// Generated by the protocol buffer compiler. DO NOT EDIT! // source: velodyne_config.proto #ifndef PROTOBUF_velodyne_5fconfig_2eproto__INCLUDED #define PROTOBUF_velodyne_5fconfig_2eproto__INCLUDED #include #include #if GOOGLE_PROTOBUF_VERSION < 3005000 #error This file was generated by a newer version of protoc which is #error incompatible with your Protocol Buffer headers. Please update #error your headers. #endif #if 3005000 < GOOGLE_PROTOBUF_MIN_PROTOC_VERSION #error This file was generated by an older version of protoc which is #error incompatible with your Protocol Buffer headers. Please #error regenerate this file with a newer version of protoc. #endif #include #include #include #include #include #include #include #include // IWYU pragma: export #include // IWYU pragma: export #include // @@protoc_insertion_point(includes) namespace protobuf_velodyne_5fconfig_2eproto { // Internal implementation detail -- do not use these members. struct TableStruct { static const ::google::protobuf::internal::ParseTableField entries[]; static const ::google::protobuf::internal::AuxillaryParseTableField aux[]; static const ::google::protobuf::internal::ParseTable schema[2]; static const ::google::protobuf::internal::FieldMetadata field_metadata[]; static const ::google::protobuf::internal::SerializationTable serialization_table[]; static const ::google::protobuf::uint32 offsets[]; }; void AddDescriptors(); void InitDefaultsvelodyneManagerParamsImpl(); void InitDefaultsvelodyneManagerParams(); void InitDefaultsvelodyneLidarParamsImpl(); void InitDefaultsvelodyneLidarParams(); inline void InitDefaults() { InitDefaultsvelodyneManagerParams(); InitDefaultsvelodyneLidarParams(); } } // namespace protobuf_velodyne_5fconfig_2eproto namespace velodyne { class velodyneLidarParams; class velodyneLidarParamsDefaultTypeInternal; extern velodyneLidarParamsDefaultTypeInternal _velodyneLidarParams_default_instance_; class velodyneManagerParams; class velodyneManagerParamsDefaultTypeInternal; extern velodyneManagerParamsDefaultTypeInternal _velodyneManagerParams_default_instance_; } // namespace velodyne namespace velodyne { // =================================================================== class velodyneManagerParams : public ::google::protobuf::Message /* @@protoc_insertion_point(class_definition:velodyne.velodyneManagerParams) */ { public: velodyneManagerParams(); virtual ~velodyneManagerParams(); velodyneManagerParams(const velodyneManagerParams& from); inline velodyneManagerParams& operator=(const velodyneManagerParams& from) { CopyFrom(from); return *this; } #if LANG_CXX11 velodyneManagerParams(velodyneManagerParams&& from) noexcept : velodyneManagerParams() { *this = ::std::move(from); } inline velodyneManagerParams& operator=(velodyneManagerParams&& from) noexcept { if (GetArenaNoVirtual() == from.GetArenaNoVirtual()) { if (this != &from) InternalSwap(&from); } else { CopyFrom(from); } return *this; } #endif inline const ::google::protobuf::UnknownFieldSet& unknown_fields() const { return _internal_metadata_.unknown_fields(); } inline ::google::protobuf::UnknownFieldSet* mutable_unknown_fields() { return _internal_metadata_.mutable_unknown_fields(); } static const ::google::protobuf::Descriptor* descriptor(); static const velodyneManagerParams& default_instance(); static void InitAsDefaultInstance(); // FOR INTERNAL USE ONLY static inline const velodyneManagerParams* internal_default_instance() { return reinterpret_cast( &_velodyneManagerParams_default_instance_); } static PROTOBUF_CONSTEXPR int const kIndexInFileMessages = 0; void Swap(velodyneManagerParams* other); friend void swap(velodyneManagerParams& a, velodyneManagerParams& b) { a.Swap(&b); } // implements Message ---------------------------------------------- inline velodyneManagerParams* New() const PROTOBUF_FINAL { return New(NULL); } velodyneManagerParams* New(::google::protobuf::Arena* arena) const PROTOBUF_FINAL; void CopyFrom(const ::google::protobuf::Message& from) PROTOBUF_FINAL; void MergeFrom(const ::google::protobuf::Message& from) PROTOBUF_FINAL; void CopyFrom(const velodyneManagerParams& from); void MergeFrom(const velodyneManagerParams& from); void Clear() PROTOBUF_FINAL; bool IsInitialized() const PROTOBUF_FINAL; size_t ByteSizeLong() const PROTOBUF_FINAL; bool MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) PROTOBUF_FINAL; void SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const PROTOBUF_FINAL; ::google::protobuf::uint8* InternalSerializeWithCachedSizesToArray( bool deterministic, ::google::protobuf::uint8* target) const PROTOBUF_FINAL; int GetCachedSize() const PROTOBUF_FINAL { return _cached_size_; } private: void SharedCtor(); void SharedDtor(); void SetCachedSize(int size) const PROTOBUF_FINAL; void InternalSwap(velodyneManagerParams* other); private: inline ::google::protobuf::Arena* GetArenaNoVirtual() const { return NULL; } inline void* MaybeArenaPtr() const { return NULL; } public: ::google::protobuf::Metadata GetMetadata() const PROTOBUF_FINAL; // nested types ---------------------------------------------------- // accessors ------------------------------------------------------- // @@protoc_insertion_point(class_scope:velodyne.velodyneManagerParams) private: ::google::protobuf::internal::InternalMetadataWithArena _internal_metadata_; ::google::protobuf::internal::HasBits<1> _has_bits_; mutable int _cached_size_; friend struct ::protobuf_velodyne_5fconfig_2eproto::TableStruct; friend void ::protobuf_velodyne_5fconfig_2eproto::InitDefaultsvelodyneManagerParamsImpl(); }; // ------------------------------------------------------------------- class velodyneLidarParams : public ::google::protobuf::Message /* @@protoc_insertion_point(class_definition:velodyne.velodyneLidarParams) */ { public: velodyneLidarParams(); virtual ~velodyneLidarParams(); velodyneLidarParams(const velodyneLidarParams& from); inline velodyneLidarParams& operator=(const velodyneLidarParams& from) { CopyFrom(from); return *this; } #if LANG_CXX11 velodyneLidarParams(velodyneLidarParams&& from) noexcept : velodyneLidarParams() { *this = ::std::move(from); } inline velodyneLidarParams& operator=(velodyneLidarParams&& from) noexcept { if (GetArenaNoVirtual() == from.GetArenaNoVirtual()) { if (this != &from) InternalSwap(&from); } else { CopyFrom(from); } return *this; } #endif inline const ::google::protobuf::UnknownFieldSet& unknown_fields() const { return _internal_metadata_.unknown_fields(); } inline ::google::protobuf::UnknownFieldSet* mutable_unknown_fields() { return _internal_metadata_.mutable_unknown_fields(); } static const ::google::protobuf::Descriptor* descriptor(); static const velodyneLidarParams& default_instance(); static void InitAsDefaultInstance(); // FOR INTERNAL USE ONLY static inline const velodyneLidarParams* internal_default_instance() { return reinterpret_cast( &_velodyneLidarParams_default_instance_); } static PROTOBUF_CONSTEXPR int const kIndexInFileMessages = 1; void Swap(velodyneLidarParams* other); friend void swap(velodyneLidarParams& a, velodyneLidarParams& b) { a.Swap(&b); } // implements Message ---------------------------------------------- inline velodyneLidarParams* New() const PROTOBUF_FINAL { return New(NULL); } velodyneLidarParams* New(::google::protobuf::Arena* arena) const PROTOBUF_FINAL; void CopyFrom(const ::google::protobuf::Message& from) PROTOBUF_FINAL; void MergeFrom(const ::google::protobuf::Message& from) PROTOBUF_FINAL; void CopyFrom(const velodyneLidarParams& from); void MergeFrom(const velodyneLidarParams& from); void Clear() PROTOBUF_FINAL; bool IsInitialized() const PROTOBUF_FINAL; size_t ByteSizeLong() const PROTOBUF_FINAL; bool MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) PROTOBUF_FINAL; void SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const PROTOBUF_FINAL; ::google::protobuf::uint8* InternalSerializeWithCachedSizesToArray( bool deterministic, ::google::protobuf::uint8* target) const PROTOBUF_FINAL; int GetCachedSize() const PROTOBUF_FINAL { return _cached_size_; } private: void SharedCtor(); void SharedDtor(); void SetCachedSize(int size) const PROTOBUF_FINAL; void InternalSwap(velodyneLidarParams* other); private: inline ::google::protobuf::Arena* GetArenaNoVirtual() const { return NULL; } inline void* MaybeArenaPtr() const { return NULL; } public: ::google::protobuf::Metadata GetMetadata() const PROTOBUF_FINAL; // nested types ---------------------------------------------------- // accessors ------------------------------------------------------- // required string ip = 1 [default = ""]; bool has_ip() const; void clear_ip(); static const int kIpFieldNumber = 1; const ::std::string& ip() const; void set_ip(const ::std::string& value); #if LANG_CXX11 void set_ip(::std::string&& value); #endif void set_ip(const char* value); void set_ip(const char* value, size_t size); ::std::string* mutable_ip(); ::std::string* release_ip(); void set_allocated_ip(::std::string* ip); // required string model = 3 [default = "VLP16"]; bool has_model() const; void clear_model(); static const int kModelFieldNumber = 3; const ::std::string& model() const; void set_model(const ::std::string& value); #if LANG_CXX11 void set_model(::std::string&& value); #endif void set_model(const char* value); void set_model(const char* value, size_t size); ::std::string* mutable_model(); ::std::string* release_model(); void set_allocated_model(::std::string* model); // required string calibrationFile = 4 [default = ""]; bool has_calibrationfile() const; void clear_calibrationfile(); static const int kCalibrationFileFieldNumber = 4; const ::std::string& calibrationfile() const; void set_calibrationfile(const ::std::string& value); #if LANG_CXX11 void set_calibrationfile(::std::string&& value); #endif void set_calibrationfile(const char* value); void set_calibrationfile(const char* value, size_t size); ::std::string* mutable_calibrationfile(); ::std::string* release_calibrationfile(); void set_allocated_calibrationfile(::std::string* calibrationfile); // optional int32 min_angle = 7 [default = 0]; bool has_min_angle() const; void clear_min_angle(); static const int kMinAngleFieldNumber = 7; ::google::protobuf::int32 min_angle() const; void set_min_angle(::google::protobuf::int32 value); // optional int32 rpm = 9 [default = 600]; bool has_rpm() const; void clear_rpm(); static const int kRpmFieldNumber = 9; ::google::protobuf::int32 rpm() const; void set_rpm(::google::protobuf::int32 value); // required int32 port = 2 [default = 2368]; bool has_port() const; void clear_port(); static const int kPortFieldNumber = 2; ::google::protobuf::int32 port() const; void set_port(::google::protobuf::int32 value); // optional float max_range = 5 [default = 80]; bool has_max_range() const; void clear_max_range(); static const int kMaxRangeFieldNumber = 5; float max_range() const; void set_max_range(float value); // optional float min_range = 6 [default = 0.3]; bool has_min_range() const; void clear_min_range(); static const int kMinRangeFieldNumber = 6; float min_range() const; void set_min_range(float value); // optional int32 max_angle = 8 [default = 360]; bool has_max_angle() const; void clear_max_angle(); static const int kMaxAngleFieldNumber = 8; ::google::protobuf::int32 max_angle() const; void set_max_angle(::google::protobuf::int32 value); // @@protoc_insertion_point(class_scope:velodyne.velodyneLidarParams) private: void set_has_ip(); void clear_has_ip(); void set_has_port(); void clear_has_port(); void set_has_model(); void clear_has_model(); void set_has_calibrationfile(); void clear_has_calibrationfile(); void set_has_max_range(); void clear_has_max_range(); void set_has_min_range(); void clear_has_min_range(); void set_has_min_angle(); void clear_has_min_angle(); void set_has_max_angle(); void clear_has_max_angle(); void set_has_rpm(); void clear_has_rpm(); // helper for ByteSizeLong() size_t RequiredFieldsByteSizeFallback() const; ::google::protobuf::internal::InternalMetadataWithArena _internal_metadata_; ::google::protobuf::internal::HasBits<1> _has_bits_; mutable int _cached_size_; ::google::protobuf::internal::ArenaStringPtr ip_; static ::google::protobuf::internal::ExplicitlyConstructed< ::std::string> _default_model_; ::google::protobuf::internal::ArenaStringPtr model_; ::google::protobuf::internal::ArenaStringPtr calibrationfile_; ::google::protobuf::int32 min_angle_; ::google::protobuf::int32 rpm_; ::google::protobuf::int32 port_; float max_range_; float min_range_; ::google::protobuf::int32 max_angle_; friend struct ::protobuf_velodyne_5fconfig_2eproto::TableStruct; friend void ::protobuf_velodyne_5fconfig_2eproto::InitDefaultsvelodyneLidarParamsImpl(); }; // =================================================================== // =================================================================== #ifdef __GNUC__ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wstrict-aliasing" #endif // __GNUC__ // velodyneManagerParams // ------------------------------------------------------------------- // velodyneLidarParams // required string ip = 1 [default = ""]; inline bool velodyneLidarParams::has_ip() const { return (_has_bits_[0] & 0x00000001u) != 0; } inline void velodyneLidarParams::set_has_ip() { _has_bits_[0] |= 0x00000001u; } inline void velodyneLidarParams::clear_has_ip() { _has_bits_[0] &= ~0x00000001u; } inline void velodyneLidarParams::clear_ip() { ip_.ClearToEmptyNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited()); clear_has_ip(); } inline const ::std::string& velodyneLidarParams::ip() const { // @@protoc_insertion_point(field_get:velodyne.velodyneLidarParams.ip) return ip_.GetNoArena(); } inline void velodyneLidarParams::set_ip(const ::std::string& value) { set_has_ip(); ip_.SetNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited(), value); // @@protoc_insertion_point(field_set:velodyne.velodyneLidarParams.ip) } #if LANG_CXX11 inline void velodyneLidarParams::set_ip(::std::string&& value) { set_has_ip(); ip_.SetNoArena( &::google::protobuf::internal::GetEmptyStringAlreadyInited(), ::std::move(value)); // @@protoc_insertion_point(field_set_rvalue:velodyne.velodyneLidarParams.ip) } #endif inline void velodyneLidarParams::set_ip(const char* value) { GOOGLE_DCHECK(value != NULL); set_has_ip(); ip_.SetNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited(), ::std::string(value)); // @@protoc_insertion_point(field_set_char:velodyne.velodyneLidarParams.ip) } inline void velodyneLidarParams::set_ip(const char* value, size_t size) { set_has_ip(); ip_.SetNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited(), ::std::string(reinterpret_cast(value), size)); // @@protoc_insertion_point(field_set_pointer:velodyne.velodyneLidarParams.ip) } inline ::std::string* velodyneLidarParams::mutable_ip() { set_has_ip(); // @@protoc_insertion_point(field_mutable:velodyne.velodyneLidarParams.ip) return ip_.MutableNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited()); } inline ::std::string* velodyneLidarParams::release_ip() { // @@protoc_insertion_point(field_release:velodyne.velodyneLidarParams.ip) clear_has_ip(); return ip_.ReleaseNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited()); } inline void velodyneLidarParams::set_allocated_ip(::std::string* ip) { if (ip != NULL) { set_has_ip(); } else { clear_has_ip(); } ip_.SetAllocatedNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited(), ip); // @@protoc_insertion_point(field_set_allocated:velodyne.velodyneLidarParams.ip) } // required int32 port = 2 [default = 2368]; inline bool velodyneLidarParams::has_port() const { return (_has_bits_[0] & 0x00000020u) != 0; } inline void velodyneLidarParams::set_has_port() { _has_bits_[0] |= 0x00000020u; } inline void velodyneLidarParams::clear_has_port() { _has_bits_[0] &= ~0x00000020u; } inline void velodyneLidarParams::clear_port() { port_ = 2368; clear_has_port(); } inline ::google::protobuf::int32 velodyneLidarParams::port() const { // @@protoc_insertion_point(field_get:velodyne.velodyneLidarParams.port) return port_; } inline void velodyneLidarParams::set_port(::google::protobuf::int32 value) { set_has_port(); port_ = value; // @@protoc_insertion_point(field_set:velodyne.velodyneLidarParams.port) } // required string model = 3 [default = "VLP16"]; inline bool velodyneLidarParams::has_model() const { return (_has_bits_[0] & 0x00000002u) != 0; } inline void velodyneLidarParams::set_has_model() { _has_bits_[0] |= 0x00000002u; } inline void velodyneLidarParams::clear_has_model() { _has_bits_[0] &= ~0x00000002u; } inline void velodyneLidarParams::clear_model() { model_.ClearToDefaultNoArena(&::velodyne::velodyneLidarParams::_default_model_.get()); clear_has_model(); } inline const ::std::string& velodyneLidarParams::model() const { // @@protoc_insertion_point(field_get:velodyne.velodyneLidarParams.model) return model_.GetNoArena(); } inline void velodyneLidarParams::set_model(const ::std::string& value) { set_has_model(); model_.SetNoArena(&::velodyne::velodyneLidarParams::_default_model_.get(), value); // @@protoc_insertion_point(field_set:velodyne.velodyneLidarParams.model) } #if LANG_CXX11 inline void velodyneLidarParams::set_model(::std::string&& value) { set_has_model(); model_.SetNoArena( &::velodyne::velodyneLidarParams::_default_model_.get(), ::std::move(value)); // @@protoc_insertion_point(field_set_rvalue:velodyne.velodyneLidarParams.model) } #endif inline void velodyneLidarParams::set_model(const char* value) { GOOGLE_DCHECK(value != NULL); set_has_model(); model_.SetNoArena(&::velodyne::velodyneLidarParams::_default_model_.get(), ::std::string(value)); // @@protoc_insertion_point(field_set_char:velodyne.velodyneLidarParams.model) } inline void velodyneLidarParams::set_model(const char* value, size_t size) { set_has_model(); model_.SetNoArena(&::velodyne::velodyneLidarParams::_default_model_.get(), ::std::string(reinterpret_cast(value), size)); // @@protoc_insertion_point(field_set_pointer:velodyne.velodyneLidarParams.model) } inline ::std::string* velodyneLidarParams::mutable_model() { set_has_model(); // @@protoc_insertion_point(field_mutable:velodyne.velodyneLidarParams.model) return model_.MutableNoArena(&::velodyne::velodyneLidarParams::_default_model_.get()); } inline ::std::string* velodyneLidarParams::release_model() { // @@protoc_insertion_point(field_release:velodyne.velodyneLidarParams.model) clear_has_model(); return model_.ReleaseNoArena(&::velodyne::velodyneLidarParams::_default_model_.get()); } inline void velodyneLidarParams::set_allocated_model(::std::string* model) { if (model != NULL) { set_has_model(); } else { clear_has_model(); } model_.SetAllocatedNoArena(&::velodyne::velodyneLidarParams::_default_model_.get(), model); // @@protoc_insertion_point(field_set_allocated:velodyne.velodyneLidarParams.model) } // required string calibrationFile = 4 [default = ""]; inline bool velodyneLidarParams::has_calibrationfile() const { return (_has_bits_[0] & 0x00000004u) != 0; } inline void velodyneLidarParams::set_has_calibrationfile() { _has_bits_[0] |= 0x00000004u; } inline void velodyneLidarParams::clear_has_calibrationfile() { _has_bits_[0] &= ~0x00000004u; } inline void velodyneLidarParams::clear_calibrationfile() { calibrationfile_.ClearToEmptyNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited()); clear_has_calibrationfile(); } inline const ::std::string& velodyneLidarParams::calibrationfile() const { // @@protoc_insertion_point(field_get:velodyne.velodyneLidarParams.calibrationFile) return calibrationfile_.GetNoArena(); } inline void velodyneLidarParams::set_calibrationfile(const ::std::string& value) { set_has_calibrationfile(); calibrationfile_.SetNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited(), value); // @@protoc_insertion_point(field_set:velodyne.velodyneLidarParams.calibrationFile) } #if LANG_CXX11 inline void velodyneLidarParams::set_calibrationfile(::std::string&& value) { set_has_calibrationfile(); calibrationfile_.SetNoArena( &::google::protobuf::internal::GetEmptyStringAlreadyInited(), ::std::move(value)); // @@protoc_insertion_point(field_set_rvalue:velodyne.velodyneLidarParams.calibrationFile) } #endif inline void velodyneLidarParams::set_calibrationfile(const char* value) { GOOGLE_DCHECK(value != NULL); set_has_calibrationfile(); calibrationfile_.SetNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited(), ::std::string(value)); // @@protoc_insertion_point(field_set_char:velodyne.velodyneLidarParams.calibrationFile) } inline void velodyneLidarParams::set_calibrationfile(const char* value, size_t size) { set_has_calibrationfile(); calibrationfile_.SetNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited(), ::std::string(reinterpret_cast(value), size)); // @@protoc_insertion_point(field_set_pointer:velodyne.velodyneLidarParams.calibrationFile) } inline ::std::string* velodyneLidarParams::mutable_calibrationfile() { set_has_calibrationfile(); // @@protoc_insertion_point(field_mutable:velodyne.velodyneLidarParams.calibrationFile) return calibrationfile_.MutableNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited()); } inline ::std::string* velodyneLidarParams::release_calibrationfile() { // @@protoc_insertion_point(field_release:velodyne.velodyneLidarParams.calibrationFile) clear_has_calibrationfile(); return calibrationfile_.ReleaseNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited()); } inline void velodyneLidarParams::set_allocated_calibrationfile(::std::string* calibrationfile) { if (calibrationfile != NULL) { set_has_calibrationfile(); } else { clear_has_calibrationfile(); } calibrationfile_.SetAllocatedNoArena(&::google::protobuf::internal::GetEmptyStringAlreadyInited(), calibrationfile); // @@protoc_insertion_point(field_set_allocated:velodyne.velodyneLidarParams.calibrationFile) } // optional float max_range = 5 [default = 80]; inline bool velodyneLidarParams::has_max_range() const { return (_has_bits_[0] & 0x00000040u) != 0; } inline void velodyneLidarParams::set_has_max_range() { _has_bits_[0] |= 0x00000040u; } inline void velodyneLidarParams::clear_has_max_range() { _has_bits_[0] &= ~0x00000040u; } inline void velodyneLidarParams::clear_max_range() { max_range_ = 80; clear_has_max_range(); } inline float velodyneLidarParams::max_range() const { // @@protoc_insertion_point(field_get:velodyne.velodyneLidarParams.max_range) return max_range_; } inline void velodyneLidarParams::set_max_range(float value) { set_has_max_range(); max_range_ = value; // @@protoc_insertion_point(field_set:velodyne.velodyneLidarParams.max_range) } // optional float min_range = 6 [default = 0.3]; inline bool velodyneLidarParams::has_min_range() const { return (_has_bits_[0] & 0x00000080u) != 0; } inline void velodyneLidarParams::set_has_min_range() { _has_bits_[0] |= 0x00000080u; } inline void velodyneLidarParams::clear_has_min_range() { _has_bits_[0] &= ~0x00000080u; } inline void velodyneLidarParams::clear_min_range() { min_range_ = 0.3f; clear_has_min_range(); } inline float velodyneLidarParams::min_range() const { // @@protoc_insertion_point(field_get:velodyne.velodyneLidarParams.min_range) return min_range_; } inline void velodyneLidarParams::set_min_range(float value) { set_has_min_range(); min_range_ = value; // @@protoc_insertion_point(field_set:velodyne.velodyneLidarParams.min_range) } // optional int32 min_angle = 7 [default = 0]; inline bool velodyneLidarParams::has_min_angle() const { return (_has_bits_[0] & 0x00000008u) != 0; } inline void velodyneLidarParams::set_has_min_angle() { _has_bits_[0] |= 0x00000008u; } inline void velodyneLidarParams::clear_has_min_angle() { _has_bits_[0] &= ~0x00000008u; } inline void velodyneLidarParams::clear_min_angle() { min_angle_ = 0; clear_has_min_angle(); } inline ::google::protobuf::int32 velodyneLidarParams::min_angle() const { // @@protoc_insertion_point(field_get:velodyne.velodyneLidarParams.min_angle) return min_angle_; } inline void velodyneLidarParams::set_min_angle(::google::protobuf::int32 value) { set_has_min_angle(); min_angle_ = value; // @@protoc_insertion_point(field_set:velodyne.velodyneLidarParams.min_angle) } // optional int32 max_angle = 8 [default = 360]; inline bool velodyneLidarParams::has_max_angle() const { return (_has_bits_[0] & 0x00000100u) != 0; } inline void velodyneLidarParams::set_has_max_angle() { _has_bits_[0] |= 0x00000100u; } inline void velodyneLidarParams::clear_has_max_angle() { _has_bits_[0] &= ~0x00000100u; } inline void velodyneLidarParams::clear_max_angle() { max_angle_ = 360; clear_has_max_angle(); } inline ::google::protobuf::int32 velodyneLidarParams::max_angle() const { // @@protoc_insertion_point(field_get:velodyne.velodyneLidarParams.max_angle) return max_angle_; } inline void velodyneLidarParams::set_max_angle(::google::protobuf::int32 value) { set_has_max_angle(); max_angle_ = value; // @@protoc_insertion_point(field_set:velodyne.velodyneLidarParams.max_angle) } // optional int32 rpm = 9 [default = 600]; inline bool velodyneLidarParams::has_rpm() const { return (_has_bits_[0] & 0x00000010u) != 0; } inline void velodyneLidarParams::set_has_rpm() { _has_bits_[0] |= 0x00000010u; } inline void velodyneLidarParams::clear_has_rpm() { _has_bits_[0] &= ~0x00000010u; } inline void velodyneLidarParams::clear_rpm() { rpm_ = 600; clear_has_rpm(); } inline ::google::protobuf::int32 velodyneLidarParams::rpm() const { // @@protoc_insertion_point(field_get:velodyne.velodyneLidarParams.rpm) return rpm_; } inline void velodyneLidarParams::set_rpm(::google::protobuf::int32 value) { set_has_rpm(); rpm_ = value; // @@protoc_insertion_point(field_set:velodyne.velodyneLidarParams.rpm) } #ifdef __GNUC__ #pragma GCC diagnostic pop #endif // __GNUC__ // ------------------------------------------------------------------- // @@protoc_insertion_point(namespace_scope) } // namespace velodyne // @@protoc_insertion_point(global_scope) #endif // PROTOBUF_velodyne_5fconfig_2eproto__INCLUDED