tools/fidl/fidlgen_rust/goldens/error.rs.golden - fuchsia - Git at Google

 // WARNING: This file is machine generated by fidlgen.

 // fidl_experiment = output_index_json

 #![warn(clippy::all)]
 #![allow(unused_parens, unused_mut, unused_imports, nonstandard_style)]

 use bitflags::bitflags;
 use fidl::client::QueryResponseFut;
 use fidl::encoding::{MessageBufFor, ProxyChannelBox, ResourceDialect};
 use fidl::endpoints::{ControlHandle as _, Responder as _};
 pub use fidl_test_error__common::*;
 use futures::future::{self, MaybeDone, TryFutureExt};
 use zx_status;

 #[derive(Debug, Copy, Clone, Eq, PartialEq, Ord, PartialOrd, Hash)]
 pub struct ExampleMarker;

 impl fidl::endpoints::ProtocolMarker for ExampleMarker {
     type Proxy = ExampleProxy;
     type RequestStream = ExampleRequestStream;
     #[cfg(target_os = "fuchsia")]
     type SynchronousProxy = ExampleSynchronousProxy;

     const DEBUG_NAME: &'static str = "(anonymous) Example";
 }
 pub type ExampleFooResult = Result<i64, u32>;

 pub trait ExampleProxyInterface: Send + Sync {
     type FooResponseFut: std::future::Future<Output = Result<ExampleFooResult, fidl::Error>> + Send;
     fn r#foo(&self, s: &str) -> Self::FooResponseFut;
 }
 #[derive(Debug)]
 #[cfg(target_os = "fuchsia")]
 pub struct ExampleSynchronousProxy {
     client: fidl::client::sync::Client,
 }

 #[cfg(target_os = "fuchsia")]
 impl fidl::endpoints::SynchronousProxy for ExampleSynchronousProxy {
     type Proxy = ExampleProxy;
     type Protocol = ExampleMarker;

     fn from_channel(inner: fidl::Channel) -> Self {
         Self::new(inner)
     }

     fn into_channel(self) -> fidl::Channel {
         self.client.into_channel()
     }

     fn as_channel(&self) -> &fidl::Channel {
         self.client.as_channel()
     }
 }

 #[cfg(target_os = "fuchsia")]
 impl ExampleSynchronousProxy {
     pub fn new(channel: fidl::Channel) -> Self {
         let protocol_name = <ExampleMarker as fidl::endpoints::ProtocolMarker>::DEBUG_NAME;
         Self { client: fidl::client::sync::Client::new(channel, protocol_name) }
     }

     pub fn into_channel(self) -> fidl::Channel {
         self.client.into_channel()
     }

     /// Waits until an event arrives and returns it. It is safe for other
     /// threads to make concurrent requests while waiting for an event.
     pub fn wait_for_event(
         &self,
         deadline: zx::MonotonicInstant,
     ) -> Result<ExampleEvent, fidl::Error> {
         ExampleEvent::decode(self.client.wait_for_event(deadline)?)
     }

     pub fn r#foo(
         &self,
         mut s: &str,
         ___deadline: zx::MonotonicInstant,
     ) -> Result<ExampleFooResult, fidl::Error> {
         let _response = self
             .client
             .send_query::<ExampleFooRequest, fidl::encoding::ResultType<ExampleFooResponse, u32>>(
                 (s,),
                 0xf5f1179dc411e44,
                 fidl::encoding::DynamicFlags::empty(),
                 ___deadline,
             )?;
         Ok(_response.map(|x| x.y))
     }
 }

 #[cfg(target_os = "fuchsia")]
 impl From<ExampleSynchronousProxy> for zx::Handle {
     fn from(value: ExampleSynchronousProxy) -> Self {
         value.into_channel().into()
     }
 }

 #[cfg(target_os = "fuchsia")]
 impl From<fidl::Channel> for ExampleSynchronousProxy {
     fn from(value: fidl::Channel) -> Self {
         Self::new(value)
     }
 }

 #[cfg(target_os = "fuchsia")]
 impl fidl::endpoints::FromClient for ExampleSynchronousProxy {
     type Protocol = ExampleMarker;

     fn from_client(value: fidl::endpoints::ClientEnd<ExampleMarker>) -> Self {
         Self::new(value.into_channel())
     }
 }

 #[derive(Debug, Clone)]
 pub struct ExampleProxy {
     client: fidl::client::Client<fidl::encoding::DefaultFuchsiaResourceDialect>,
 }

 impl fidl::endpoints::Proxy for ExampleProxy {
     type Protocol = ExampleMarker;

     fn from_channel(inner: ::fidl::AsyncChannel) -> Self {
         Self::new(inner)
     }

     fn into_channel(self) -> Result<::fidl::AsyncChannel, Self> {
         self.client.into_channel().map_err(|client| Self { client })
     }

     fn as_channel(&self) -> &::fidl::AsyncChannel {
         self.client.as_channel()
     }
 }

 impl ExampleProxy {
     /// Create a new Proxy for test.error/Example.
     pub fn new(channel: ::fidl::AsyncChannel) -> Self {
         let protocol_name = <ExampleMarker as fidl::endpoints::ProtocolMarker>::DEBUG_NAME;
         Self { client: fidl::client::Client::new(channel, protocol_name) }
     }

     /// Get a Stream of events from the remote end of the protocol.
     ///
     /// # Panics
     ///
     /// Panics if the event stream was already taken.
     pub fn take_event_stream(&self) -> ExampleEventStream {
         ExampleEventStream { event_receiver: self.client.take_event_receiver() }
     }

     pub fn r#foo(
         &self,
         mut s: &str,
     ) -> fidl::client::QueryResponseFut<
         ExampleFooResult,
         fidl::encoding::DefaultFuchsiaResourceDialect,
     > {
         ExampleProxyInterface::r#foo(self, s)
     }
 }

 impl ExampleProxyInterface for ExampleProxy {
     type FooResponseFut = fidl::client::QueryResponseFut<
         ExampleFooResult,
         fidl::encoding::DefaultFuchsiaResourceDialect,
     >;
     fn r#foo(&self, mut s: &str) -> Self::FooResponseFut {
         fn _decode(
             mut _buf: Result<<fidl::encoding::DefaultFuchsiaResourceDialect as fidl::encoding::ResourceDialect>::MessageBufEtc, fidl::Error>,
         ) -> Result<ExampleFooResult, fidl::Error> {
             let _response = fidl::client::decode_transaction_body::<
                 fidl::encoding::ResultType<ExampleFooResponse, u32>,
                 fidl::encoding::DefaultFuchsiaResourceDialect,
                 0xf5f1179dc411e44,
             >(_buf?)?;
             Ok(_response.map(|x| x.y))
         }
         self.client.send_query_and_decode::<ExampleFooRequest, ExampleFooResult>(
             (s,),
             0xf5f1179dc411e44,
             fidl::encoding::DynamicFlags::empty(),
             _decode,
         )
     }
 }

 pub struct ExampleEventStream {
     event_receiver: fidl::client::EventReceiver<fidl::encoding::DefaultFuchsiaResourceDialect>,
 }

 impl std::marker::Unpin for ExampleEventStream {}

 impl futures::stream::FusedStream for ExampleEventStream {
     fn is_terminated(&self) -> bool {
         self.event_receiver.is_terminated()
     }
 }

 impl futures::Stream for ExampleEventStream {
     type Item = Result<ExampleEvent, fidl::Error>;

     fn poll_next(
         mut self: std::pin::Pin<&mut Self>,
         cx: &mut std::task::Context<'_>,
     ) -> std::task::Poll<Option<Self::Item>> {
         match futures::ready!(futures::stream::StreamExt::poll_next_unpin(
             &mut self.event_receiver,
             cx
         )?) {
             Some(buf) => std::task::Poll::Ready(Some(ExampleEvent::decode(buf))),
             None => std::task::Poll::Ready(None),
         }
     }
 }

 #[derive(Debug)]
 pub enum ExampleEvent {}

 impl ExampleEvent {
     /// Decodes a message buffer as a [`ExampleEvent`].
     fn decode(
         mut buf: <fidl::encoding::DefaultFuchsiaResourceDialect as fidl::encoding::ResourceDialect>::MessageBufEtc,
     ) -> Result<ExampleEvent, fidl::Error> {
         let (bytes, _handles) = buf.split_mut();
         let (tx_header, _body_bytes) = fidl::encoding::decode_transaction_header(bytes)?;
         debug_assert_eq!(tx_header.tx_id, 0);
         match tx_header.ordinal {
             _ => Err(fidl::Error::UnknownOrdinal {
                 ordinal: tx_header.ordinal,
                 protocol_name: <ExampleMarker as fidl::endpoints::ProtocolMarker>::DEBUG_NAME,
             }),
         }
     }
 }

 /// A Stream of incoming requests for test.error/Example.
 pub struct ExampleRequestStream {
     inner: std::sync::Arc<fidl::ServeInner<fidl::encoding::DefaultFuchsiaResourceDialect>>,
     is_terminated: bool,
 }

 impl std::marker::Unpin for ExampleRequestStream {}

 impl futures::stream::FusedStream for ExampleRequestStream {
     fn is_terminated(&self) -> bool {
         self.is_terminated
     }
 }

 impl fidl::endpoints::RequestStream for ExampleRequestStream {
     type Protocol = ExampleMarker;
     type ControlHandle = ExampleControlHandle;

     fn from_channel(channel: ::fidl::AsyncChannel) -> Self {
         Self { inner: std::sync::Arc::new(fidl::ServeInner::new(channel)), is_terminated: false }
     }

     fn control_handle(&self) -> Self::ControlHandle {
         ExampleControlHandle { inner: self.inner.clone() }
     }

     fn into_inner(
         self,
     ) -> (::std::sync::Arc<fidl::ServeInner<fidl::encoding::DefaultFuchsiaResourceDialect>>, bool)
     {
         (self.inner, self.is_terminated)
     }

     fn from_inner(
         inner: std::sync::Arc<fidl::ServeInner<fidl::encoding::DefaultFuchsiaResourceDialect>>,
         is_terminated: bool,
     ) -> Self {
         Self { inner, is_terminated }
     }
 }

 impl futures::Stream for ExampleRequestStream {
     type Item = Result<ExampleRequest, fidl::Error>;

     fn poll_next(
         mut self: std::pin::Pin<&mut Self>,
         cx: &mut std::task::Context<'_>,
     ) -> std::task::Poll<Option<Self::Item>> {
         let this = &mut *self;
         if this.inner.check_shutdown(cx) {
             this.is_terminated = true;
             return std::task::Poll::Ready(None);
         }
         if this.is_terminated {
             panic!("polled ExampleRequestStream after completion");
         }
         fidl::encoding::with_tls_decode_buf::<_, fidl::encoding::DefaultFuchsiaResourceDialect>(
             |bytes, handles| {
                 match this.inner.channel().read_etc(cx, bytes, handles) {
                     std::task::Poll::Ready(Ok(())) => {}
                     std::task::Poll::Pending => return std::task::Poll::Pending,
                     std::task::Poll::Ready(Err(zx_status::Status::PEER_CLOSED)) => {
                         this.is_terminated = true;
                         return std::task::Poll::Ready(None);
                     }
                     std::task::Poll::Ready(Err(e)) => {
                         return std::task::Poll::Ready(Some(Err(fidl::Error::ServerRequestRead(
                             e.into(),
                         ))));
                     }
                 }

                 // A message has been received from the channel
                 let (header, _body_bytes) = fidl::encoding::decode_transaction_header(bytes)?;

                 std::task::Poll::Ready(Some(match header.ordinal {
                     0xf5f1179dc411e44 => {
                         header.validate_request_tx_id(fidl::MethodType::TwoWay)?;
                         let mut req = fidl::new_empty!(
                             ExampleFooRequest,
                             fidl::encoding::DefaultFuchsiaResourceDialect
                         );
                         fidl::encoding::Decoder::<fidl::encoding::DefaultFuchsiaResourceDialect>::decode_into::<ExampleFooRequest>(&header, _body_bytes, handles, &mut req)?;
                         let control_handle = ExampleControlHandle { inner: this.inner.clone() };
                         Ok(ExampleRequest::Foo {
                             s: req.s,

                             responder: ExampleFooResponder {
                                 control_handle: std::mem::ManuallyDrop::new(control_handle),
                                 tx_id: header.tx_id,
                             },
                         })
                     }
                     _ => Err(fidl::Error::UnknownOrdinal {
                         ordinal: header.ordinal,
                         protocol_name:
                             <ExampleMarker as fidl::endpoints::ProtocolMarker>::DEBUG_NAME,
                     }),
                 }))
             },
         )
     }
 }

 #[derive(Debug)]
 pub enum ExampleRequest {
     Foo { s: String, responder: ExampleFooResponder },
 }

 impl ExampleRequest {
     #[allow(irrefutable_let_patterns)]
     pub fn into_foo(self) -> Option<(String, ExampleFooResponder)> {
         if let ExampleRequest::Foo { s, responder } = self { Some((s, responder)) } else { None }
     }

     /// Name of the method defined in FIDL
     pub fn method_name(&self) -> &'static str {
         match *self {
             ExampleRequest::Foo { .. } => "foo",
         }
     }
 }

 #[derive(Debug, Clone)]
 pub struct ExampleControlHandle {
     inner: std::sync::Arc<fidl::ServeInner<fidl::encoding::DefaultFuchsiaResourceDialect>>,
 }

 impl fidl::endpoints::ControlHandle for ExampleControlHandle {
     fn shutdown(&self) {
         self.inner.shutdown()
     }
     fn shutdown_with_epitaph(&self, status: zx_status::Status) {
         self.inner.shutdown_with_epitaph(status)
     }

     fn is_closed(&self) -> bool {
         self.inner.channel().is_closed()
     }
     fn on_closed(&self) -> fidl::OnSignalsRef<'_> {
         self.inner.channel().on_closed()
     }

     #[cfg(target_os = "fuchsia")]
     fn signal_peer(
         &self,
         clear_mask: zx::Signals,
         set_mask: zx::Signals,
     ) -> Result<(), zx_status::Status> {
         use fidl::Peered;
         self.inner.channel().signal_peer(clear_mask, set_mask)
     }
 }

 impl ExampleControlHandle {}

 #[must_use = "FIDL methods require a response to be sent"]
 #[derive(Debug)]
 pub struct ExampleFooResponder {
     control_handle: std::mem::ManuallyDrop<ExampleControlHandle>,
     tx_id: u32,
 }

 /// Set the the channel to be shutdown (see [`ExampleControlHandle::shutdown`])
 /// if the responder is dropped without sending a response, so that the client
 /// doesn't hang. To prevent this behavior, call `drop_without_shutdown`.
 impl std::ops::Drop for ExampleFooResponder {
     fn drop(&mut self) {
         self.control_handle.shutdown();
         // Safety: drops once, never accessed again
         unsafe { std::mem::ManuallyDrop::drop(&mut self.control_handle) };
     }
 }

 impl fidl::endpoints::Responder for ExampleFooResponder {
     type ControlHandle = ExampleControlHandle;

     fn control_handle(&self) -> &ExampleControlHandle {
         &self.control_handle
     }

     fn drop_without_shutdown(mut self) {
         // Safety: drops once, never accessed again due to mem::forget
         unsafe { std::mem::ManuallyDrop::drop(&mut self.control_handle) };
         // Prevent Drop from running (which would shut down the channel)
         std::mem::forget(self);
     }
 }

 impl ExampleFooResponder {
     /// Sends a response to the FIDL transaction.
     ///
     /// Sets the channel to shutdown if an error occurs.
     pub fn send(self, mut result: Result<i64, u32>) -> Result<(), fidl::Error> {
         let _result = self.send_raw(result);
         if _result.is_err() {
             self.control_handle.shutdown();
         }
         self.drop_without_shutdown();
         _result
     }

     /// Similar to "send" but does not shutdown the channel if an error occurs.
     pub fn send_no_shutdown_on_err(self, mut result: Result<i64, u32>) -> Result<(), fidl::Error> {
         let _result = self.send_raw(result);
         self.drop_without_shutdown();
         _result
     }

     fn send_raw(&self, mut result: Result<i64, u32>) -> Result<(), fidl::Error> {
         self.control_handle.inner.send::<fidl::encoding::ResultType<ExampleFooResponse, u32>>(
             result.map(|y| (y,)),
             self.tx_id,
             0xf5f1179dc411e44,
             fidl::encoding::DynamicFlags::empty(),
         )
     }
 }

 mod internal {
     use super::*;
 }
	// WARNING: This file is machine generated by fidlgen.

	// fidl_experiment = output_index_json

	#![warn(clippy::all)]
	#![allow(unused_parens, unused_mut, unused_imports, nonstandard_style)]

	use bitflags::bitflags;
	use fidl::client::QueryResponseFut;
	use fidl::encoding::{MessageBufFor, ProxyChannelBox, ResourceDialect};
	use fidl::endpoints::{ControlHandle as _, Responder as _};
	pub use fidl_test_error__common::*;
	use futures::future::{self, MaybeDone, TryFutureExt};
	use zx_status;

	#[derive(Debug, Copy, Clone, Eq, PartialEq, Ord, PartialOrd, Hash)]
	pub struct ExampleMarker;

	impl fidl::endpoints::ProtocolMarker for ExampleMarker {
	type Proxy = ExampleProxy;
	type RequestStream = ExampleRequestStream;
	#[cfg(target_os = "fuchsia")]
	type SynchronousProxy = ExampleSynchronousProxy;

	const DEBUG_NAME: &'static str = "(anonymous) Example";
	}
	pub type ExampleFooResult = Result<i64, u32>;

	pub trait ExampleProxyInterface: Send + Sync {
	type FooResponseFut: std::future::Future<Output = Result<ExampleFooResult, fidl::Error>> + Send;
	fn r#foo(&self, s: &str) -> Self::FooResponseFut;
	}
	#[derive(Debug)]
	#[cfg(target_os = "fuchsia")]
	pub struct ExampleSynchronousProxy {
	client: fidl::client::sync::Client,
	}

	#[cfg(target_os = "fuchsia")]
	impl fidl::endpoints::SynchronousProxy for ExampleSynchronousProxy {
	type Proxy = ExampleProxy;
	type Protocol = ExampleMarker;

	fn from_channel(inner: fidl::Channel) -> Self {
	Self::new(inner)
	}

	fn into_channel(self) -> fidl::Channel {
	self.client.into_channel()
	}

	fn as_channel(&self) -> &fidl::Channel {
	self.client.as_channel()
	}
	}

	#[cfg(target_os = "fuchsia")]
	impl ExampleSynchronousProxy {
	pub fn new(channel: fidl::Channel) -> Self {
	let protocol_name = <ExampleMarker as fidl::endpoints::ProtocolMarker>::DEBUG_NAME;
	Self { client: fidl::client::sync::Client::new(channel, protocol_name) }
	}

	pub fn into_channel(self) -> fidl::Channel {
	self.client.into_channel()
	}

	/// Waits until an event arrives and returns it. It is safe for other
	/// threads to make concurrent requests while waiting for an event.
	pub fn wait_for_event(
	&self,
	deadline: zx::MonotonicInstant,
	) -> Result<ExampleEvent, fidl::Error> {
	ExampleEvent::decode(self.client.wait_for_event(deadline)?)
	}

	pub fn r#foo(
	&self,
	mut s: &str,
	___deadline: zx::MonotonicInstant,
	) -> Result<ExampleFooResult, fidl::Error> {
	let _response = self
	.client
	.send_query::<ExampleFooRequest, fidl::encoding::ResultType<ExampleFooResponse, u32>>(
	(s,),
	0xf5f1179dc411e44,
	fidl::encoding::DynamicFlags::empty(),
	___deadline,
	)?;
	Ok(_response.map(\|x\| x.y))
	}
	}

	#[cfg(target_os = "fuchsia")]
	impl From<ExampleSynchronousProxy> for zx::Handle {
	fn from(value: ExampleSynchronousProxy) -> Self {
	value.into_channel().into()
	}
	}

	#[cfg(target_os = "fuchsia")]
	impl From<fidl::Channel> for ExampleSynchronousProxy {
	fn from(value: fidl::Channel) -> Self {
	Self::new(value)
	}
	}

	#[cfg(target_os = "fuchsia")]
	impl fidl::endpoints::FromClient for ExampleSynchronousProxy {
	type Protocol = ExampleMarker;

	fn from_client(value: fidl::endpoints::ClientEnd<ExampleMarker>) -> Self {
	Self::new(value.into_channel())
	}
	}

	#[derive(Debug, Clone)]
	pub struct ExampleProxy {
	client: fidl::client::Client<fidl::encoding::DefaultFuchsiaResourceDialect>,
	}

	impl fidl::endpoints::Proxy for ExampleProxy {
	type Protocol = ExampleMarker;

	fn from_channel(inner: ::fidl::AsyncChannel) -> Self {
	Self::new(inner)
	}

	fn into_channel(self) -> Result<::fidl::AsyncChannel, Self> {
	self.client.into_channel().map_err(\|client\| Self { client })
	}

	fn as_channel(&self) -> &::fidl::AsyncChannel {
	self.client.as_channel()
	}
	}

	impl ExampleProxy {
	/// Create a new Proxy for test.error/Example.
	pub fn new(channel: ::fidl::AsyncChannel) -> Self {
	let protocol_name = <ExampleMarker as fidl::endpoints::ProtocolMarker>::DEBUG_NAME;
	Self { client: fidl::client::Client::new(channel, protocol_name) }
	}

	/// Get a Stream of events from the remote end of the protocol.
	///
	/// # Panics
	///
	/// Panics if the event stream was already taken.
	pub fn take_event_stream(&self) -> ExampleEventStream {
	ExampleEventStream { event_receiver: self.client.take_event_receiver() }
	}

	pub fn r#foo(
	&self,
	mut s: &str,
	) -> fidl::client::QueryResponseFut<
	ExampleFooResult,
	fidl::encoding::DefaultFuchsiaResourceDialect,
	> {
	ExampleProxyInterface::r#foo(self, s)
	}
	}

	impl ExampleProxyInterface for ExampleProxy {
	type FooResponseFut = fidl::client::QueryResponseFut<
	ExampleFooResult,
	fidl::encoding::DefaultFuchsiaResourceDialect,
	>;
	fn r#foo(&self, mut s: &str) -> Self::FooResponseFut {
	fn _decode(
	mut _buf: Result<<fidl::encoding::DefaultFuchsiaResourceDialect as fidl::encoding::ResourceDialect>::MessageBufEtc, fidl::Error>,
	) -> Result<ExampleFooResult, fidl::Error> {
	let _response = fidl::client::decode_transaction_body::<
	fidl::encoding::ResultType<ExampleFooResponse, u32>,
	fidl::encoding::DefaultFuchsiaResourceDialect,
	0xf5f1179dc411e44,
	>(_buf?)?;
	Ok(_response.map(\|x\| x.y))
	}
	self.client.send_query_and_decode::<ExampleFooRequest, ExampleFooResult>(
	(s,),
	0xf5f1179dc411e44,
	fidl::encoding::DynamicFlags::empty(),
	_decode,
	)
	}
	}

	pub struct ExampleEventStream {
	event_receiver: fidl::client::EventReceiver<fidl::encoding::DefaultFuchsiaResourceDialect>,
	}

	impl std::marker::Unpin for ExampleEventStream {}

	impl futures::stream::FusedStream for ExampleEventStream {
	fn is_terminated(&self) -> bool {
	self.event_receiver.is_terminated()
	}
	}

	impl futures::Stream for ExampleEventStream {
	type Item = Result<ExampleEvent, fidl::Error>;

	fn poll_next(
	mut self: std::pin::Pin<&mut Self>,
	cx: &mut std::task::Context<'_>,
	) -> std::task::Poll<Option<Self::Item>> {
	match futures::ready!(futures::stream::StreamExt::poll_next_unpin(
	&mut self.event_receiver,
	cx
	)?) {
	Some(buf) => std::task::Poll::Ready(Some(ExampleEvent::decode(buf))),
	None => std::task::Poll::Ready(None),
	}
	}
	}

	#[derive(Debug)]
	pub enum ExampleEvent {}

	impl ExampleEvent {
	/// Decodes a message buffer as a [`ExampleEvent`].
	fn decode(
	mut buf: <fidl::encoding::DefaultFuchsiaResourceDialect as fidl::encoding::ResourceDialect>::MessageBufEtc,
	) -> Result<ExampleEvent, fidl::Error> {
	let (bytes, _handles) = buf.split_mut();
	let (tx_header, _body_bytes) = fidl::encoding::decode_transaction_header(bytes)?;
	debug_assert_eq!(tx_header.tx_id, 0);
	match tx_header.ordinal {
	_ => Err(fidl::Error::UnknownOrdinal {
	ordinal: tx_header.ordinal,
	protocol_name: <ExampleMarker as fidl::endpoints::ProtocolMarker>::DEBUG_NAME,
	}),
	}
	}
	}

	/// A Stream of incoming requests for test.error/Example.
	pub struct ExampleRequestStream {
	inner: std::sync::Arc<fidl::ServeInner<fidl::encoding::DefaultFuchsiaResourceDialect>>,
	is_terminated: bool,
	}

	impl std::marker::Unpin for ExampleRequestStream {}

	impl futures::stream::FusedStream for ExampleRequestStream {
	fn is_terminated(&self) -> bool {
	self.is_terminated
	}
	}

	impl fidl::endpoints::RequestStream for ExampleRequestStream {
	type Protocol = ExampleMarker;
	type ControlHandle = ExampleControlHandle;

	fn from_channel(channel: ::fidl::AsyncChannel) -> Self {
	Self { inner: std::sync::Arc::new(fidl::ServeInner::new(channel)), is_terminated: false }
	}

	fn control_handle(&self) -> Self::ControlHandle {
	ExampleControlHandle { inner: self.inner.clone() }
	}

	fn into_inner(
	self,
	) -> (::std::sync::Arc<fidl::ServeInner<fidl::encoding::DefaultFuchsiaResourceDialect>>, bool)
	{
	(self.inner, self.is_terminated)
	}

	fn from_inner(
	inner: std::sync::Arc<fidl::ServeInner<fidl::encoding::DefaultFuchsiaResourceDialect>>,
	is_terminated: bool,
	) -> Self {
	Self { inner, is_terminated }
	}
	}

	impl futures::Stream for ExampleRequestStream {
	type Item = Result<ExampleRequest, fidl::Error>;

	fn poll_next(
	mut self: std::pin::Pin<&mut Self>,
	cx: &mut std::task::Context<'_>,
	) -> std::task::Poll<Option<Self::Item>> {
	let this = &mut *self;
	if this.inner.check_shutdown(cx) {
	this.is_terminated = true;
	return std::task::Poll::Ready(None);
	}
	if this.is_terminated {
	panic!("polled ExampleRequestStream after completion");
	}
	fidl::encoding::with_tls_decode_buf::<_, fidl::encoding::DefaultFuchsiaResourceDialect>(
	\|bytes, handles\| {
	match this.inner.channel().read_etc(cx, bytes, handles) {
	std::task::Poll::Ready(Ok(())) => {}
	std::task::Poll::Pending => return std::task::Poll::Pending,
	std::task::Poll::Ready(Err(zx_status::Status::PEER_CLOSED)) => {
	this.is_terminated = true;
	return std::task::Poll::Ready(None);
	}
	std::task::Poll::Ready(Err(e)) => {
	return std::task::Poll::Ready(Some(Err(fidl::Error::ServerRequestRead(
	e.into(),
	))));
	}
	}

	// A message has been received from the channel
	let (header, _body_bytes) = fidl::encoding::decode_transaction_header(bytes)?;

	std::task::Poll::Ready(Some(match header.ordinal {
	0xf5f1179dc411e44 => {
	header.validate_request_tx_id(fidl::MethodType::TwoWay)?;
	let mut req = fidl::new_empty!(
	ExampleFooRequest,
	fidl::encoding::DefaultFuchsiaResourceDialect
	);
	fidl::encoding::Decoder::<fidl::encoding::DefaultFuchsiaResourceDialect>::decode_into::<ExampleFooRequest>(&header, _body_bytes, handles, &mut req)?;
	let control_handle = ExampleControlHandle { inner: this.inner.clone() };
	Ok(ExampleRequest::Foo {
	s: req.s,

	responder: ExampleFooResponder {
	control_handle: std::mem::ManuallyDrop::new(control_handle),
	tx_id: header.tx_id,
	},
	})
	}
	_ => Err(fidl::Error::UnknownOrdinal {
	ordinal: header.ordinal,
	protocol_name:
	<ExampleMarker as fidl::endpoints::ProtocolMarker>::DEBUG_NAME,
	}),
	}))
	},
	)
	}
	}

	#[derive(Debug)]
	pub enum ExampleRequest {
	Foo { s: String, responder: ExampleFooResponder },
	}

	impl ExampleRequest {
	#[allow(irrefutable_let_patterns)]
	pub fn into_foo(self) -> Option<(String, ExampleFooResponder)> {
	if let ExampleRequest::Foo { s, responder } = self { Some((s, responder)) } else { None }
	}

	/// Name of the method defined in FIDL
	pub fn method_name(&self) -> &'static str {
	match *self {
	ExampleRequest::Foo { .. } => "foo",
	}
	}
	}

	#[derive(Debug, Clone)]
	pub struct ExampleControlHandle {
	inner: std::sync::Arc<fidl::ServeInner<fidl::encoding::DefaultFuchsiaResourceDialect>>,
	}

	impl fidl::endpoints::ControlHandle for ExampleControlHandle {
	fn shutdown(&self) {
	self.inner.shutdown()
	}
	fn shutdown_with_epitaph(&self, status: zx_status::Status) {
	self.inner.shutdown_with_epitaph(status)
	}

	fn is_closed(&self) -> bool {
	self.inner.channel().is_closed()
	}
	fn on_closed(&self) -> fidl::OnSignalsRef<'_> {
	self.inner.channel().on_closed()
	}

	#[cfg(target_os = "fuchsia")]
	fn signal_peer(
	&self,
	clear_mask: zx::Signals,
	set_mask: zx::Signals,
	) -> Result<(), zx_status::Status> {
	use fidl::Peered;
	self.inner.channel().signal_peer(clear_mask, set_mask)
	}
	}

	impl ExampleControlHandle {}

	#[must_use = "FIDL methods require a response to be sent"]
	#[derive(Debug)]
	pub struct ExampleFooResponder {
	control_handle: std::mem::ManuallyDrop<ExampleControlHandle>,
	tx_id: u32,
	}

	/// Set the the channel to be shutdown (see [`ExampleControlHandle::shutdown`])
	/// if the responder is dropped without sending a response, so that the client
	/// doesn't hang. To prevent this behavior, call `drop_without_shutdown`.
	impl std::ops::Drop for ExampleFooResponder {
	fn drop(&mut self) {
	self.control_handle.shutdown();
	// Safety: drops once, never accessed again
	unsafe { std::mem::ManuallyDrop::drop(&mut self.control_handle) };
	}
	}

	impl fidl::endpoints::Responder for ExampleFooResponder {
	type ControlHandle = ExampleControlHandle;

	fn control_handle(&self) -> &ExampleControlHandle {
	&self.control_handle
	}

	fn drop_without_shutdown(mut self) {
	// Safety: drops once, never accessed again due to mem::forget
	unsafe { std::mem::ManuallyDrop::drop(&mut self.control_handle) };
	// Prevent Drop from running (which would shut down the channel)
	std::mem::forget(self);
	}
	}

	impl ExampleFooResponder {
	/// Sends a response to the FIDL transaction.
	///
	/// Sets the channel to shutdown if an error occurs.
	pub fn send(self, mut result: Result<i64, u32>) -> Result<(), fidl::Error> {
	let _result = self.send_raw(result);
	if _result.is_err() {
	self.control_handle.shutdown();
	}
	self.drop_without_shutdown();
	_result
	}

	/// Similar to "send" but does not shutdown the channel if an error occurs.
	pub fn send_no_shutdown_on_err(self, mut result: Result<i64, u32>) -> Result<(), fidl::Error> {
	let _result = self.send_raw(result);
	self.drop_without_shutdown();
	_result
	}

	fn send_raw(&self, mut result: Result<i64, u32>) -> Result<(), fidl::Error> {
	self.control_handle.inner.send::<fidl::encoding::ResultType<ExampleFooResponse, u32>>(
	result.map(\|y\| (y,)),
	self.tx_id,
	0xf5f1179dc411e44,
	fidl::encoding::DynamicFlags::empty(),
	)
	}
	}

	mod internal {
	use super::*;
	}