertEqual(Post.objects.get(pk=post2.pk).dislike, 1) self.assertEqual(Post.objects.get(pk=post3.pk).dislike, 0) self.assertEqual( CommentDislike.objects.filter( comments__pk=post1.pk).all().count(), 0) self.assertEqual( CommentDislike.objects.filter( comments__pk=post2.pk).all().count(), 1) self.assertEqual( CommentDislike.objects.filter( comments__pk=post3.pk).all().count(), 0) result = self.client.get( reverse('zds.forum.views.like_post') + '?message={0}'.format( post1.pk), follow=False) self.assertEqual(result.status_code, 302) self.assertEqual(CommentDislike.objects.all().count(), 1) self.assertEqual(Post.objects.get(pk=post1.pk).like, 0) self.assertEqual(Post.objects.get(pk=post2.pk).like, 0) self.assertEqual(Post.objects.get(pk=post3.pk).like, 0) self.assertEqual(Post.objects.get(pk=post1.pk).dislike, 0) self.assertEqual(Post.objects.get(pk=post2.pk).dislike, 1) self.assertEqual(Post.objects.get(pk=post3.pk).dislike, 0) self.assertEqual( CommentDislike.objects.filter( comments__pk=post1.pk).all().count(), 0) self.assertEqual( CommentDislike.objects.filter( comments__pk=post2.pk).all().count(), 1) self.assertEqual( CommentDislike.objects.filter( comments__pk=post3.pk).all().count(), 0) def test_useful_post(self): """To test when a member mark a post is usefull.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) post1 = PostFactory(topic=topic1, author=self.user, position=1) post2 = PostFactory(topic=topic1, author=user1, position=2) post3 = PostFactory(topic=topic1, author=user1, position=3) result = self.client.get( reverse('zds.forum.views.useful_post') + '?message={0}'.format( post2.pk), follow=False) self.assertEqual(result.status_code, 302) self.assertEqual(Post.objects.get(pk=post1.pk).is_useful, False) self.assertEqual(Post.objects.get(pk=post2.pk).is_useful, True) self.assertEqual(Post.objects.get(pk=post3.pk).is_useful, False) # useful the first post result = self.client.get( reverse('zds.forum.views.useful_post') + '?message={0}'.format( post1.pk), follow=False) self.assertEqual(result.status_code, 403) self.assertEqual(Post.objects.get(pk=post1.pk).is_useful, False) self.assertEqual(Post.objects.get(pk=post2.pk).is_useful, True) self.assertEqual(Post.objects.get(pk=post3.pk).is_useful, False) # useful if you aren't author TopicFactory(forum=self.forum11, author=user1) post4 = PostFactory(topic=topic1, author=user1, position=1) post5 = PostFactory(topic=topic1, author=self.user, position=2) result = self.client.get( reverse('zds.forum.views.useful_post') + '?message={0}'.format( post5.pk), follow=False) self.assertEqual(result.status_code, 403) self.assertEqual(Post.objects.get(pk=post4.pk).is_useful, False) self.assertEqual(Post.objects.get(pk=post5.pk).is_useful, False) # useful if you are staff StaffProfileFactory().user self.assertEqual(self.client.login( username=self.user.username, password='hostel77'), True) result = self.client.get( reverse('zds.forum.views.useful_post') + '?message={0}'.format( post4.pk), follow=False) self.assertNotEqual(result.status_code, 403) self.assertEqual(Post.objects.get(pk=post4.pk).is_useful, True) self.assertEqual(Post.objects.get(pk=post5.pk).is_useful, False) def test_move_topic(self): """Test topic move.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) PostFactory(topic=topic1, author=self.user, position=1) PostFactory(topic=topic1, author=user1, position=2) PostFactory(topic=topic1, author=self.user, position=3) # not staff member can't move topic result = self.client.post( reverse('zds.forum.views.move_topic') + '?sujet={0}'.format( topic1.pk), { 'forum': self.forum12}, follow=False) self.assertEqual(result.status_code, 403) # test with staff staff1 = StaffProfileFactory().user self.assertEqual( self.client.login( username=staff1.username, password='hostel77'), True) result = self.client.post( reverse('zds.forum.views.move_topic') + '?sujet={0}'.format( topic1.pk), { 'forum': self.forum12.pk}, follow=False) self.assertEqual(result.status_code, 302) # check value self.assertEqual( Topic.objects.get( pk=topic1.pk).forum.pk, self.forum12.pk) def test_answer_empty(self): """Test behaviour on empty answer.""" # Topic and 1st post by another user, to avoid antispam limitation topic1 = TopicFactory(forum=self.forum11, author=self.user2) PostFactory(topic=topic1, author=self.user2, position=1) result = self.client.post( reverse('zds.forum.views.answer') + '?sujet={0}'.format(topic1.pk), { 'last_post': topic1.last_message.pk, 'text': u' ' }, follow=False) # Empty text --> preview = HTTP 200 + post not saved (only 1 post in # topic) self.assertEqual(result.status_code, 200) self.assertEqual(Post.objects.filter(topic=topic1.pk).count(), 1) def test_mandatory_fields_on_new(self): """Test handeling of mandatory fields on new topic creation.""" init_topic_count = Topic.objects.all().count() # Empty fields response = self.client.post( reverse('zds.forum.views.new') + '?forum={0}'.format( self.forum12.pk), {}, follow=False) self.assertEqual(response.status_code, 200) self.assertEqual(Topic.objects.all().count(), init_topic_count) # Blank data response = self.client.post( reverse('zds.forum.views.new') + '?forum={0}'.format( self.forum12.pk), { 'title': u' ', 'text': u' ', }, follow=False) self.assertEqual(response.status_code, 200) self.assertEqual(Topic.objects.all().count(), init_topic_count) def test_url_topic(self): """Test simple get request to the topic.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) PostFactory(topic=topic1, author=self.user, position=1) PostFactory(topic=topic1, author=user1, position=2) PostFactory(topic=topic1, author=self.user, position=3) # simple member can read public topic result = self.client.get( reverse( 'zds.forum.views.topic', args=[ topic1.pk, slugify(topic1.title)]), follow=True) self.assertEqual(result.status_code, 200) class ForumGuestTests(TestCase): def setUp(self): settings.EMAIL_BACKEND = \ 'django.core.mail.backends.locmem.EmailBackend' self.category1 = CategoryFactory(position=1) self.category2 = CategoryFactory(position=2) self.category3 = CategoryFactory(position=3) self.forum11 = ForumFactory( category=self.category1, position_in_category=1) self.forum12 = ForumFactory( category=self.category1, position_in_category=2) self.forum13 = ForumFactory( category=self.category1, position_in_category=3) self.forum21 = ForumFactory( category=self.category2, position_in_category=1) self.forum22 = ForumFactory( category=self.category2, position_in_category=2) self.user = ProfileFactory().user def test_display(self): """Test forum display (full: root, category, forum) Topic display test is in creation topic test.""" # Forum root response = self.client.get(reverse('zds.forum.views.index')) self.assertContains(response, 'Liste des forums') # Category response = self.client.get( reverse( 'zds.forum.views.cat_details', args=[ self.category1.slug])) self.assertContains(response, self.category1.title) # Forum response = self.client.get( reverse( 'zds.forum.views.details', args=[ self.category1.slug, self.forum11.slug])) self.assertContains(response, self.category1.title) self.assertContains(response, self.forum11.title) def test_create_topic(self): """To test all aspects of topic's creation by guest.""" result = self.client.post( reverse('zds.forum.views.new') + '?forum={0}' .format(self.forum12.pk), {'title': u'Un autre sujet', 'subtitle': u'Encore ces lombards en plein ete', 'text': u'C\'est tout simplement l\'histoire de ' u'la ville de Paris que je voudrais vous conter ' }, follow=False) self.assertEqual(result.status_code, 302) # check topic's number self.assertEqual(Topic.objects.all().count(), 0) # check post's number self.assertEqual(Post.objects.all().count(), 0) def test_answer(self): """To test all aspects of answer.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) PostFactory(topic=topic1, author=self.user, position=1) PostFactory(topic=topic1, author=self.user, position=2) PostFactory(topic=topic1, author=user1, position=3) result = self.client.post( reverse('zds.forum.views.answer') + '?sujet={0}'.format(topic1.pk), { 'last_post': topic1.last_message.pk, 'text': u'C\'est tout simplement l\'histoire de la ville de Paris que je voudrais vous conter ' }, follow=False) self.assertEqual(result.status_code, 302) # check topic's number self.assertEqual(Topic.objects.all().count(), 1) # check post's number self.assertEqual(Post.objects.all().count(), 3) def test_edit_main_post(self): """To test all aspects of the edition of main post by guest.""" topic1 = TopicFactory(forum=self.forum11, author=self.user) post1 = PostFactory(topic=topic1, author=self.user, position=1) topic2 = TopicFactory(forum=self.forum12, author=self.user) PostFactory(topic=topic2, author=self.user, position=1) topic3 = TopicFactory(forum=self.forum21, author=self.user) PostFactory(topic=topic3, author=self.user, position=1) result = self.client.post( reverse('zds.forum.views.edit_post') + '?message={0}' .format(post1.pk), {'title': u'Un autre sujet', 'subtitle': u'Encore ces lombards en plein été', 'text': u'C\'est tout simplement l\'histoire de la ville de Paris que je voudrais vous conter ' }, follow=False) self.assertEqual(result.status_code, 302) self.assertNotEqual( Topic.objects.get( pk=topic1.pk).title, u'Un autre sujet') self.assertNotEqual( Topic.objects.get( pk=topic1.pk).subtitle, u'Encore ces lombards en plein été') self.assertNotEqual( Post.objects.get( pk=post1.pk).text, u'C\'est tout simplement l\'histoire de la ville de ' u'Paris que je voudrais vous conter ') def test_edit_post(self): """To test all aspects of the edition of simple post by guest.""" topic1 = TopicFactory(forum=self.forum11, author=self.user) PostFactory(topic=topic1, author=self.user, position=1) post2 = PostFactory(topic=topic1, author=self.user, position=2) PostFactory(topic=topic1, author=self.user, position=3) result = self.client.post( reverse('zds.forum.views.edit_post') + '?message={0}' .format(post2.pk), { 'text': u'C\'est tout simplement l\'histoire de ' u'la ville de Paris que je voudrais vous conter ' }, follow=False) self.assertEqual(result.status_code, 302) self.assertNotEqual( Post.objects.get( pk=post2.pk).text, u'C\'est tout simplement l\'histoire de la ville de ' u'Paris que je voudrais vous conter ') def test_quote_post(self): """To test when a member quote anyone post.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) PostFactory(topic=topic1, author=self.user, position=1) post2 = PostFactory(topic=topic1, author=user1, position=2) PostFactory(topic=topic1, author=user1, position=3) result = self.client.get( reverse('zds.forum.views.answer') + '?sujet={0}&cite={0}'.format( topic1.pk, post2.pk), follow=False) self.assertEqual(result.status_code, 302) def test_signal_post(self): """To test when a member quote anyone post.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) PostFactory(topic=topic1, author=self.user, position=1) post2 = PostFactory(topic=topic1, author=user1, position=2) PostFactory(topic=topic1, author=user1, position=3) result = self.client.post( reverse('zds.forum.views.edit_post') + '?message={0}'.format(post2.pk), { 'signal_text': u'Troll', 'signal_message': 'confirmer' }, follow=False) self.assertEqual(result.status_code, 302) self.assertEqual(Alert.objects.all().count(), 0) self.assertEqual(Alert.objects.filter(author=self.user).count(), 0) def test_like_post(self): """Test when a member like any post.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) post1 = PostFactory(topic=topic1, author=self.user, position=1) post2 = PostFactory(topic=topic1, author=user1, position=2) post3 = PostFactory(topic=topic1, author=self.user, position=3) result = self.client.get( reverse('zds.forum.views.like_post') + '?message={0}'.format( post2.pk), follow=False) self.assertEqual(result.status_code, 302) self.assertEqual(CommentLike.objects.all().count(), 0) self.assertEqual(Post.objects.get(pk=post1.pk).like, 0) self.assertEqual(Post.objects.get(pk=post2.pk).like, 0) self.assertEqual(Post.objects.get(pk=post3.pk).like, 0) self.assertEqual(Post.objects.get(pk=post1.pk).dislike, 0) self.assertEqual(Post.objects.get(pk=post2.pk).dislike, 0) self.assertEqual(Post.objects.get(pk=post3.pk).dislike, 0) def test_dislike_post(self): """Test when a member dislike any post.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) post1 = PostFactory(topic=topic1, author=self.user, position=1) post2 = PostFactory(topic=topic1, author=user1, position=2) post3 = PostFactory(topic=topic1, author=self.user, position=3) result = self.client.get( reverse('zds.forum.views.dislike_post') + '?message={0}'.format( post2.pk), follow=False) self.assertEqual(result.status_code, 302) self.assertEqual(CommentDislike.objects.all().count(), 0) self.assertEqual(Post.objects.get(pk=post1.pk).like, 0) self.assertEqual(Post.objects.get(pk=post2.pk).like, 0) self.assertEqual(Post.objects.get(pk=post3.pk).like, 0) self.assertEqual(Post.objects.get(pk=post1.pk).dislike, 0) self.assertEqual(Post.objects.get(pk=post2.pk).dislike, 0) self.assertEqual(Post.objects.get(pk=post3.pk).dislike, 0) def test_useful_post(self): """To test when a guest mark a post is usefull.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) post1 = PostFactory(topic=topic1, author=self.user, position=1) post2 = PostFactory(topic=topic1, author=user1, position=2) post3 = PostFactory(topic=topic1, author=user1, position=3) result = self.client.get( reverse('zds.forum.views.useful_post') + '?message={0}'.format( post2.pk), follow=False) self.assertEqual(result.status_code, 302) self.assertEqual(Post.objects.get(pk=post1.pk).is_useful, False) self.assertEqual(Post.objects.get(pk=post2.pk).is_useful, False) self.assertEqual(Post.objects.get(pk=post3.pk).is_useful, False) def test_move_topic(self): """Test topic move.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) PostFactory(topic=topic1, author=self.user, position=1) PostFactory(topic=topic1, author=user1, position=2) PostFactory(topic=topic1, author=self.user, position=3) # not staff guest can't move topic result = self.client.post( reverse('zds.forum.views.move_topic') + '?sujet={0}'.format( topic1.pk), { 'forum': self.forum12}, follow=False) self.assertEqual(result.status_code, 302) self.assertNotEqual( Topic.objects.get( pk=topic1.pk).forum, self.forum12) def test_url_topic(self): """Test simple get request to the topic.""" user1 = ProfileFactory().user topic1 = TopicFactory(forum=self.forum11, author=self.user) PostFactory(topic=topic1, author=self.user, position=1) PostFactory(topic=topic1, author=user1, position=2) PostFactory(topic=topic1, author=self.user, position=3) # guest can read public topic result = self.client.get( reverse( 'zds.forum.views.topic', args=[ topic1.pk, slugify(topic1.title)]), follow=True) self.assertEqual(result.status_code, 200) # Copyright (c) 2011 Zadara Storage Inc. # Copyright (c) 2011 OpenStack Foundation # Copyright 2011 University of Southern California # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. """ Unit Tests for volume types extra specs code """ from cinder import context from cinder import db from cinder import exception from cinder import objects from cinder.tests.unit import fake_constants as fake from cinder.tests.unit import test class VolumeGlanceMetadataTestCase(test.TestCase): def setUp(self): super(VolumeGlanceMetadataTestCase, self).setUp() self.ctxt = context.get_admin_context() objects.register_all() def test_vol_glance_metadata_bad_vol_id(self): ctxt = context.get_admin_context() self.assertRaises(exception.VolumeNotFound, db.volume_glance_metadata_create, ctxt, fake.VOLUME_ID, 'key1', 'value1') self.assertRaises(exception.VolumeNotFound, db.volume_glance_metadata_get, ctxt, fake.VOLUME_ID) db.volume_glance_metadata_delete_by_volume(ctxt, fake.VOLUME2_ID) def test_vol_update_glance_metadata(self): ctxt = context.get_admin_context() db.volume_create(ctxt, {'id': fake.VOLUME_ID, 'volume_type_id': fake.VOLUME_TYPE_ID}) db.volume_create(ctxt, {'id': fake.VOLUME2_ID, 'volume_type_id': fake.VOLUME_TYPE_ID}) db.volume_glance_metadata_create(ctxt, fake.VOLUME_ID, 'key1', 'value1') db.volume_glance_metadata_create(ctxt, fake.VOLUME2_ID, 'key1', 'value1') db.volume_glance_metadata_create(ctxt, fake.VOLUME2_ID, 'key2', 'value2') db.volume_glance_metadata_create(ctxt, fake.VOLUME2_ID, 'key3', 123) expected_metadata_1 = {'volume_id': fake.VOLUME_ID, 'key': 'key1', 'value': 'value1'} metadata = db.volume_glance_metadata_get(ctxt, fake.VOLUME_ID) self.assertEqual(1, len(metadata)) for key, value in expected_metadata_1.items(): self.assertEqual(value, metadata[0][key]) expected_metadata_2 = ({'volume_id': fake.VOLUME2_ID, 'key': 'key1', 'value': 'value1'}, {'volume_id': fake.VOLUME2_ID, 'key': 'key2', 'value': 'value2'}, {'volume_id': fake.VOLUME2_ID, 'key': 'key3', 'value': '123'}) metadata = db.volume_glance_metadata_get(ctxt, fake.VOLUME2_ID) self.assertEqual(3, len(metadata)) for expected, meta in zip(expected_metadata_2, metadata): for key, value in expected.items(): self.assertEqual(value, meta[key]) self.assertRaises(exception.GlanceMetadataExists, db.volume_glance_metadata_create, ctxt, fake.VOLUME_ID, 'key1', 'value1a') metadata = db.volume_glance_metadata_get(ctxt, fake.VOLUME_ID) self.assertEqual(1, len(metadata)) for key, value in expected_metadata_1.items(): self.assertEqual(value, metadata[0][key]) def test_vols_get_glance_metadata(self): ctxt = context.get_admin_context() db.volume_create(ctxt, {'id': fake.VOLUME_ID, 'volume_type_id': fake.VOLUME_TYPE_ID}) db.volume_create(ctxt, {'id': fake.VOLUME2_ID, 'volume_type_id': fake.VOLUME_TYPE_ID}) db.volume_create(ctxt, {'id': '3', 'volume_type_id': fake.VOLUME_TYPE_ID}) db.volume_glance_metadata_create(ctxt, fake.VOLUME_ID, 'key1', 'value1') db.volume_glance_metadata_create(ctxt, fake.VOLUME2_ID, 'key2', 'value2') db.volume_glance_metadata_create(ctxt, fake.VOLUME2_ID, 'key22', 'value22') metadata = db.volume_glance_metadata_get_all(ctxt) self.assertEqual(3, len(metadata)) self._assert_metadata_equals(fake.VOLUME_ID, 'key1', 'value1', metadata[0]) self._assert_metadata_equals(fake.VOLUME2_ID, 'key2', 'value2', metadata[1]) self._assert_metadata_equals(fake.VOLUME2_ID, 'key22', 'value22', metadata[2]) def _assert_metadata_equals(self, volume_id, key, value, observed): self.assertEqual(volume_id, observed.volume_id) self.assertEqual(key, observed.key) self.assertEqual(value, observed.value) def test_vol_delete_glance_metadata(self): ctxt = context.get_admin_context() db.volume_create(ctxt, {'id': fake.VOLUME_ID, 'volume_type_id': fake.VOLUME_TYPE_ID}) db.volume_glance_metadata_delete_by_volume(ctxt, fake.VOLUME_ID) db.volume_glance_metadata_create(ctxt, fake.VOLUME_ID, 'key1', 'value1') db.volume_glance_metadata_delete_by_volume(ctxt, fake.VOLUME_ID) self.assertRaises(exception.GlanceMetadataNotFound, db.volume_glance_metadata_get, ctxt, fake.VOLUME_ID) def test_vol_glance_metadata_copy_to_snapshot(self): ctxt = context.get_admin_context() db.volume_create(ctxt, {'id': fake.VOLUME_ID, 'volume_type_id': fake.VOLUME_TYPE_ID}) snap = objects.Snapshot(ctxt, volume_id=fake.VOLUME_ID) snap.create() db.volume_glance_metadata_create(ctxt, fake.VOLUME_ID, 'key1', 'value1') db.volume_glance_metadata_copy_to_snapshot(ctxt, snap.id, fake.VOLUME_ID) expected_meta = {'snapshot_id': snap.id, 'key': 'key1', 'value': 'value1'} for meta in db.volume_snapshot_glance_metadata_get(ctxt, snap.id): for (key, value) in expected_meta.items(): self.assertEqual(value, meta[key]) snap.destroy() def test_vol_glance_metadata_copy_from_volume_to_volume(self): ctxt = context.get_admin_context() db.volume_create(ctxt, {'id': fake.VOLUME_ID, 'volume_type_id': fake.VOLUME_TYPE_ID}) db.volume_create(ctxt, {'id': fake.VOLUME2_ID, 'source_volid': fake.VOLUME_ID, 'volume_type_id': fake.VOLUME_TYPE_ID}) db.volume_glance_metadata_create(ctxt, fake.VOLUME_ID, 'key1', 'value1') db.volume_glance_metadata_copy_from_volume_to_volume(ctxt, fake.VOLUME_ID, fake.VOLUME2_ID) expected_meta = {'key': 'key1', 'value': 'value1'} for meta in db.volume_glance_metadata_get(ctxt, fake.VOLUME2_ID): for (key, value) in expected_meta.items(): self.assertEqual(value, meta[key]) def test_volume_glance_metadata_copy_to_volume(self): vol1 = db.volume_create(self.ctxt, {'volume_type_id': fake.VOLUME_TYPE_ID}) vol2 = db.volume_create(self.ctxt, {'volume_type_id': fake.VOLUME_TYPE_ID}) db.volume_glance_metadata_create(self.ctxt, vol1['id'], 'm1', 'v1') snapshot = objects.Snapshot(self.ctxt, volume_id=vol1['id']) snapshot.create() db.volume_glance_metadata_copy_to_snapshot(self.ctxt, snapshot.id, vol1['id']) db.volume_glance_metadata_copy_to_volume(self.ctxt, vol2['id'], snapshot.id) metadata = db.volume_glance_metadata_get(self.ctxt, vol2['id']) metadata = {m['key']: m['value'] for m in metadata} self.assertEqual({'m1': 'v1'}, metadata) def test_volume_snapshot_glance_metadata_get_nonexistent(self): vol = db.volume_create(self.ctxt, {'volume_type_id': fake.VOLUME_TYPE_ID}) snapshot = objects.Snapshot(self.ctxt, volume_id=vol['id']) snapshot.create() self.assertRaises(exception.GlanceMetadataNotFound, db.volume_snapshot_glance_metadata_get, self.ctxt, snapshot.id) snapshot.destroy() print(__doc__) # Code source: Gaël Varoquaux # Andreas Müller # Modified for MCZA015-13 class project by Rodrigo Martins de Oliveira # License: BSD 3 clause import matplotlib.pyplot as plt import numpy as np from matplotlib.colors import ListedColormap from sklearn.datasets import make_circles from sklearn.datasets import make_classification from sklearn.datasets import make_moons from sklearn.discriminant_analysis import QuadraticDiscriminantAnalysis from sklearn.ensemble import AdaBoostClassifier from sklearn.ensemble import ExtraTreesClassifier as SKExtraTreesClassifier from sklearn.ensemble import RandomForestClassifier from sklearn.gaussian_process import GaussianProcessClassifier from sklearn.gaussian_process.kernels import RBF from sklearn.model_selection import train_test_split from sklearn.naive_bayes import GaussianNB from sklearn.neighbors import KNeighborsClassifier from sklearn.neural_network import MLPClassifier from sklearn.preprocessing import StandardScaler from sklearn.svm import SVC from sklearn.tree import DecisionTreeClassifier from extra_trees.ensemble.forest import ExtraTreesClassifier h = .02 # step size in the mesh names = [ "Nearest Neighbors", "Linear SVM", "RBF SVM", "Gaussian Process", "Neural Net", "Naive Bayes", "QDA", "AdaBoost", "Decision Tree", "Random Forest", "ExtraTrees (SciKit)", "ExtraTrees", ] classifiers = [ KNeighborsClassifier(3), SVC(kernel="linear", C=0.025), SVC(gamma=2, C=1), GaussianProcessClassifier(1.0 * RBF(1.0), warm_start=True), MLPClassifier(alpha=1), GaussianNB(), QuadraticDiscriminantAnalysis(), AdaBoostClassifier(), DecisionTreeClassifier(max_depth=5), RandomForestClassifier(max_depth=5, n_estimators=10, max_features=2), SKExtraTreesClassifier(n_estimators=10, max_features=2), ExtraTreesClassifier(n_estimators=10, max_features=2), ] X, y = make_classification( n_features=2, n_redundant=0, n_informative=2, random_state=1, n_clusters_per_class=1) rng = np.random.RandomState(2) X += 2 * rng.uniform(size=X.shape) linearly_separable = (X, y) datasets = [ make_moons(noise=0.3, random_state=0), make_circles(noise=0.2, factor=0.5, random_state=1), linearly_separable ] figure = plt.figure(figsize=(33, 11)) i = 1 # iterate over datasets for ds_cnt, ds in enumerate(datasets): # preprocess dataset, split into training and test part X, y = ds X = StandardScaler().fit_transform(X) X_train, X_test, y_train, y_test = \ train_test_split(X, y, test_size=.4, random_state=42) x_min, x_max = X[:, 0].min() - .5, X[:, 0].max() + .5 y_min, y_max = X[:, 1].min() - .5, X[:, 1].max() + .5 xx, yy = np.meshgrid( np.arange(x_min, x_max, h), np.arange(y_min, y_max, h)) # just plot the dataset first cm = plt.cm.RdBu cm_bright = ListedColormap(['#FF0000', '#0000FF']) ax = plt.subplot(len(datasets), len(classifiers) + 1, i) if ds_cnt == 0: ax.set_title("Input data") # Plot the training points ax.scatter( X_train[:, 0], X_train[:, 1], c=y_train, cmap=cm_bright, edgecolors='k') # and testing points ax.scatter( X_test[:, 0], X_test[:, 1], c=y_test, cmap=cm_bright, alpha=0.6, edgecolors='k') ax.set_xlim(xx.min(), xx.max()) ax.set_ylim(yy.min(), yy.max()) ax.set_xticks(()) ax.set_yticks(()) i += 1 # iterate over classifiers for name, clf in zip(names, classifiers): ax = plt.subplot(len(datasets), len(classifiers) + 1, i) clf.fit(X_train, y_train) score = clf.score(X_test, y_test) # Plot the decision boundary. For that, we will assign a color to each # point in the mesh [x_min, x_max]x[y_min, y_max]. if hasattr(clf, "decision_function"): Z = clf.decision_function(np.c_[xx.ravel(), yy.ravel()]) else: Z = clf.predict_proba(np.c_[xx.ravel(), yy.ravel()])[:, 1] # Put the result into a color plot Z = Z.reshape(xx.shape) ax.contourf(xx, yy, Z, cmap=cm, alpha=.8) # Plot also the training points ax.scatter( X_train[:, 0], X_train[:, 1], c=y_train, cmap=cm_bright, edgecolors='k') # and testing points ax.scatter( X_test[:, 0], X_test[:, 1], c=y_test, cmap=cm_bright, edgecolors='k', alpha=0.6) ax.set_xlim(xx.min(), xx.max()) ax.set_ylim(yy.min(), yy.max()) ax.set_xticks(()) ax.set_yticks(()) if ds_cnt == 0: ax.set_title(name) ax.text( xx.max() - .3, yy.min() + .3, ('%.2f' % score).lstrip('0'), size=15, horizontalalignment='right') i += 1 plt.tight_layout() plt.show() from __future__ import print_function import espressomd from espressomd import checkpointing checkpoint = checkpointing.Checkpointing(checkpoint_id="mycheckpoint") checkpoint.load() # necessary for using e.g. system.actors, since explicit checkpointing of actors is not implemented yet system = espressomd.System(box_l=[10.7437, 10.7437, 10.7437]) system.set_random_state_PRNG() #system.seed = system.cell_system.get_state()['n_nodes'] * [1234] # test user variable print("\n### user variable test ###") print("myvar = {}".format(myvar)) print("skin = {}".format(skin)) # test "system" print("\n### system test ###") print("system.time = {}".format(system.time)) print("system.box_l = {}".format(system.box_l)) # system.cell_system not implemented yet, see sample script store_properties.py system.cell_system.skin = skin # test "system.non_bonded_inter" print("\n### system.non_bonded_inter test ###") print("system.non_bonded_inter[0, 0].lennard_jones.get_params() = {}".format(system.non_bonded_inter[0, 0].lennard_jones.get_params())) # test "system.part" print("\n### system.part test ###") print("system.part[:].pos = {}".format(system.part[:].pos)) # test "system.thermostat" print("\n### system.thermostat test ###") print("system.thermostat.get_state() = {}".format(system.thermostat.get_state())) # test "p3m" print("\n### p3m test ###") print("p3m.get_params() = {}".format(p3m.get_params())) system.actors.add(p3m) # test registered objects # all objects that are registered when writing a checkpoint are automatically registered after loading this checkpoint print("\n### checkpoint register test ###") print("checkpoint.get_registered_objects() = {}".format(checkpoint.get_registered_objects())) # integrate system and finally save checkpoint print("\n### Integrate until user presses ctrl+c ###") print("Integrating...") while True: system.integrator.run(1000) """comments Revision ID: 51f5ccfba190 Revises: 2356a38169ea Create Date: 2014-01-01 12:08:43.287523 """ # revision identifiers, used by Alembic. revision = '51f5ccfba190' down_revision = '2356a38169ea' from alembic import op import sqlalchemy as sa def upgrade(): ### commands auto generated by Alembic - please adjust! ### op.create_table('comments', sa.Column('id', sa.Integer(), nullable=False), sa.Column('body', sa.Text(), nullable=True), sa.Column('body_html', sa.Text(), nullable=True), sa.Column('timestamp', sa.DateTime(), nullable=True), sa.Column('disabled', sa.Boolean(), nullable=True), sa.Column('author_id', sa.Integer(), nullable=True), sa.Column('post_id', sa.Integer(), nullable=True), sa.ForeignKeyConstraint(['author_id'], ['users.id'], ), sa.ForeignKeyConstraint(['post_id'], ['posts.id'], ), sa.PrimaryKeyConstraint('id') ) op.create_index('ix_comments_timestamp', 'comments', ['timestamp'], unique=False) ### end Alembic commands ### def downgrade(): ### commands auto generated by Alembic - please adjust! ### op.drop_index('ix_comments_timestamp', 'comments') op.drop_table('comments') ### end Alembic commands ### # coding: utf-8 # Copyright (c) 2015 Fabian Barkhau # License: MIT (see LICENSE file) from kivy.uix.gridlayout import GridLayout from kivy.uix.scrollview import ScrollView class AbstractScrollView(ScrollView): def __init__(self, *args, **kwargs): # Setup scroll view kwargs.update({ "pos_hint": {'center_x': 0.5, 'center_y': 0.5}, "do_scroll_x": False }) super(AbstractScrollView, self).__init__(*args, **kwargs) # create layout layout = GridLayout(cols=kwargs.get("cols", 1), padding=kwargs.get("padding", 0), spacing=kwargs.get("spacing", 0), size_hint_y=None) layout.bind(minimum_height=layout.setter('height')) # add widgets to layout entries = kwargs.get('entries', []) for entry in entries: widget = self.entry_to_widget(entry) layout.add_widget(widget) # add layout self.add_widget(layout) def entry_to_widget(self, entry): raise Exception("Abstract method!") from __future__ import print_function from __future__ import absolute_import import random import numpy as np import config from utils.dataset import Dataset class BatchGenerator(): '''Generate Batches''' def __init__(self): self.batch_size = config.FLAGS.batch_size self.buckets = buckets = config.BUCKETS self.PAD_ID = config.PAD_ID self.GO_ID = config.GO_ID self.load_dataset() data_bucket_sizes = [len(self.data[b]) for b in xrange(len(buckets))] data_total_size = float(sum(data_bucket_sizes)) self.data_buckets_scale = [sum(data_bucket_sizes[:i + 1]) / data_total_size for i in xrange(len(data_bucket_sizes))] def load_dataset(self): dataset = Dataset() self.data = dataset.data def next(self): random_number_01 = np.random.random_sample() bucket_id = min([i for i in xrange(len(self.data_buckets_scale)) if self.data_buckets_scale[i] > random_number_01]) encoder_size, decoder_size = self.buckets[bucket_id] encoder_inputs, decoder_inputs = [], [] for _ in xrange(self.batch_size): encoder_input, decoder_input = random.choice(self.data[bucket_id]) encoder_pad = [self.PAD_ID] * (encoder_size - len(encoder_input)) encoder_inputs.append(list(reversed(encoder_input + encoder_pad))) decoder_pad = [self.PAD_ID] * (decoder_size - len(decoder_input) - 1) decoder_inputs.append([self.GO_ID] + decoder_input + decoder_pad) batch_encoder_inputs, batch_decoder_inputs, batch_target_weights = [], [], [] for length_idx in xrange(encoder_size): batch_encoder_inputs.append(np.array([encoder_inputs[batch_idx][length_idx] for batch_idx in xrange(self.batch_size)], dtype=np.int32)) for length_idx in xrange(decoder_size): batch_decoder_inputs.append(np.array([decoder_inputs[batch_idx][length_idx] for batch_idx in xrange(self.batch_size)], dtype=np.int32)) batch_target_weight = np.ones(self.batch_size, dtype=np.float32) for batch_idx in xrange(self.batch_size): if length_idx < decoder_size - 1: target = decoder_inputs[batch_idx][length_idx + 1] if length_idx == decoder_size - 1 or target == self.PAD_ID: batch_target_weight[batch_idx] = 0.0 batch_target_weights.append(batch_target_weight) return batch_encoder_inputs, batch_decoder_inputs, batch_target_weights, bucket_id # -*- coding: utf-8 -*- """QGIS Unit tests for QgsMapUnitScale. .. note:: This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. """ __author__ = 'Nyall Dawson' __date__ = '2015-09' __copyright__ = 'Copyright 2015, The QGIS Project' # This will get replaced with a git SHA1 when you do a git archive __revision__ = '$Format:%H$' import qgis # NOQA from qgis.core import (QgsMapUnitScale, QgsRenderContext, QgsSymbolLayerUtils, QgsSymbol, QgsMapSettings, QgsRectangle, QgsUnitTypes) from qgis.PyQt.QtCore import QSize from qgis.testing import unittest class PyQgsMapUnitScale(unittest.TestCase): def testConstructor(self): # test creating QgsMapUnitScale c = QgsMapUnitScale() self.assertEqual(c.minScale, 0) self.assertEqual(c.maxScale, 0) c = QgsMapUnitScale(0.0001, 0.005) self.assertEqual(c.minScale, 0.0001) self.assertEqual(c.maxScale, 0.005) def testEquality(self): # test equality operator c1 = QgsMapUnitScale(0.0001, 0.005) c1.minSizeMMEnabled = True c1.minSizeMM = 3 c1.maxSizeMMEnabled = True c1.maxSizeMM = 8 c2 = QgsMapUnitScale(0.0001, 0.005) c2.minSizeMMEnabled = True c2.minSizeMM = 3 c2.maxSizeMMEnabled = True c2.maxSizeMM = 8 self.assertEqual(c1, c2) c2.minScale = 0.0004 self.assertNotEqual(c1, c2) c2.minScale = 0.0001 c2.maxScale = 0.007 self.assertNotEqual(c1, c2) c2.maxScale = 0.005 c2.minSizeMMEnabled = False self.assertNotEqual(c1, c2) c2.minSizeMMEnabled = True c2.maxSizeMMEnabled = False self.assertNotEqual(c1, c2) c2.maxSizeMMEnabled = True c2.minSizeMM = 1 self.assertNotEqual(c1, c2) c2.minSizeMM = 3 c2.maxSizeMM = 100 self.assertNotEqual(c1, c2) c2.maxSizeMM = 8 self.assertEqual(c1, c2) def testMapUnitsPerPixel(self): # test computeMapUnitsPerPixel ms = QgsMapSettings() ms.setExtent(QgsRectangle(0, 0, 100, 100)) ms.setOutputSize(QSize(100, 50)) ms.setOutputDpi(75) r = QgsRenderContext.fromMapSettings(ms) # renderer scale should be about 1:291937841 # start with no min/max scale c = QgsMapUnitScale() mup = c.computeMapUnitsPerPixel(r) self.assertAlmostEqual(mup, 2.0, places=5) # add a minimum scale less than the renderer scale, so should be no change c.minScale = 1 / 350000000.0 mup = c.computeMapUnitsPerPixel(r) self.assertAlmostEqual(mup, 2.0, places=5) # minimum scale greater than the renderer scale, so should be limited to minScale c.minScale = 1 / 150000000.0 mup = c.computeMapUnitsPerPixel(r) self.assertAlmostEqual(mup, 1.0276160, places=5) c.minScale = 1 / 50000000.0 mup = c.computeMapUnitsPerPixel(r) self.assertAlmostEqual(mup, 0.3425386, places=5) c.minScale = 1 / 350000000.0 # add a maximum scale greater than the renderer scale, so should be no change c.maxScale = 1 / 150000000.0 mup = c.computeMapUnitsPerPixel(r) self.assertAlmostEqual(mup, 2.0, places=5) # maximum scale less than the renderer scale, so should be limited to maxScale c.maxScale = 1 / 350000000.0 mup = c.computeMapUnitsPerPixel(r) self.assertAlmostEqual(mup, 2.3977706, places=5) c.maxScale = 1 / 500000000.0 mup = c.computeMapUnitsPerPixel(r) self.assertAlmostEqual(mup, 3.4253867, places=5) # test resetting to min/max c.minScale = 0 c.maxScale = 0 mup = c.computeMapUnitsPerPixel(r) self.assertAlmostEqual(mup, 2.0, places=5) def testLineWidthScaleFactor(self): # test QgsSymbolLayerUtils::lineWidthScaleFactor() using QgsMapUnitScale ms = QgsMapSettings() ms.setExtent(QgsRectangle(0, 0, 100, 100)) ms.setOutputSize(QSize(100, 50)) ms.setOutputDpi(300) r = QgsRenderContext.fromMapSettings(ms) # renderer scale should be about 1:291937841 # start with no min/max scale c = QgsMapUnitScale() sf = QgsSymbolLayerUtils.lineWidthScaleFactor(r, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(sf, 0.5, places=5) sf = QgsSymbolLayerUtils.lineWidthScaleFactor(r, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(sf, 11.8110236, places=5) sf = QgsSymbolLayerUtils.lineWidthScaleFactor(r, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(sf, 33.4800668, places=5) sf = QgsSymbolLayerUtils.lineWidthScaleFactor(r, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(sf, 1.0, places=5) # minimum scale greater than the renderer scale, so should be limited to minScale c.minScale = 1 / 150000000.0 sf = QgsSymbolLayerUtils.lineWidthScaleFactor(r, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(sf, 3.89250455, places=5) # only conversion from mapunits should be affected sf = QgsSymbolLayerUtils.lineWidthScaleFactor(r, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(sf, 11.8110236, places=5) sf = QgsSymbolLayerUtils.lineWidthScaleFactor(r, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(sf, 33.4800668, places=5) sf = QgsSymbolLayerUtils.lineWidthScaleFactor(r, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(sf, 1.0, places=5) c.minScale = 0 # maximum scale less than the renderer scale, so should be limited to maxScale c.maxScale = 1 / 350000000.0 sf = QgsSymbolLayerUtils.lineWidthScaleFactor(r, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(sf, 0.5, places=5) # only conversion from mapunits should be affected sf = QgsSymbolLayerUtils.lineWidthScaleFactor(r, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(sf, 11.8110236, places=5) sf = QgsSymbolLayerUtils.lineWidthScaleFactor(r, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(sf, 33.4800668, places=5) sf = QgsSymbolLayerUtils.lineWidthScaleFactor(r, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(sf, 1.0, places=5) def testConvertToPainterUnits(self): # test QgsSymbolLayerUtils::convertToPainterUnits() using QgsMapUnitScale ms = QgsMapSettings() ms.setExtent(QgsRectangle(0, 0, 100, 100)) ms.setOutputSize(QSize(100, 50)) ms.setOutputDpi(300) r = QgsRenderContext.fromMapSettings(ms) # renderer scale should be about 1:291937841 # start with no min/max scale c = QgsMapUnitScale() size = QgsSymbolLayerUtils.convertToPainterUnits(r, 2, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(size, 1.0, places=5) size = QgsSymbolLayerUtils.convertToPainterUnits(r, 2, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(size, 23.622047, places=5) size = QgsSymbolLayerUtils.convertToPainterUnits(r, 2, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(size, 66.9601332, places=5) size = QgsSymbolLayerUtils.convertToPainterUnits(r, 2, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(size, 2.0, places=5) # minimum size greater than the calculated size, so size should be limited to minSizeMM c.minSizeMM = 5 c.minSizeMMEnabled = True size = QgsSymbolLayerUtils.convertToPainterUnits(r, 2, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(size, 59.0551181, places=5) # only conversion from mapunits should be affected size = QgsSymbolLayerUtils.convertToPainterUnits(r, 2, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(size, 23.622047, places=5) size = QgsSymbolLayerUtils.convertToPainterUnits(r, 2, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(size, 66.9601332, places=5) size = QgsSymbolLayerUtils.convertToPainterUnits(r, 2, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(size, 2.0, places=5) c.minSizeMMEnabled = False # maximum size less than the calculated size, so size should be limited to maxSizeMM c.maxSizeMM = 0.1 c.maxSizeMMEnabled = True size = QgsSymbolLayerUtils.convertToPainterUnits(r, 2, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(size, 1.0, places=5) # only conversion from mapunits should be affected size = QgsSymbolLayerUtils.convertToPainterUnits(r, 2, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(size, 23.622047, places=5) size = QgsSymbolLayerUtils.convertToPainterUnits(r, 2, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(size, 66.9601332, places=5) size = QgsSymbolLayerUtils.convertToPainterUnits(r, 2, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(size, 2.0, places=5) def testConvertToMapUnits(self): # test QgsSymbolLayerUtils::convertToMapUnits() using QgsMapUnitScale ms = QgsMapSettings() ms.setExtent(QgsRectangle(0, 0, 100, 100)) ms.setOutputSize(QSize(100, 50)) ms.setOutputDpi(300) r = QgsRenderContext.fromMapSettings(ms) # renderer scale should be about 1:291937841 # start with no min/max scale c = QgsMapUnitScale() size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderMapUnits, c) self.assertEqual(size, 2.0) size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(size, 47.244094, places=5) size = QgsSymbolLayerUtils.convertToMapUnits(r, 5.66929, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(size, 47.2440833, places=5) size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(size, 4.0, places=5) # minimum size greater than the calculated size, so size should be limited to minSizeMM c.minSizeMM = 5 c.minSizeMMEnabled = True size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(size, 118.1102362, places=5) # only conversion from mapunits should be affected size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(size, 47.244094, places=5) size = QgsSymbolLayerUtils.convertToMapUnits(r, 5.66929, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(size, 47.2440833, places=5) size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(size, 4.0, places=5) c.minSizeMMEnabled = False # maximum size less than the calculated size, so size should be limited to maxSizeMM c.maxSizeMM = 0.05 c.maxSizeMMEnabled = True size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(size, 1.1811023622047245, places=5) # only conversion from mapunits should be affected size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(size, 47.244094, places=5) size = QgsSymbolLayerUtils.convertToMapUnits(r, 5.66929, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(size, 47.2440833, places=5) size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(size, 4.0, places=5) c.maxSizeMMEnabled = False # test with minimum scale set c.minScale = 1 / 150000000.0 size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(size, 15.57001821, places=5) # only conversion from mapunits should be affected size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(size, 47.244094, places=5) size = QgsSymbolLayerUtils.convertToMapUnits(r, 5.66929, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(size, 47.2440833, places=5) size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(size, 4.0, places=5) c.minScale = 0 # test with maximum scale set c.maxScale = 1 / 1550000000.0 size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(size, 1.50677595625, places=5) # only conversion from mapunits should be affected size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(size, 47.244094, places=5) size = QgsSymbolLayerUtils.convertToMapUnits(r, 5.66929, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(size, 47.2440833, places=5) size = QgsSymbolLayerUtils.convertToMapUnits(r, 2, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(size, 4.0, places=5) c.maxScale = 0 def testPixelSizeScaleFactor(self): # test QgsSymbolLayerUtils::pixelSizeScaleFactor() using QgsMapUnitScale ms = QgsMapSettings() ms.setExtent(QgsRectangle(0, 0, 100, 100)) ms.setOutputSize(QSize(100, 50)) ms.setOutputDpi(300) r = QgsRenderContext.fromMapSettings(ms) # renderer scale should be about 1:291937841 # start with no min/max scale c = QgsMapUnitScale() sf = QgsSymbolLayerUtils.pixelSizeScaleFactor(r, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(sf, 0.5, places=5) sf = QgsSymbolLayerUtils.pixelSizeScaleFactor(r, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(sf, 11.8110236, places=5) sf = QgsSymbolLayerUtils.pixelSizeScaleFactor(r, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(sf, 33.48006689762, places=5) sf = QgsSymbolLayerUtils.pixelSizeScaleFactor(r, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(sf, 1.0, places=5) # minimum scale greater than the renderer scale, so should be limited to minScale c.minScale = 1 / 150000000.0 sf = QgsSymbolLayerUtils.pixelSizeScaleFactor(r, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(sf, 3.8925045, places=5) # only conversion from mapunits should be affected sf = QgsSymbolLayerUtils.pixelSizeScaleFactor(r, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(sf, 11.811023, places=5) sf = QgsSymbolLayerUtils.pixelSizeScaleFactor(r, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(sf, 33.48006689762, places=5) sf = QgsSymbolLayerUtils.pixelSizeScaleFactor(r, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(sf, 1.0, places=5) c.minScale = 0 # maximum scale less than the renderer scale, so should be limited to maxScale c.maxScale = 1 / 350000000.0 sf = QgsSymbolLayerUtils.pixelSizeScaleFactor(r, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(sf, 0.5, places=5) # only conversion from mapunits should be affected sf = QgsSymbolLayerUtils.pixelSizeScaleFactor(r, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(sf, 11.8110236, places=5) sf = QgsSymbolLayerUtils.pixelSizeScaleFactor(r, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(sf, 33.48006689762, places=5) sf = QgsSymbolLayerUtils.pixelSizeScaleFactor(r, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(sf, 1.0, places=5) def testMapUnitScaleFactor(self): # test QgsSymbolLayerUtils::mapUnitScaleFactor() using QgsMapUnitScale ms = QgsMapSettings() ms.setExtent(QgsRectangle(0, 0, 100, 100)) ms.setOutputSize(QSize(100, 50)) ms.setOutputDpi(300) r = QgsRenderContext.fromMapSettings(ms) # renderer scale should be about 1:291937841 c = QgsMapUnitScale() sf = QgsSymbolLayerUtils.mapUnitScaleFactor(r, QgsUnitTypes.RenderMapUnits, c) self.assertAlmostEqual(sf, 1.0, places=5) sf = QgsSymbolLayerUtils.mapUnitScaleFactor(r, QgsUnitTypes.RenderMillimeters, c) self.assertAlmostEqual(sf, 23.622047, places=5) sf = QgsSymbolLayerUtils.mapUnitScaleFactor(r, QgsUnitTypes.RenderPoints, c) self.assertAlmostEqual(sf, 66.9601332, places=5) sf = QgsSymbolLayerUtils.mapUnitScaleFactor(r, QgsUnitTypes.RenderPixels, c) self.assertAlmostEqual(sf, 2.0, places=5) def testEncodeDecode(self): # test encoding and decoding QgsMapUnitScale s = QgsMapUnitScale() s.minScale = 50 s.maxScale = 100 s.minSizeMMEnabled = True s.minSizeMM = 3 s.maxSizeMMEnabled = False s.maxSizeMM = 99 encode = QgsSymbolLayerUtils.encodeMapUnitScale(s) r = QgsSymbolLayerUtils.decodeMapUnitScale(encode) self.assertEqual(s, r) # check old style encoding encode = '9,78.3' r = QgsSymbolLayerUtils.decodeMapUnitScale(encode) self.assertEqual(r.minScale, 9) self.assertEqual(r.maxScale, 78.3) self.assertFalse(r.minSizeMMEnabled) self.assertEqual(r.minSizeMM, 0) self.assertFalse(r.maxSizeMMEnabled) self.assertEqual(r.maxSizeMM, 0) if __name__ == '__main__': unittest.main() from gpiozero import Button class RotaryEncoder: """ Decode mechanical rotary encoder pulses. The following example will print a Rotary Encoder change direction from gpiozero import RotaryEncoder def change(value): if value == 1: print("clockwise") else # if change == -1 print("counterclockwise") rotary = RotaryEncoder(2, 3) rotary.when_rotated = change Based in http://abyz.co.uk/rpi/pigpio/examples.html#Python_rotary_encoder_py """ gpioA = None gpioB = None levA = 0 levB = 0 lastGpio = None when_rotated = lambda *args : None def __init__(self, pinA, pinB, pull_up=False): """ Uses for dettect rotary encoder changes (set when_rotated attribute) It takes one parameter which is +1 for clockwise and -1 for counterclockwise. :param pinA int : :param pinB int : :pull_up bool : The common contact should be NOT connected to ground? """ self.gpioA = Button(pinA, pull_up) self.gpioB = Button(pinB, pull_up) self.levA = 0 self.levB = 0 self.lastGpio = None self.gpioA.when_pressed = lambda *args : self.pulse(self.gpioA, 1) self.gpioA.when_released = lambda *args : self.pulse(self.gpioA, 0) self.gpioB.when_pressed = lambda *args : self.pulse(self.gpioB, 1) self.gpioB.when_released = lambda *args : self.pulse(self.gpioB, 0) def pulse(self, gpio, level): """ Decode the rotary encoder pulse. +---------+ +---------+ 0 | | | | A | | | | | | | | +---------+ +---------+ +----- 1 +---------+ +---------+ 0 | | | | B | | | | | | | | ----+ +---------+ +---------+ 1 """ if gpio == self.gpioA: self.levA = level else: self.levB = level if gpio != self.lastGpio: self.lastGpio = gpio if gpio == self.gpioA and level == 1: if self.levB == 1: self.when_rotated(1) elif gpio == self.gpioB and level == 1: if self.levA == 1: self.when_rotated(-1) else: if self.levB == 1: self.when_rotated(-1) elif self.levA == 1: self.when_rotated(1) else: if gpio == self.gpioA and level == 1: if self.levB == 1: self.when_rotated(1) elif gpio == self.gpioB and level == 1: if self.levA == 1: self.when_rotated(-1) else: if self.levB == 1: self.when_rotated(-1) elif self.levA == 1: self.when_rotated(1) """ database connection """ import os import re import sys import copy import random import inspect import time import datetime import threading from future.utils import iteritems from .command_spec import CommandSpec from .job_spec import JobSpec from .work_spec import WorkSpec from .file_spec import FileSpec from .event_spec import EventSpec from .cache_spec import CacheSpec from .seq_number_spec import SeqNumberSpec from .panda_queue_spec import PandaQueueSpec from .job_worker_relation_spec import JobWorkerRelationSpec from .process_lock_spec import ProcessLockSpec from .diag_spec import DiagSpec from .service_metrics_spec import ServiceMetricSpec from .queue_config_dump_spec import QueueConfigDumpSpec from . import core_utils from pandaharvester.harvesterconfig import harvester_config # logger _logger = core_utils.setup_logger('db_proxy') # table names commandTableName = 'command_table' jobTableName = 'job_table' workTableName = 'work_table' fileTableName = 'file_table' cacheTableName = 'cache_table' eventTableName = 'event_table' seqNumberTableName = 'seq_table' pandaQueueTableName = 'pq_table' jobWorkerTableName = 'jw_table' processLockTableName = 'lock_table' diagTableName = 'diag_table' queueConfigDumpTableName = 'qcdump_table' serviceMetricsTableName = 'sm_table' # connection lock conLock = threading.Lock() # connection class class DBProxy(object): # constructor def __init__(self, thr_name=None, read_only=False): self.thrName = thr_name self.verbLog = None self.useInspect = False if harvester_config.db.verbose: self.verbLog = core_utils.make_logger(_logger, method_name='execute') if self.thrName is None: currentThr = threading.current_thread() if currentThr is not None: self.thrName = currentThr.ident if hasattr(harvester_config.db, 'useInspect') and harvester_config.db.useInspect is True: self.useInspect = True if harvester_config.db.engine == 'mariadb': if hasattr(harvester_config.db, 'host'): host = harvester_config.db.host else: host = '127.0.0.1' if hasattr(harvester_config.db, 'port'): port = harvester_config.db.port else: port = 3306 if hasattr(harvester_config.db, 'useMySQLdb') and harvester_config.db.useMySQLdb is True: import MySQLdb import MySQLdb.cursors class MyCursor (MySQLdb.cursors.Cursor): def fetchone(self): tmpRet = MySQLdb.cursors.Cursor.fetchone(self) if tmpRet is None: return None tmpRet = core_utils.DictTupleHybrid(tmpRet) tmpRet.set_attributes([d[0] for d in self.description]) return tmpRet def fetchall(self): tmpRets = MySQLdb.cursors.Cursor.fetchall(self) if len(tmpRets) == 0: return tmpRets newTmpRets = [] attributes = [d[0] for d in self.description] for tmpRet in tmpRets: tmpRet = core_utils.DictTupleHybrid(tmpRet) tmpRet.set_attributes(attributes) newTmpRets.append(tmpRet) return newTmpRets self.con = MySQLdb.connect(user=harvester_config.db.user, passwd=harvester_config.db.password, db=harvester_config.db.schema, host=host, port=port, cursorclass=MyCursor) self.cur = self.con.cursor() else: import mysql.connector self.con = mysql.connector.connect(user=harvester_config.db.user, passwd=harvester_config.db.password, db=harvester_config.db.schema, host=host, port=port) self.cur = self.con.cursor(named_tuple=True, buffered=True) else: import sqlite3 if read_only: fd = os.open(harvester_config.db.database_filename, os.O_RDONLY) database_filename = '/dev/fd/{0}'.format(fd) else: database_filename = harvester_config.db.database_filename self.con = sqlite3.connect(database_filename, detect_types=sqlite3.PARSE_DECLTYPES | sqlite3.PARSE_COLNAMES, check_same_thread=False) core_utils.set_file_permission(harvester_config.db.database_filename) # change the row factory to use Row self.con.row_factory = sqlite3.Row self.cur = self.con.cursor() self.cur.execute('PRAGMA journal_mode') resJ = self.cur.fetchone() if resJ[0] != 'wal': self.cur.execute('PRAGMA journal_mode = WAL') # read to avoid database lock self.cur.fetchone() self.lockDB = False # using application side lock if DB doesn't have a mechanism for exclusive access if harvester_config.db.engine == 'mariadb': self.usingAppLock = False else: self.usingAppLock = True # exception handler for type of DBs def _handle_exception(self, exc, retry_time=30): tmpLog = core_utils.make_logger(_logger, 'thr={0}'.format(self.thrName), method_name='_handle_exception') if harvester_config.db.engine == 'mariadb': tmpLog.warning('exception of mysql {0} occurred'.format(exc.__class__.__name__)) # Case to try renew connection isOperationalError = False if hasattr(harvester_config.db, 'useMySQLdb') and harvester_config.db.useMySQLdb is True: import MySQLdb if isinstance(exc, MySQLdb.OperationalError): isOperationalError = True else: import mysql.connector if isinstance(exc, mysql.connector.errors.OperationalError): isOperationalError = True if isOperationalError: try_timestamp = time.time() while time.time() - try_timestamp < retry_time: try: self.__init__() tmpLog.info('renewed connection') break except Exception as e: tmpLog.error('failed to renew connection; {0}'.format(e)) time.sleep(1) # convert param dict to list def convert_params(self, sql, varmap): # lock database if application side lock is used if self.usingAppLock and \ (re.search('^INSERT', sql, re.I) is not None or re.search('^UPDATE', sql, re.I) is not None or re.search(' FOR UPDATE', sql, re.I) is not None or re.search('^DELETE', sql, re.I) is not None ): self.lockDB = True # remove FOR UPDATE for sqlite if harvester_config.db.engine == 'sqlite': sql = re.sub(' FOR UPDATE', ' ', sql, re.I) sql = re.sub('INSERT IGNORE', 'INSERT OR IGNORE', sql, re.I) else: sql = re.sub('INSERT OR IGNORE', 'INSERT IGNORE', sql, re.I) # no conversation unless dict if not isinstance(varmap, dict): # using the printf style syntax for mariaDB if harvester_config.db.engine == 'mariadb': sql = re.sub(':[^ $,)]+', '%s', sql) return sql, varmap paramList = [] # extract placeholders items = re.findall(':[^ $,)]+', sql) for item in items: if item not in varmap: raise KeyError('{0} is missing in SQL parameters'.format(item)) if item not in paramList: paramList.append(varmap[item]) # using the printf style syntax for mariaDB if harvester_config.db.engine == 'mariadb': sql = re.sub(':[^ $,)]+', '%s', sql) return sql, paramList # wrapper for execute def execute(self, sql, varmap=None): sw = core_utils.get_stopwatch() if varmap is None: varmap = dict() # get lock if application side lock is used if self.usingAppLock and not self.lockDB: if harvester_config.db.verbose: self.verbLog.debug('thr={0} locking'.format(self.thrName)) conLock.acquire() if harvester_config.db.verbose: self.verbLog.debug('thr={0} locked'.format(self.thrName)) # execute try: # verbose if harvester_config.db.verbose: if not self.useInspect: self.verbLog.debug('thr={2} sql={0} var={1}'.format(sql, str(varmap), self.thrName)) else: self.verbLog.debug('thr={3} sql={0} var={1} exec={2}'.format(sql, str(varmap), inspect.stack()[1][3], self.thrName)) # convert param dict newSQL, params = self.convert_params(sql, varmap) # execute try: retVal = self.cur.execute(newSQL, params) except Exception as e: self._handle_exception(e) if harvester_config.db.verbose: self.verbLog.debug('thr={0} exception during execute'.format(self.thrName)) raise finally: # release lock if self.usingAppLock and not self.lockDB: if harvester_config.db.verbose: self.verbLog.debug('thr={0} release'.format(self.thrName)) conLock.release() # return if harvester_config.db.verbose: self.verbLog.debug('thr={0} {1} sql=[{2}]'.format(self.thrName, sw.get_elapsed_time(), newSQL.replace('\n', ' ').strip())) return retVal # wrapper for executemany def executemany(self, sql, varmap_list): # get lock if self.usingAppLock and not self.lockDB: if harvester_config.db.verbose: self.verbLog.debug('thr={0} locking'.format(self.thrName)) conLock.acquire() if harvester_config.db.verbose: self.verbLog.debug('thr={0} locked'.format(self.thrName)) try: # verbose if harvester_config.db.verbose: if not self.useInspect: self.verbLog.debug('thr={2} sql={0} var={1}'.format(sql, str(varmap_list), self.thrName)) else: self.verbLog.debug('thr={3} sql={0} var={1} exec={2}'.format(sql, str(varmap_list), inspect.stack()[1][3], self.thrName)) # convert param dict paramList = [] newSQL = sql for varMap in varmap_list: if varMap is None: varMap = dict() newSQL, params = self.convert_params(sql, varMap) paramList.append(params) # execute try: if harvester_config.db.engine == 'sqlite': retVal = [] iList = 0 nList = 5000 while iList < len(paramList): retVal += self.cur.executemany(newSQL, paramList[iList:iList+nList]) iList += nList else: retVal = self.cur.executemany(newSQL, paramList) except Exception as e: self._handle_exception(e) if harvester_config.db.verbose: self.verbLog.debug('thr={0} exception during executemany'.format(self.thrName)) raise finally: # release lock if self.usingAppLock and not self.lockDB: if harvester_config.db.verbose: self.verbLog.debug('thr={0} release'.format(self.thrName)) conLock.release() # return return retVal # commit def commit(self): try: self.con.commit() except Exception as e: self._handle_exception(e) if harvester_config.db.verbose: self.verbLog.debug('thr={0} exception during commit'.format(self.thrName)) raise if self.usingAppLock and self.lockDB: if harvester_config.db.verbose: self.verbLog.debug('thr={0} release with commit'.format(self.thrName)) conLock.release() self.lockDB = False # rollback def rollback(self): try: self.con.rollback() except Exception as e: self._handle_exception(e) if harvester_config.db.verbose: self.verbLog.debug('thr={0} exception during rollback'.format(self.thrName)) finally: if self.usingAppLock and self.lockDB: if harvester_config.db.verbose: self.verbLog.debug('thr={0} release with rollback'.format(self.thrName)) conLock.release() self.lockDB = False # type conversion def type_conversion(self, attr_type): # remove decorator attr_type = attr_type.split('/')[0] attr_type = attr_type.strip() if attr_type == 'timestamp': # add NULL attribute to disable automatic update attr_type += ' null' # type conversion if harvester_config.db.engine == 'mariadb': if attr_type.startswith('text'): attr_type = attr_type.replace('text', 'varchar(256)') elif attr_type.startswith('blob'): attr_type = attr_type.replace('blob', 'longtext') elif attr_type.startswith('integer'): attr_type = attr_type.replace('integer', 'bigint') attr_type = attr_type.replace('autoincrement', 'auto_increment') elif harvester_config.db.engine == 'sqlite': if attr_type.startswith('varchar'): attr_type = re.sub('varchar\(\d+\)', 'text', attr_type) attr_type = attr_type.replace('auto_increment', 'autoincrement') return attr_type # check if index is needed def need_index(self, attr): isIndex = False isUnique = False # look for separator if '/' in attr: decorators = attr.split('/')[-1].split() if 'index' in decorators: isIndex = True if 'unique' in decorators: isIndex = True isUnique = True return isIndex, isUnique # make table def make_table(self, cls, table_name): try: # get logger tmpLog = core_utils.make_logger(_logger, method_name='make_table') tmpLog.debug('table={0}'.format(table_name)) # check if table already exists varMap = dict() varMap[':name'] = table_name if harvester_config.db.engine == 'mariadb': varMap[':schema'] = harvester_config.db.schema sqlC = 'SELECT * FROM information_schema.tables WHERE table_schema=:schema AND table_name=:name ' else: varMap[':type'] = 'table' sqlC = 'SELECT name FROM sqlite_master WHERE type=:type AND tbl_name=:name ' self.execute(sqlC, varMap) resC = self.cur.fetchone() indexes = [] uniques = set() # not exists if resC is None: # sql to make table sqlM = 'CREATE TABLE {0}('.format(table_name) # collect columns for attr in cls.attributesWithTypes: # split to name and type attrName, attrType = attr.split(':') attrType = self.type_conversion(attrType) # check if index is needed isIndex, isUnique = self.need_index(attr) if isIndex: indexes.append(attrName) if isUnique: uniques.add(attrName) sqlM += '{0} {1},'.format(attrName, attrType) sqlM = sqlM[:-1] sqlM += ')' # make table self.execute(sqlM) # commit self.commit() tmpLog.debug('made {0}'.format(table_name)) else: # check table missingAttrs = self.check_table(cls, table_name, True) if len(missingAttrs) > 0: for attr in cls.attributesWithTypes: # split to name and type attrName, attrType = attr.split(':') attrType = self.type_conversion(attrType) # ony missing if attrName not in missingAttrs: continue # check if index is needed isIndex, isUnique = self.need_index(attr) if isIndex: indexes.append(attrName) if isUnique: uniques.add(attrName) # add column sqlA = 'ALTER TABLE {0} ADD COLUMN '.format(table_name) sqlA += '{0} {1}'.format(attrName, attrType) try: self.execute(sqlA) # commit self.commit() tmpLog.debug('added {0} to {1}'.format(attr, table_name)) except Exception: core_utils.dump_error_message(tmpLog) # make indexes for index in indexes: indexName = 'idx_{0}_{1}'.format(index, table_name) if index in uniques: sqlI = "CREATE UNIQUE INDEX " else: sqlI = "CREATE INDEX " sqlI += "{0} ON {1}({2}) ".format(indexName, table_name, index) try: self.execute(sqlI) # commit self.commit() tmpLog.debug('added {0}'.format(indexName)) except Exception: core_utils.dump_error_message(tmpLog) except Exception: # roll back self.rollback() # dump error core_utils.dump_error_message(_logger) return self.check_table(cls, table_name) # make tables def make_tables(self, queue_config_mapper): outStrs = [] outStrs += self.make_table(CommandSpec, commandTableName) outStrs += self.make_table(JobSpec, jobTableName) outStrs += self.make_table(WorkSpec, workTableName) outStrs += self.make_table(FileSpec, fileTableName) outStrs += self.make_table(EventSpec, eventTableName) outStrs += self.make_table(CacheSpec, cacheTableName) outStrs += self.make_table(SeqNumberSpec, seqNumberTableName) outStrs += self.make_table(PandaQueueSpec, pandaQueueTableName) outStrs += self.make_table(JobWorkerRelationSpec, jobWorkerTableName) outStrs += self.make_table(ProcessLockSpec, processLockTableName) outStrs += self.make_table(DiagSpec, diagTableName) outStrs += self.make_table(QueueConfigDumpSpec, queueConfigDumpTableName) outStrs += self.make_table(ServiceMetricSpec, serviceMetricsTableName) # dump error messages if len(outStrs) > 0: errMsg = "ERROR : Definitions of some database tables are incorrect. " errMsg += "Please add missing columns, or drop those tables " errMsg += "so that harvester automatically re-creates those tables." errMsg += "\n" print (errMsg) for outStr in outStrs: print (outStr) sys.exit(1) # add sequential numbers self.add_seq_number('SEQ_workerID', 1) self.add_seq_number('SEQ_configID', 1) # fill PandaQueue table queue_config_mapper.load_data() # delete process locks self.clean_process_locks() # check table def check_table(self, cls, table_name, get_missing=False): # get columns in DB varMap = dict() if harvester_config.db.engine == 'mariadb': varMap[':name'] = table_name sqlC = 'SELECT column_name,column_type FROM information_schema.columns WHERE table_name=:name ' else: sqlC = 'PRAGMA table_info({0}) '.format(table_name) self.execute(sqlC, varMap) resC = self.cur.fetchall() colMap = dict() for tmpItem in resC: if harvester_config.db.engine == 'mariadb': if hasattr(tmpItem, '_asdict'): tmpItem = tmpItem._asdict() columnName, columnType = tmpItem['column_name'], tmpItem['column_type'] else: columnName, columnType = tmpItem[1], tmpItem[2] colMap[columnName] = columnType self.commit() # check with class definition outStrs = [] for attr in cls.attributesWithTypes: attrName, attrType = attr.split(':') if attrName not in colMap: if get_missing: outStrs.append(attrName) else: attrType = self.type_conversion(attrType) outStrs.append('{0} {1} is missing in {2}'.format(attrName, attrType, table_name)) return outStrs # insert jobs def insert_jobs(self, jobspec_list): # get logger tmpLog = core_utils.make_logger(_logger, method_name='insert_jobs') tmpLog.debug('{0} jobs'.format(len(jobspec_list))) try: # sql to insert a job sqlJ = "INSERT INTO {0} ({1}) ".format(jobTableName, JobSpec.column_names()) sqlJ += JobSpec.bind_values_expression() # sql to insert a file sqlF = "INSERT INTO {0} ({1}) ".format(fileTableName, FileSpec.column_names()) sqlF += FileSpec.bind_values_expression() # sql to delete job sqlDJ = "DELETE FROM {0} ".format(jobTableName) sqlDJ += "WHERE PandaID=:PandaID " # sql to delete files sqlDF = "DELETE FROM {0} ".format(fileTableName) sqlDF += "WHERE PandaID=:PandaID " # sql to delete events sqlDE = "DELETE FROM {0} ".format(eventTableName) sqlDE += "WHERE PandaID=:PandaID " # sql to delete relations sqlDR = "DELETE FROM {0} ".format(jobWorkerTableName) sqlDR += "WHERE PandaID=:PandaID " # loop over all jobs varMapsJ = [] varMapsF = [] for jobSpec in jobspec_list: # delete job just in case varMap = dict() varMap[':PandaID'] = jobSpec.PandaID self.execute(sqlDJ, varMap) iDel = self.cur.rowcount if iDel > 0: # delete files self.execute(sqlDF, varMap) # delete events self.execute(sqlDE, varMap) # delete relations self.execute(sqlDR, varMap) # commit self.commit() # insert job and files varMap = jobSpec.values_list() varMapsJ.append(varMap) for fileSpec in jobSpec.inFiles: varMap = fileSpec.values_list() varMapsF.append(varMap) # insert self.executemany(sqlJ, varMapsJ) self.executemany(sqlF, varMapsF) # commit self.commit() # return return True except Exception: # roll back self.rollback() # dump error core_utils.dump_error_message(tmpLog) # return return False # get job def get_job(self, panda_id): try: # get logger tmpLog = core_utils.make_logger(_logger, 'PandaID={0}'.format(panda_id), method_name='get_job') tmpLog.debug('start') # sql to get job sql = "SELECT {0} FROM {1} ".format(JobSpec.column_names(), jobTableName) sql += "WHERE PandaID=:pandaID " # get job varMap = dict() varMap[':pandaID'] = panda_id self.execute(sql, varMap) resJ = self.cur.fetchone() if resJ is None: jobSpec = None else: # make job jobSpec = JobSpec() jobSpec.pack(resJ) # get files sqlF = "SELECT {0} FROM {1} ".format(FileSpec.column_names(), fileTableName) sqlF += "WHERE PandaID=:PandaID " varMap = dict() varMap[':PandaID'] = panda_id self.execute(sqlF, varMap) resFileList = self.cur.fetchall() for resFile in resFileList: fileSpec = FileSpec() fileSpec.pack(resFile) jobSpec.add_file(fileSpec) # commit self.commit() tmpLog.debug('done') # return return jobSpec except Exception: # roll back self.rollback() # dump error core_utils.dump_error_message(_logger) # return return None # get all jobs (fetch entire jobTable) def get_jobs(self): try: # get logger tmpLog = core_utils.make_logger(_logger, method_name='get_jobs') tmpLog.debug('start') # sql to get job sql = "SELECT {0} FROM {1} ".format(JobSpec.column_names(), jobTableName) sql += "WHERE PandaID IS NOT NULL" # get jobs varMap = None self.execute(sql, varMap) resJobs = self.cur.fetchall() if resJobs is None: return None jobSpecList=[] # make jobs list for resJ in resJobs: jobSpec = JobSpec() jobSpec.pack(resJ) jobSpecList.append(jobSpec) tmpLog.debug('done') # return return jobSpecList except Exception: # roll back self.rollback() # dump error core_utils.dump_error_message(_logger) # return return None # update job def update_job(self, jobspec, criteria=None, update_in_file=False): try: # get logger tmpLog = core_utils.make_logger(_logger, 'PandaID={0} subStatus={1}'.format(jobspec.PandaID, jobspec.subStatus), method_name='update_job') tmpLog.debug('start') if criteria is None: criteria = {} # sql to update job sql = "UPDATE {0} SET {1} ".format(jobTableName, jobspec.bind_update_changes_expression()) sql += "WHERE PandaID=:PandaID " # update job varMap = jobspec.values_map(only_changed=True) for tmpKey, tmpVal in iteritems(criteria): mapKey = ':{0}_cr'.format(tmpKey) sql += "AND {0}={1} ".format(tmpKey, mapKey) varMap[mapKey] = tmpVal varMap[':PandaID'] = jobspec.PandaID self.execute(sql, varMap) nRow = self.cur.rowcount if nRow > 0: # update events for eventSpec in jobspec.events: varMap = eventSpec.values_map(only_changed=True) if varMap != {}: sqlE = "UPDATE {0} SET {1} ".format(eventTableName, eventSpec.bind_update_changes_expression()) sqlE += "WHERE eventRangeID=:eventRangeID " varMap[':eventRangeID'] = eventSpec.eventRangeID self.execute(sqlE, varMap) # update input file if update_in_file: for fileSpec in jobspec.inFiles: varMap = fileSpec.values_map(only_changed=True) if varMap != {}: sqlF = "UPDATE {0} SET {1} ".format(fileTableName, fileSpec.bind_update_changes_expression()) sqlF += "WHERE fileID=:fileID " varMap[':fileID'] = fileSpec.fileID self.execute(sqlF, varMap) else: # set file status to done if jobs are done if jobspec.is_final_status(): varMap = dict() varMap[':PandaID'] = jobspec.PandaID varMap[':type'] = 'input' varMap[':status'] = 'done' sqlF = "UPDATE {0} SET status=:status ".format(fileTableName) sqlF += "WHERE PandaID=:PandaID AND fileType=:type " self.execute(sqlF, varMap) # set to_delete flag if jobspec.subStatus == 'done': sqlD = "UPDATE {0} SET todelete=:to_delete ".format(fileTableName) sqlD += "WHERE PandaID=:PandaID " varMap = dict() varMap[':PandaID'] = jobspec.PandaID varMap[':to_delete'] = 1 self.execute(sqlD, varMap) # commit self.commit() tmpLog.debug('done with {0}'.format(nRow)) # return return nRow except Exception: # roll back self.rollback() # dump error core_utils.dump_error_message(_logger) # return return None # insert output files into database def insert_files(self,jobspec_list): # get logger tmpLog = core_utils.make_logger(_logger, method_name='insert_files') tmpLog.debug('{0} jobs'.format(len(jobspec_list))) try: # sql to insert a file sqlF = "INSERT INTO {0} ({1}) ".format(fileTableName, FileSpec.column_names()) sqlF += FileSpec.bind_values_expression() # loop over all jobs varMapsF = [] for jobSpec in jobspec_list: for fileSpec in jobSpec.outFiles: varMap = fileSpec.values_list() varMapsF.append(varMap) # insert self.executemany(sqlF, varMapsF) # commit self.commit() # return return True except Exception: # roll back self.rollback() # dump error core_utils.dump_error_message(tmpLog) # return return False # update worker def update_worker(self, workspec, criteria=None): try: # get logger tmpLog = core_utils.make_logger(_logger, 'workerID={0}'.format(workspec.workerID), method_name='update_worker') tmpLog.debug('start') if criteria is None: criteria = {} # sql to update job sql = "UPDATE {0} SET {1} ".format(workTableName, workspec.bind_update_changes_expression()) sql += "WHERE workerID=:workerID " # update worker varMap = workspec.values_map(only_changed=True) if len(varMap) > 0: for tmpKey, tmpVal in iteritems(criteria): mapKey = ':{0}_cr'.format(tmpKey) sql += "AND {0}={1} ".format(tmpKey, mapKey) varMap[mapKey] = tmpVal varMap[':workerID'] = workspec.workerID self.execute(sql, varMap) nRow = self.cur.rowcount # commit self.commit() tmpLog.debug('done with {0}'.format(nRow)) else: nRow = None tmpLog.debug('skip since no updated attributes') # return return nRow except Exception: # roll back self.rollback() # dump error core_utils.dump_error_message(_logger) # return return None # fill panda queue table def fill_panda_queue_table(self, panda_queue_list, queue_config_mapper): try: # get logger tmpLog = core_utils.make_logger(_logger, method_name='fill_panda_queue_table') tmpLog.debug('start') # get existing queues sqlE = "SELECT queueName FROM {0} ".format(pandaQueueTableName) varMap = dict() self.execute(sqlE, varMap) resE = self.cur.fetchall() for queueName, in resE: # delete if not listed in cfg if queueName not in panda_queue_list: sqlD = "DELETE FROM {0} ".format(pandaQueueTableName) sqlD += "WHERE queueName=:queueName " varMap = dict() varMap[':queueName'] = queueName self.execute(sqlD, varMap) # commit self.commit() # loop over queues for queueName in panda_queue_list: queueConfig = queue_config_mapper.get_queue(queueName) if queueConfig is not None: # check if already exist sqlC = "SELECT * FROM {0} ".format(pandaQueueTableName) sqlC += "WHERE queueName=:queueName " varMap = dict() varMap[':queueName'] = queueName self.execute(sqlC, varMap) resC = self.cur.fetchone() if resC is not None: # update limits just in case varMap = dict() sqlU = "UPDATE {0} SET ".format(pandaQueueTableName) for qAttr in ['nQueueLimitJob', 'nQueueLimitWorker', 'maxWorkers', 'nQueueLimitJobRatio', 'nQueueLimitJobMax', 'nQueueLimitJobMin', 'nQueueLimitWorkerRatio', 'nQueueLimitWorkerMax', 'nQueueLimitWorkerMin']: if hasattr(queueConfig, qAttr): sqlU += '{0}=:{0},'.format(qAttr) varMap[':{0}'.format(qAttr)] = getattr(queueConfig, qAttr) if len(varMap) == 0: continue sqlU = sqlU[:-1] sqlU += " WHERE queueName=:queueName " varMap[':queueName'] = queueName self.execute(sqlU, varMap) else: # insert queue varMap = dict() varMap[':queueName'] = queueName attrName_list = [] tmpKey_list = [] for attrName in PandaQueueSpec.column_names().split(','): if hasattr(queueConfig, attrName): tmpKey = ':{0}'.format(attrName) attrName_list.append(attrName) tmpKey_list.append(tmpKey) varMap[tmpKey] = getattr(queueConfig, attrName) sqlP = "INSERT IGNORE INTO {0} ({1}) ".format(pandaQueueTableName, ','.join(attrName_list)) sqlS = "VALUES ({0}) ".format(','.join(tmpKey_list)) self.execute(sqlP + sqlS, varMap) # commit self.commit() tmpLog.debug('done') # return return True except Exception: # roll back self.rollback() # dump error core_utils.dump_error_message(_logger) # return return False # get number of jobs to fetch def get_num_jobs_to_fetch(self, n_queues, interval): # get logger tmpLog = core_utils.make_logger(_logger, method_name='get_num_jobs_to_fetch') try: tmpLog.debug('start') retMap = {} # sql to get queues sqlQ = "SELECT queueName,nQueueLimitJob,nQueueLimitJobRatio,nQueueLimitJobMax,nQueueLimitJobMin " sqlQ += "FROM {0} ".format(pandaQueueTableName) sqlQ += "WHERE jobFetchTime IS NULL OR jobFetchTime<:timeLimit " sqlQ += "ORDER BY jobFetchTime " # sql to count nQueue sqlN = "SELECT COUNT(*) cnt,status FROM {0} ".format(jobTableName) sqlN += "WHERE computingSite=:computingSite AND status IN (:status1,:status2) " sqlN += "GROUP BY status " # sql to update timestamp sqlU = "UPDATE {0} SET jobFetchTime=:jobFetchTime ".format(pandaQueueTableName) sqlU += "WHERE queueName=:queueName " sqlU += "AND (jobFetchTime IS NULL OR jobFetchTime<:timeLimit) " # get queues timeNow = datetime.datetime.utcnow() varMap = dict() varMap[':timeLimit'] = timeNow - datetime.timedelta(seconds=interval) self.execute(sqlQ, varMap) resQ = self.cur.fetchall() iQueues = 0 for queueName, nQueueLimitJob, nQueueLimitJobRatio, \ nQueueLimitJobMax, nQueueLimitJobMin in resQ: # update timestamp to lock the queue varMap = dict() varMap[':queueName'] = queueName varMap[':jobFetchTime'] = timeNow varMap[':timeLimit'] = timeNow - datetime.timedelta(seconds=interval) self.execute(sqlU, varMap) nRow = self.cur.rowcount # commit self.commit() # skip if not locked if nRow == 0: continue # count nQueue varMap = dict() varMap[':computingSite'] = queueName varMap[':status1'] = 'starting' varMap[':status2'] = 'running' self.execute(sqlN, varMap) resN = self.cur.fetchall() nsMap = dict() for tmpN, tmpStatus in resN: nsMap[tmpStatus] = tmpN # get num of queued jobs try: nQueue = nsMap['starting'] except Exception: nQueue = 0 # dynamic nQueueLimitJob if nQueueLimitJobRatio is not None and nQueueLimitJobRatio > 0: try: nRunning = nsMap['running'] except Exception: nRunning = 0 nQueueLimitJob = int(nRunning * nQueueLimitJobRatio / 100) if nQueueLimitJobMin is None: nQueueLimitJobMin = 1 nQueueLimitJob = max(nQueueLimitJob, nQueueLimitJobMin) if nQueueLimitJobMax is not None: nQueueLimitJob = min(nQueueLimitJob, nQueueLimitJobMax) # more jobs need to be queued if nQueueLimitJob is not None and nQueue < nQueueLimitJob: retMap[queueName] = nQueueLimitJob - nQueue # enough queues iQueues += 1 if iQueues >= n_queues: break tmpLog.debug('got {0}'.format(str(retMap))) return retMap except Exception: # roll back self.rollback() # dump error core_utils.dump_error_message(tmpLog) # return return {} # get jobs to propagate checkpoints def get_jobs_to_propagate(self, max_jobs, lock_interval, update_interval, locked_by): try: # get logger tmpLog = core_utils.make_logger(_logger, 'thr={0}'.format(locked_by), method_name='get_jobs_to_propagate') tmpLog.debug('start') # sql to get jobs sql = "SELECT PandaID FROM {0} ".format(jobTableName) sql += "WHERE propagatorTime IS NOT NULL " sql += "AND ((propagatorTime<:lockTimeLimit AND propagatorLock IS NOT NULL) " sql += "OR (propagatorTime<:updateTimeLimit AND propagatorLock IS NULL)) " sql += "ORDER BY propagatorTime LIMIT {0} ".format(max_jobs) # sql to get jobs sqlJ = "SELECT {0} FROM {1} ".format(JobSpec.column_names(), jobTableName) sqlJ += "WHERE PandaID=:PandaID " # sql to lock job sqlL = "UPDATE {0} SET propagatorTime=:timeNow,propagatorLock=:lockedBy ".format(jobTableName) sqlL += "WHERE PandaID=:PandaID " sqlL += "AND ((propagatorTime<:lockTimeLimit AND propagatorLock IS NOT NULL) " sqlL += "OR (propagatorTime<:updateTimeLimit AND propagatorLock IS NULL)) " # sql to get events sqlE = "SELECT {0} FROM {1} ".format(EventSpec.column_names(), eventTableName) sqlE += "WHERE PandaID=:PandaID AND subStatus IN (:statusFinished,:statusFailed) " # sql to get file sqlF = "SELECT DISTINCT {0} FROM {1} f, {2} e, {1} f2 ".format(FileSpec.column_names('f2'), fileTableName, eventTableName) sqlF += "WHERE e.PandaID=:PandaID AND e.fileID=f.fileID " sqlF += "AND e.subStatus IN (:statusFinished,:statusFailed) " sqlF += "AND f2.fileID=f.zipFileID " # sql to get fileID of zip sqlZ = "SELECT e.fileID,f.zipFileID FROM {0} f, {1} e ".format(fileTableName, eventTableName) sqlZ += "WHERE e.PandaID=:PandaID AND e.fileID=f.fileID " sqlZ += "AND e.subStatus IN (:statusFinished,:statusFailed) " # get jobs timeNow = datetime.datetime.utcnow() lockTimeLimit = timeNow - datetime.timedelta(seconds=lock_interval) updateTimeLimit = timeNow - datetime.timedelta(seconds=update_interval) varMap = dict() varMap[':lockTimeLimit'] = lockTimeLimit varMap[':updateTimeLimit'] = updateTimeLimit self.execute(sql, varMap) resList = self.cur.fetchall() pandaIDs = [] for pandaID, in resList: pandaIDs.append(pandaID) # partially randomise to increase success rate for lock nJobs = int(max_jobs * 0.2) subPandaIDs = list(pandaIDs[nJobs:]) random.shuffle(subPandaIDs) pandaIDs = pandaIDs[:nJobs] + subPandaIDs pandaIDs = pandaIDs[:max_jobs] jobSpecList = [] iEvents = 0 for pandaID in pandaIDs: # avoid a bulk update for many jobs with too many events if iEvents > 10000: break # lock job varMap = dict() varMap[':PandaID'] = pandaID varMap[':timeNow'] = timeNow varMap[':lockedBy'] = locked_by varMap[':lockTimeLimit'] = lockTimeLimit varMap[':updateTimeLimit'] = updateTimeLimit self.execute(sqlL, varMap) nRow = self.cur.rowcount # commit self.commit() if nRow > 0: # read job varMap = dict() varMap[':PandaID'] = pandaID self.execute(sqlJ, varMap) res = self.cur.fetchone() # make job jobSpec = JobSpec() jobSpec.pack(res) jobSpec.propagatorLock = locked_by zipFiles = {} zipIdMap = dict() # get zipIDs varMap = dict() varMap[':PandaID'] = jobSpec.PandaID varMap[':statusFinished'] = 'finished' varMap[':statusFailed'] = 'failed' self.execute(sqlZ, varMap) resZ = self.cur.fetchall() for tmpFileID, tmpZipFileID in resZ: zipIdMap[tmpFileID] = tmpZipFileID # get zip files varMap = dict() varMap[':PandaID'] = jobSpec.PandaID varMap[':statusFinished'] = 'finished' varMap[':statusFailed'] = 'failed' self.execute(sqlF, varMap) resFs = self.cur.fetchall() for resF in resFs: fileSpec = FileSpec() fileSpec.pack(resF) zipFiles[fileSpec.fileID] = fileSpec # read events varMap = dict() varMap[':PandaID'] = jobSpec.PandaID varMap[':statusFinished'] = 'finished' varMap[':statusFailed'] = 'failed' self.execute(sqlE, varMap) resEs = self.cur.fetchall() for resE in resEs: eventSpec = EventSpec() eventSpec.pack(resE) zipFileSpec = None # get associated zip file if any if eventSpec.fileID is not None: if eventSpec.fileID not in zipIdMap: continue zipFileID = zipIdMap[eventSpec.fileID] if zipFileID is not None: zipFileSpec = zipFiles[zipFileID] jobSpec.add_event(eventSpec, zipFileSpec) iEvents += 1 jobSpecList.append(jobSpec) tmpLog.debug('got {0} jobs'.format(len(jobSpecList))) return jobSpecList except Exception: # roll back self.rollback() # dump error core_utils.dump_error_message(_logger) # return return [] # get jobs in sub status def get_jobs_in_sub_status(self, sub_status, max_jobs, time_column=None, lock_column=None, interval_without_lock=None, interval_with_lock=None, locked_by=None, new_sub_status=None): try: