#[derive(Debug, Default, Clone, PartialEq)]
pub struct SerDeInfo {
pub name: ::std::option::Option<::pilota::FastStr>,
pub serialization_lib: ::std::option::Option<::pilota::FastStr>,
pub parameters: ::std::option::Option<::pilota::AHashMap<::pilota::FastStr, ::pilota::FastStr>>,
}
impl ::pilota::thrift::Message for SerDeInfo {
fn encode<T: ::pilota::thrift::TOutputProtocol>(
&self,
__protocol: &mut T,
) -> ::std::result::Result<(), ::pilota::thrift::ThriftException> {
#[allow(unused_imports)]
use ::pilota::thrift::TOutputProtocolExt;
let struct_ident = ::pilota::thrift::TStructIdentifier { name: "SerDeInfo" };
__protocol.write_struct_begin(&struct_ident)?;
if let Some(value) = self.name.as_ref() {
__protocol.write_faststr_field(1, (value).clone())?;
}
if let Some(value) = self.serialization_lib.as_ref() {
__protocol.write_faststr_field(2, (value).clone())?;
}
if let Some(value) = self.parameters.as_ref() {
__protocol.write_map_field(
3,
::pilota::thrift::TType::Binary,
::pilota::thrift::TType::Binary,
&value,
|__protocol, key| {
__protocol.write_faststr((key).clone())?;
::std::result::Result::Ok(())
},
|__protocol, val| {
__protocol.write_faststr((val).clone())?;
::std::result::Result::Ok(())
},
)?;
}
__protocol.write_field_stop()?;
__protocol.write_struct_end()?;
::std::result::Result::Ok(())
}
fn decode<T: ::pilota::thrift::TInputProtocol>(
__protocol: &mut T,
) -> ::std::result::Result<Self, ::pilota::thrift::ThriftException> {
#[allow(unused_imports)]
use ::pilota::{thrift::TLengthProtocolExt, Buf};
let mut var_1 = None;
let mut var_2 = None;
let mut var_3 = None;
let mut __pilota_decoding_field_id = None;
__protocol.read_struct_begin()?;
if let ::std::result::Result::Err(mut err) = (|| {
loop {
let field_ident = __protocol.read_field_begin()?;
if field_ident.field_type == ::pilota::thrift::TType::Stop {
__protocol.field_stop_len();
break;
} else {
__protocol.field_begin_len(field_ident.field_type, field_ident.id);
}
__pilota_decoding_field_id = field_ident.id;
match field_ident.id {
Some(1) if field_ident.field_type == ::pilota::thrift::TType::Binary => {
var_1 = Some(__protocol.read_faststr()?);
}
Some(2) if field_ident.field_type == ::pilota::thrift::TType::Binary => {
var_2 = Some(__protocol.read_faststr()?);
}
Some(3) if field_ident.field_type == ::pilota::thrift::TType::Map => {
var_3 = Some({
let map_ident = __protocol.read_map_begin()?;
let mut val = ::pilota::AHashMap::with_capacity(map_ident.size);
for _ in 0..map_ident.size {
val.insert(__protocol.read_faststr()?, __protocol.read_faststr()?);
}
__protocol.read_map_end()?;
val
});
}
_ => {
__protocol.skip(field_ident.field_type)?;
}
}
__protocol.read_field_end()?;
__protocol.field_end_len();
}
::std::result::Result::Ok::<_, ::pilota::thrift::ThriftException>(())
})() {
if let Some(field_id) = __pilota_decoding_field_id {
err.prepend_msg(&format!(
"decode struct `SerDeInfo` field(#{}) failed, caused by: ",
field_id
));
}
return ::std::result::Result::Err(err);
};
__protocol.read_struct_end()?;
let data = Self {
name: var_1,
serialization_lib: var_2,
parameters: var_3,
};
::std::result::Result::Ok(data)
}
fn decode_async<'a, T: ::pilota::thrift::TAsyncInputProtocol>(
__protocol: &'a mut T,
) -> ::std::pin::Pin<
::std::boxed::Box<
dyn ::std::future::Future<
Output = ::std::result::Result<Self, ::pilota::thrift::ThriftException>,
> + Send
+ 'a,
>,
> {
::std::boxed::Box::pin(async move {
let mut var_1 = None;
let mut var_2 = None;
let mut var_3 = None;
let mut __pilota_decoding_field_id = None;
__protocol.read_struct_begin().await?;
if let ::std::result::Result::Err(mut err) = async {
loop {
let field_ident = __protocol.read_field_begin().await?;
if field_ident.field_type == ::pilota::thrift::TType::Stop {
break;
} else {
}
__pilota_decoding_field_id = field_ident.id;
match field_ident.id {
Some(1) if field_ident.field_type == ::pilota::thrift::TType::Binary => {
var_1 = Some(__protocol.read_faststr().await?);
}
Some(2) if field_ident.field_type == ::pilota::thrift::TType::Binary => {
var_2 = Some(__protocol.read_faststr().await?);
}
Some(3) if field_ident.field_type == ::pilota::thrift::TType::Map => {
var_3 = Some({
let map_ident = __protocol.read_map_begin().await?;
let mut val = ::pilota::AHashMap::with_capacity(map_ident.size);
for _ in 0..map_ident.size {
val.insert(
__protocol.read_faststr().await?,
__protocol.read_faststr().await?,
);
}
__protocol.read_map_end().await?;
val
});
}
_ => {
__protocol.skip(field_ident.field_type).await?;
}
}
__protocol.read_field_end().await?;
}
::std::result::Result::Ok::<_, ::pilota::thrift::ThriftException>(())
}
.await
{
if let Some(field_id) = __pilota_decoding_field_id {
err.prepend_msg(&format!(
"decode struct `SerDeInfo` field(#{}) failed, caused by: ",
field_id
));
}
return ::std::result::Result::Err(err);
};
__protocol.read_struct_end().await?;
let data = Self {
name: var_1,
serialization_lib: var_2,
parameters: var_3,
};
::std::result::Result::Ok(data)
})
}
fn size<T: ::pilota::thrift::TLengthProtocol>(&self, __protocol: &mut T) -> usize {
#[allow(unused_imports)]
use ::pilota::thrift::TLengthProtocolExt;
__protocol.struct_begin_len(&::pilota::thrift::TStructIdentifier { name: "SerDeInfo" })
+ self
.name
.as_ref()
.map_or(0, |value| __protocol.faststr_field_len(Some(1), value))
+ self
.serialization_lib
.as_ref()
.map_or(0, |value| __protocol.faststr_field_len(Some(2), value))
+ self.parameters.as_ref().map_or(0, |value| {
__protocol.map_field_len(
Some(3),
::pilota::thrift::TType::Binary,
::pilota::thrift::TType::Binary,
value,
|__protocol, key| __protocol.faststr_len(key),
|__protocol, val| __protocol.faststr_len(val),
)
})
+ __protocol.field_stop_len()
+ __protocol.struct_end_len()
}
}