// Automatically generated rust module for 'data_types.proto' file #![allow(non_snake_case)] #![allow(non_upper_case_globals)] #![allow(non_camel_case_types)] #![allow(unused_imports)] #![allow(unknown_lints)] #![allow(clippy::all)] #![cfg_attr(rustfmt, rustfmt_skip)] use std::borrow::Cow; use std::collections::HashMap; type KVMap = HashMap; use quick_protobuf::{MessageInfo, MessageRead, MessageWrite, BytesReader, Writer, WriterBackend, Result}; use quick_protobuf::sizeofs::*; use super::*; #[derive(Debug, PartialEq, Eq, Clone, Copy)] pub enum FooEnum { FIRST_VALUE = 1, SECOND_VALUE = 2, } impl Default for FooEnum { fn default() -> Self { FooEnum::FIRST_VALUE } } impl From for FooEnum { fn from(i: i32) -> Self { match i { 1 => FooEnum::FIRST_VALUE, 2 => FooEnum::SECOND_VALUE, _ => Self::default(), } } } impl<'a> From<&'a str> for FooEnum { fn from(s: &'a str) -> Self { match s { "FIRST_VALUE" => FooEnum::FIRST_VALUE, "SECOND_VALUE" => FooEnum::SECOND_VALUE, _ => Self::default(), } } } #[allow(clippy::derive_partial_eq_without_eq)] #[derive(Debug, Default, PartialEq, Clone)] pub struct BarMessage { pub b_required_int32: i32, } impl<'a> MessageRead<'a> for BarMessage { fn from_reader(r: &mut BytesReader, bytes: &'a [u8]) -> Result { let mut msg = Self::default(); while !r.is_eof() { match r.next_tag(bytes) { Ok(8) => msg.b_required_int32 = r.read_int32(bytes)?, Ok(t) => { r.read_unknown(bytes, t)?; } Err(e) => return Err(e), } } Ok(msg) } } impl MessageWrite for BarMessage { fn get_size(&self) -> usize { 0 + 1 + sizeof_varint(*(&self.b_required_int32) as u64) } fn write_message(&self, w: &mut Writer) -> Result<()> { w.write_with_tag(8, |w| w.write_int32(*&self.b_required_int32))?; Ok(()) } } #[allow(clippy::derive_partial_eq_without_eq)] #[derive(Debug, Default, PartialEq, Clone)] pub struct FooMessage<'a> { pub f_int32: Option, pub f_int64: Option, pub f_uint32: Option, pub f_uint64: Option, pub f_sint32: Option, pub f_sint64: i64, pub f_bool: bool, pub f_FooEnum: Option, pub f_fixed64: Option, pub f_sfixed64: Option, pub f_fixed32: u32, pub f_sfixed32: Option, pub f_double: Option, pub f_float: Option, pub f_bytes: Option>, pub f_string: Option>, pub f_self_message: Option>>, pub f_bar_message: Option, pub f_repeated_int32: Vec, pub f_repeated_packed_int32: Vec, pub f_repeated_packed_float: Cow<'a, [f32]>, pub f_imported: Option, pub f_baz: Option, pub f_nested: Option, pub f_nested_enum: Option, pub f_map: KVMap, i32>, pub test_oneof: mod_FooMessage::OneOftest_oneof<'a>, } impl<'a> MessageRead<'a> for FooMessage<'a> { fn from_reader(r: &mut BytesReader, bytes: &'a [u8]) -> Result { let mut msg = FooMessage { f_sint64: 4i64, f_bool: true, ..Self::default() }; while !r.is_eof() { match r.next_tag(bytes) { Ok(8) => msg.f_int32 = Some(r.read_int32(bytes)?), Ok(16) => msg.f_int64 = Some(r.read_int64(bytes)?), Ok(24) => msg.f_uint32 = Some(r.read_uint32(bytes)?), Ok(32) => msg.f_uint64 = Some(r.read_uint64(bytes)?), Ok(40) => msg.f_sint32 = Some(r.read_sint32(bytes)?), Ok(48) => msg.f_sint64 = r.read_sint64(bytes)?, Ok(56) => msg.f_bool = r.read_bool(bytes)?, Ok(64) => msg.f_FooEnum = Some(r.read_enum(bytes)?), Ok(73) => msg.f_fixed64 = Some(r.read_fixed64(bytes)?), Ok(81) => msg.f_sfixed64 = Some(r.read_sfixed64(bytes)?), Ok(93) => msg.f_fixed32 = r.read_fixed32(bytes)?, Ok(101) => msg.f_sfixed32 = Some(r.read_sfixed32(bytes)?), Ok(105) => msg.f_double = Some(r.read_double(bytes)?), Ok(117) => msg.f_float = Some(r.read_float(bytes)?), Ok(122) => msg.f_bytes = Some(r.read_bytes(bytes).map(Cow::Borrowed)?), Ok(130) => msg.f_string = Some(r.read_string(bytes).map(Cow::Borrowed)?), Ok(138) => msg.f_self_message = Some(Box::new(r.read_message::(bytes)?)), Ok(146) => msg.f_bar_message = Some(r.read_message::(bytes)?), Ok(152) => msg.f_repeated_int32.push(r.read_int32(bytes)?), Ok(162) => msg.f_repeated_packed_int32 = r.read_packed(bytes, |r, bytes| Ok(r.read_int32(bytes)?))?, Ok(170) => msg.f_repeated_packed_float = r.read_packed_fixed(bytes)?.into(), Ok(178) => msg.f_imported = Some(r.read_message::(bytes)?), Ok(186) => msg.f_baz = Some(r.read_message::(bytes)?), Ok(194) => msg.f_nested = Some(r.read_message::(bytes)?), Ok(200) => msg.f_nested_enum = Some(r.read_enum(bytes)?), Ok(210) => { let (key, value) = r.read_map(bytes, |r, bytes| Ok(r.read_string(bytes).map(Cow::Borrowed)?), |r, bytes| Ok(r.read_int32(bytes)?))?; msg.f_map.insert(key, value); } Ok(216) => msg.test_oneof = mod_FooMessage::OneOftest_oneof::f1(r.read_int32(bytes)?), Ok(224) => msg.test_oneof = mod_FooMessage::OneOftest_oneof::f2(r.read_bool(bytes)?), Ok(234) => msg.test_oneof = mod_FooMessage::OneOftest_oneof::f3(r.read_string(bytes).map(Cow::Borrowed)?), Ok(t) => { r.read_unknown(bytes, t)?; } Err(e) => return Err(e), } } Ok(msg) } } impl<'a> MessageWrite for FooMessage<'a> { fn get_size(&self) -> usize { 0 + self.f_int32.as_ref().map_or(0, |m| 1 + sizeof_varint(*(m) as u64)) + self.f_int64.as_ref().map_or(0, |m| 1 + sizeof_varint(*(m) as u64)) + self.f_uint32.as_ref().map_or(0, |m| 1 + sizeof_varint(*(m) as u64)) + self.f_uint64.as_ref().map_or(0, |m| 1 + sizeof_varint(*(m) as u64)) + self.f_sint32.as_ref().map_or(0, |m| 1 + sizeof_sint32(*(m))) + if self.f_sint64 == 4i64 { 0 } else { 1 + sizeof_sint64(*(&self.f_sint64)) } + if self.f_bool == true { 0 } else { 1 + sizeof_varint(*(&self.f_bool) as u64) } + self.f_FooEnum.as_ref().map_or(0, |m| 1 + sizeof_varint(*(m) as u64)) + self.f_fixed64.as_ref().map_or(0, |_| 1 + 8) + self.f_sfixed64.as_ref().map_or(0, |_| 1 + 8) + if self.f_fixed32 == 0u32 { 0 } else { 1 + 4 } + self.f_sfixed32.as_ref().map_or(0, |_| 1 + 4) + self.f_double.as_ref().map_or(0, |_| 1 + 8) + self.f_float.as_ref().map_or(0, |_| 1 + 4) + self.f_bytes.as_ref().map_or(0, |m| 1 + sizeof_len((m).len())) + self.f_string.as_ref().map_or(0, |m| 2 + sizeof_len((m).len())) + self.f_self_message.as_ref().map_or(0, |m| 2 + sizeof_len((m).get_size())) + self.f_bar_message.as_ref().map_or(0, |m| 2 + sizeof_len((m).get_size())) + self.f_repeated_int32.iter().map(|s| 2 + sizeof_varint(*(s) as u64)).sum::() + if self.f_repeated_packed_int32.is_empty() { 0 } else { 2 + sizeof_len(self.f_repeated_packed_int32.iter().map(|s| sizeof_varint(*(s) as u64)).sum::()) } + if self.f_repeated_packed_float.is_empty() { 0 } else { 2 + sizeof_len(self.f_repeated_packed_float.len() * 4) } + self.f_imported.as_ref().map_or(0, |m| 2 + sizeof_len((m).get_size())) + self.f_baz.as_ref().map_or(0, |m| 2 + sizeof_len((m).get_size())) + self.f_nested.as_ref().map_or(0, |m| 2 + sizeof_len((m).get_size())) + self.f_nested_enum.as_ref().map_or(0, |m| 2 + sizeof_varint(*(m) as u64)) + self.f_map.iter().map(|(k, v)| 2 + sizeof_len(2 + sizeof_len((k).len()) + sizeof_varint(*(v) as u64))).sum::() + match self.test_oneof { mod_FooMessage::OneOftest_oneof::f1(ref m) => 2 + sizeof_varint(*(m) as u64), mod_FooMessage::OneOftest_oneof::f2(ref m) => 2 + sizeof_varint(*(m) as u64), mod_FooMessage::OneOftest_oneof::f3(ref m) => 2 + sizeof_len((m).len()), mod_FooMessage::OneOftest_oneof::None => 0, } } fn write_message(&self, w: &mut Writer) -> Result<()> { if let Some(ref s) = self.f_int32 { w.write_with_tag(8, |w| w.write_int32(*s))?; } if let Some(ref s) = self.f_int64 { w.write_with_tag(16, |w| w.write_int64(*s))?; } if let Some(ref s) = self.f_uint32 { w.write_with_tag(24, |w| w.write_uint32(*s))?; } if let Some(ref s) = self.f_uint64 { w.write_with_tag(32, |w| w.write_uint64(*s))?; } if let Some(ref s) = self.f_sint32 { w.write_with_tag(40, |w| w.write_sint32(*s))?; } if self.f_sint64 != 4i64 { w.write_with_tag(48, |w| w.write_sint64(*&self.f_sint64))?; } if self.f_bool != true { w.write_with_tag(56, |w| w.write_bool(*&self.f_bool))?; } if let Some(ref s) = self.f_FooEnum { w.write_with_tag(64, |w| w.write_enum(*s as i32))?; } if let Some(ref s) = self.f_fixed64 { w.write_with_tag(73, |w| w.write_fixed64(*s))?; } if let Some(ref s) = self.f_sfixed64 { w.write_with_tag(81, |w| w.write_sfixed64(*s))?; } if self.f_fixed32 != 0u32 { w.write_with_tag(93, |w| w.write_fixed32(*&self.f_fixed32))?; } if let Some(ref s) = self.f_sfixed32 { w.write_with_tag(101, |w| w.write_sfixed32(*s))?; } if let Some(ref s) = self.f_double { w.write_with_tag(105, |w| w.write_double(*s))?; } if let Some(ref s) = self.f_float { w.write_with_tag(117, |w| w.write_float(*s))?; } if let Some(ref s) = self.f_bytes { w.write_with_tag(122, |w| w.write_bytes(&**s))?; } if let Some(ref s) = self.f_string { w.write_with_tag(130, |w| w.write_string(&**s))?; } if let Some(ref s) = self.f_self_message { w.write_with_tag(138, |w| w.write_message(&**s))?; } if let Some(ref s) = self.f_bar_message { w.write_with_tag(146, |w| w.write_message(s))?; } for s in &self.f_repeated_int32 { w.write_with_tag(152, |w| w.write_int32(*s))?; } w.write_packed_with_tag(162, &self.f_repeated_packed_int32, |w, m| w.write_int32(*m), &|m| sizeof_varint(*(m) as u64))?; w.write_packed_fixed_with_tag(170, &self.f_repeated_packed_float)?; if let Some(ref s) = self.f_imported { w.write_with_tag(178, |w| w.write_message(s))?; } if let Some(ref s) = self.f_baz { w.write_with_tag(186, |w| w.write_message(s))?; } if let Some(ref s) = self.f_nested { w.write_with_tag(194, |w| w.write_message(s))?; } if let Some(ref s) = self.f_nested_enum { w.write_with_tag(200, |w| w.write_enum(*s as i32))?; } for (k, v) in self.f_map.iter() { w.write_with_tag(210, |w| w.write_map(2 + sizeof_len((k).len()) + sizeof_varint(*(v) as u64), 10, |w| w.write_string(&**k), 16, |w| w.write_int32(*v)))?; } match self.test_oneof { mod_FooMessage::OneOftest_oneof::f1(ref m) => { w.write_with_tag(216, |w| w.write_int32(*m))? }, mod_FooMessage::OneOftest_oneof::f2(ref m) => { w.write_with_tag(224, |w| w.write_bool(*m))? }, mod_FooMessage::OneOftest_oneof::f3(ref m) => { w.write_with_tag(234, |w| w.write_string(&**m))? }, mod_FooMessage::OneOftest_oneof::None => {}, } Ok(()) } } pub mod mod_FooMessage { use super::*; #[derive(Debug, PartialEq, Clone)] pub enum OneOftest_oneof<'a> { f1(i32), f2(bool), f3(Cow<'a, str>), None, } impl<'a> Default for OneOftest_oneof<'a> { fn default() -> Self { OneOftest_oneof::None } } } #[allow(clippy::derive_partial_eq_without_eq)] #[derive(Debug, Default, PartialEq, Clone)] pub struct BazMessage { pub nested: Option, } impl<'a> MessageRead<'a> for BazMessage { fn from_reader(r: &mut BytesReader, bytes: &'a [u8]) -> Result { let mut msg = Self::default(); while !r.is_eof() { match r.next_tag(bytes) { Ok(10) => msg.nested = Some(r.read_message::(bytes)?), Ok(t) => { r.read_unknown(bytes, t)?; } Err(e) => return Err(e), } } Ok(msg) } } impl MessageWrite for BazMessage { fn get_size(&self) -> usize { 0 + self.nested.as_ref().map_or(0, |m| 1 + sizeof_len((m).get_size())) } fn write_message(&self, w: &mut Writer) -> Result<()> { if let Some(ref s) = self.nested { w.write_with_tag(10, |w| w.write_message(s))?; } Ok(()) } } pub mod mod_BazMessage { use super::*; #[allow(clippy::derive_partial_eq_without_eq)] #[derive(Debug, Default, PartialEq, Clone)] pub struct Nested { pub f_nested: mod_BazMessage::mod_Nested::NestedMessage, } impl<'a> MessageRead<'a> for Nested { fn from_reader(r: &mut BytesReader, bytes: &'a [u8]) -> Result { let mut msg = Self::default(); while !r.is_eof() { match r.next_tag(bytes) { Ok(10) => msg.f_nested = r.read_message::(bytes)?, Ok(t) => { r.read_unknown(bytes, t)?; } Err(e) => return Err(e), } } Ok(msg) } } impl MessageWrite for Nested { fn get_size(&self) -> usize { 0 + 1 + sizeof_len((&self.f_nested).get_size()) } fn write_message(&self, w: &mut Writer) -> Result<()> { w.write_with_tag(10, |w| w.write_message(&self.f_nested))?; Ok(()) } } pub mod mod_Nested { use super::*; #[allow(clippy::derive_partial_eq_without_eq)] #[derive(Debug, Default, PartialEq, Clone)] pub struct NestedMessage { pub f_nested: i32, } impl<'a> MessageRead<'a> for NestedMessage { fn from_reader(r: &mut BytesReader, bytes: &'a [u8]) -> Result { let mut msg = Self::default(); while !r.is_eof() { match r.next_tag(bytes) { Ok(8) => msg.f_nested = r.read_int32(bytes)?, Ok(t) => { r.read_unknown(bytes, t)?; } Err(e) => return Err(e), } } Ok(msg) } } impl MessageWrite for NestedMessage { fn get_size(&self) -> usize { 0 + 1 + sizeof_varint(*(&self.f_nested) as u64) } fn write_message(&self, w: &mut Writer) -> Result<()> { w.write_with_tag(8, |w| w.write_int32(*&self.f_nested))?; Ok(()) } } #[derive(Debug, PartialEq, Eq, Clone, Copy)] pub enum NestedEnum { Foo = 0, Bar = 1, Baz = 2, } impl Default for NestedEnum { fn default() -> Self { NestedEnum::Foo } } impl From for NestedEnum { fn from(i: i32) -> Self { match i { 0 => NestedEnum::Foo, 1 => NestedEnum::Bar, 2 => NestedEnum::Baz, _ => Self::default(), } } } impl<'a> From<&'a str> for NestedEnum { fn from(s: &'a str) -> Self { match s { "Foo" => NestedEnum::Foo, "Bar" => NestedEnum::Bar, "Baz" => NestedEnum::Baz, _ => Self::default(), } } } } }