src/message.rs - platform/external/rust/crates/protobuf - Git at Google

 use std::io::Read;
 use std::io::Write;

 use crate::coded_output_stream::with::WithCodedOutputStream;
 use crate::error::ProtobufError;
 use crate::wire_format::check_message_size;
 use crate::CodedInputStream;
 use crate::CodedOutputStream;
 use crate::SpecialFields;
 use crate::UnknownFields;

 /// Trait which is implemented by all generated message.
 ///
 /// Note, by default all generated messages also implement [`MessageFull`](crate::MessageFull)
 /// trait which provides access to reflection and features which depend on reflection
 /// (text format and JSON serialization).
 pub trait Message: Default + Clone + Send + Sync + Sized + PartialEq + 'static {
     /// Message name as specified in `.proto` file.
     ///
     /// Message name can be accessed using
     /// [`MessageFull::descriptor`](crate::MessageFull::descriptor),
     /// but when lite runtime is requested, this field can be used.
     const NAME: &'static str;

     /// True iff all required fields are initialized.
     /// Always returns `true` for protobuf 3.
     fn is_initialized(&self) -> bool;

     /// Update this message object with fields read from given stream.
     fn merge_from(&mut self, is: &mut CodedInputStream) -> crate::Result<()>;

     /// Parse message from stream.
     fn parse_from(is: &mut CodedInputStream) -> crate::Result<Self> {
         let mut r: Self = Message::new();
         r.merge_from(is)?;
         r.check_initialized()?;
         Ok(r)
     }

     /// Write message to the stream.
     ///
     /// Sizes of this messages and nested messages must be cached
     /// by calling `compute_size` prior to this call.
     fn write_to_with_cached_sizes(&self, os: &mut CodedOutputStream) -> crate::Result<()>;

     /// Compute and cache size of this message and all nested messages.
     ///
     /// Note if the computation overflows u32, the cached size is stored truncated.
     fn compute_size(&self) -> u64;

     /// Get size previously computed by `compute_size`.
     ///
     /// Note if message size exceeds u32, the cached size is stored truncated.
     fn cached_size(&self) -> u32 {
         self.special_fields().cached_size().get()
     }

     /// Write the message to the stream.
     ///
     /// Results in error if message is not fully initialized.
     fn write_to(&self, os: &mut CodedOutputStream) -> crate::Result<()> {
         self.check_initialized()?;

         // cache sizes
         let size = self.compute_size();
         let size = check_message_size(size)?;
         os.reserve_additional(size as u32, Self::NAME)?;
         self.write_to_with_cached_sizes(os)?;

         Ok(())
     }

     /// Write the message to the stream prepending the message with message length
     /// encoded as varint.
     fn write_length_delimited_to(&self, os: &mut CodedOutputStream) -> crate::Result<()> {
         let size = self.compute_size();
         let size = check_message_size(size)?;

         os.reserve_additional_for_length_delimited(size, Self::NAME)?;

         os.write_raw_varint32(size)?;

         let written = os.total_bytes_written();

         self.write_to_with_cached_sizes(os)?;

         // Self-check.
         assert_eq!(
             written + size as u64,
             os.total_bytes_written(),
             "Expected to write {}, actually wrote {}",
             size,
             os.total_bytes_written() - written
         );

         Ok(())
     }

     /// Write the message to the vec, prepend the message with message length
     /// encoded as varint.
     fn write_length_delimited_to_vec(&self, vec: &mut Vec<u8>) -> crate::Result<()> {
         let mut os = CodedOutputStream::vec(vec);
         self.write_length_delimited_to(&mut os)?;
         os.flush()?;
         Ok(())
     }

     /// Update this message object with fields read from given stream.
     fn merge_from_bytes(&mut self, bytes: &[u8]) -> crate::Result<()> {
         let mut is = CodedInputStream::from_bytes(bytes);
         self.merge_from(&mut is)
     }

     /// Parse message from reader.
     /// Parse stops on EOF or when error encountered.
     fn parse_from_reader(reader: &mut dyn Read) -> crate::Result<Self> {
         let mut is = CodedInputStream::new(reader);
         let r = Message::parse_from(&mut is)?;
         is.check_eof()?;
         Ok(r)
     }

     /// Parse message from byte array.
     fn parse_from_bytes(bytes: &[u8]) -> crate::Result<Self> {
         let mut is = CodedInputStream::from_bytes(bytes);
         let r = Message::parse_from(&mut is)?;
         is.check_eof()?;
         Ok(r)
     }

     /// Parse message from `Bytes` object.
     /// Resulting message may share references to the passed bytes object.
     #[cfg(feature = "bytes")]
     fn parse_from_tokio_bytes(bytes: &bytes::Bytes) -> crate::Result<Self> {
         let mut is = CodedInputStream::from_tokio_bytes(bytes);
         let r = Self::parse_from(&mut is)?;
         is.check_eof()?;
         Ok(r)
     }

     /// Check if all required fields of this object are initialized.
     fn check_initialized(&self) -> crate::Result<()> {
         if !self.is_initialized() {
             Err(ProtobufError::MessageNotInitialized(Self::NAME.to_owned()).into())
         } else {
             Ok(())
         }
     }

     /// Write the message to the writer.
     fn write_to_writer(&self, w: &mut dyn Write) -> crate::Result<()> {
         w.with_coded_output_stream(|os| self.write_to(os))
     }

     /// Write the message to bytes vec.
     fn write_to_vec(&self, v: &mut Vec<u8>) -> crate::Result<()> {
         v.with_coded_output_stream(|os| self.write_to(os))
     }

     /// Write the message to bytes vec.
     ///
     /// > **Note**: You can use [`Message::parse_from_bytes`]
     /// to do the reverse.
     fn write_to_bytes(&self) -> crate::Result<Vec<u8>> {
         self.check_initialized()?;

         let size = self.compute_size() as usize;
         let mut v = Vec::with_capacity(size);
         let mut os = CodedOutputStream::vec(&mut v);
         self.write_to_with_cached_sizes(&mut os)?;
         os.flush()?;
         drop(os);
         Ok(v)
     }

     /// Write the message to the writer, prepend the message with message length
     /// encoded as varint.
     fn write_length_delimited_to_writer(&self, w: &mut dyn Write) -> crate::Result<()> {
         w.with_coded_output_stream(|os| self.write_length_delimited_to(os))
     }

     /// Write the message to the bytes vec, prepend the message with message length
     /// encoded as varint.
     fn write_length_delimited_to_bytes(&self) -> crate::Result<Vec<u8>> {
         let mut v = Vec::new();
         v.with_coded_output_stream(|os| self.write_length_delimited_to(os))?;
         Ok(v)
     }

     /// Special fields (unknown fields and cached size).
     fn special_fields(&self) -> &SpecialFields;
     /// Special fields (unknown fields and cached size).
     fn mut_special_fields(&mut self) -> &mut SpecialFields;

     /// Get a reference to unknown fields.
     fn unknown_fields(&self) -> &UnknownFields {
         &self.special_fields().unknown_fields()
     }
     /// Get a mutable reference to unknown fields.
     fn mut_unknown_fields(&mut self) -> &mut UnknownFields {
         self.mut_special_fields().mut_unknown_fields()
     }

     /// Create an empty message object.
     ///
     /// ```
     /// # use protobuf::MessageFull;
     /// # fn foo<MyMessage: MessageFull>() {
     /// let m = MyMessage::new();
     /// # }
     /// ```
     fn new() -> Self;

     /// Reset all fields.
     fn clear(&mut self) {
         *self = Self::new();
     }

     /// Return a pointer to default immutable message with static lifetime.
     ///
     /// ```
     /// # use protobuf::MessageFull;
     /// # fn foo<MyMessage: MessageFull>() {
     /// let m: &MyMessage = MyMessage::default_instance();
     /// # }
     /// ```
     fn default_instance() -> &'static Self;
 }
	use std::io::Read;
	use std::io::Write;

	use crate::coded_output_stream::with::WithCodedOutputStream;
	use crate::error::ProtobufError;
	use crate::wire_format::check_message_size;
	use crate::CodedInputStream;
	use crate::CodedOutputStream;
	use crate::SpecialFields;
	use crate::UnknownFields;

	/// Trait which is implemented by all generated message.
	///
	/// Note, by default all generated messages also implement [`MessageFull`](crate::MessageFull)
	/// trait which provides access to reflection and features which depend on reflection
	/// (text format and JSON serialization).
	pub trait Message: Default + Clone + Send + Sync + Sized + PartialEq + 'static {
	/// Message name as specified in `.proto` file.
	///
	/// Message name can be accessed using
	/// [`MessageFull::descriptor`](crate::MessageFull::descriptor),
	/// but when lite runtime is requested, this field can be used.
	const NAME: &'static str;

	/// True iff all required fields are initialized.
	/// Always returns `true` for protobuf 3.
	fn is_initialized(&self) -> bool;

	/// Update this message object with fields read from given stream.
	fn merge_from(&mut self, is: &mut CodedInputStream) -> crate::Result<()>;

	/// Parse message from stream.
	fn parse_from(is: &mut CodedInputStream) -> crate::Result<Self> {
	let mut r: Self = Message::new();
	r.merge_from(is)?;
	r.check_initialized()?;
	Ok(r)
	}

	/// Write message to the stream.
	///
	/// Sizes of this messages and nested messages must be cached
	/// by calling `compute_size` prior to this call.
	fn write_to_with_cached_sizes(&self, os: &mut CodedOutputStream) -> crate::Result<()>;

	/// Compute and cache size of this message and all nested messages.
	///
	/// Note if the computation overflows u32, the cached size is stored truncated.
	fn compute_size(&self) -> u64;

	/// Get size previously computed by `compute_size`.
	///
	/// Note if message size exceeds u32, the cached size is stored truncated.
	fn cached_size(&self) -> u32 {
	self.special_fields().cached_size().get()
	}

	/// Write the message to the stream.
	///
	/// Results in error if message is not fully initialized.
	fn write_to(&self, os: &mut CodedOutputStream) -> crate::Result<()> {
	self.check_initialized()?;

	// cache sizes
	let size = self.compute_size();
	let size = check_message_size(size)?;
	os.reserve_additional(size as u32, Self::NAME)?;
	self.write_to_with_cached_sizes(os)?;

	Ok(())
	}

	/// Write the message to the stream prepending the message with message length
	/// encoded as varint.
	fn write_length_delimited_to(&self, os: &mut CodedOutputStream) -> crate::Result<()> {
	let size = self.compute_size();
	let size = check_message_size(size)?;

	os.reserve_additional_for_length_delimited(size, Self::NAME)?;

	os.write_raw_varint32(size)?;

	let written = os.total_bytes_written();

	self.write_to_with_cached_sizes(os)?;

	// Self-check.
	assert_eq!(
	written + size as u64,
	os.total_bytes_written(),
	"Expected to write {}, actually wrote {}",
	size,
	os.total_bytes_written() - written
	);

	Ok(())
	}

	/// Write the message to the vec, prepend the message with message length
	/// encoded as varint.
	fn write_length_delimited_to_vec(&self, vec: &mut Vec<u8>) -> crate::Result<()> {
	let mut os = CodedOutputStream::vec(vec);
	self.write_length_delimited_to(&mut os)?;
	os.flush()?;
	Ok(())
	}

	/// Update this message object with fields read from given stream.
	fn merge_from_bytes(&mut self, bytes: &[u8]) -> crate::Result<()> {
	let mut is = CodedInputStream::from_bytes(bytes);
	self.merge_from(&mut is)
	}

	/// Parse message from reader.
	/// Parse stops on EOF or when error encountered.
	fn parse_from_reader(reader: &mut dyn Read) -> crate::Result<Self> {
	let mut is = CodedInputStream::new(reader);
	let r = Message::parse_from(&mut is)?;
	is.check_eof()?;
	Ok(r)
	}

	/// Parse message from byte array.
	fn parse_from_bytes(bytes: &[u8]) -> crate::Result<Self> {
	let mut is = CodedInputStream::from_bytes(bytes);
	let r = Message::parse_from(&mut is)?;
	is.check_eof()?;
	Ok(r)
	}

	/// Parse message from `Bytes` object.
	/// Resulting message may share references to the passed bytes object.
	#[cfg(feature = "bytes")]
	fn parse_from_tokio_bytes(bytes: &bytes::Bytes) -> crate::Result<Self> {
	let mut is = CodedInputStream::from_tokio_bytes(bytes);
	let r = Self::parse_from(&mut is)?;
	is.check_eof()?;
	Ok(r)
	}

	/// Check if all required fields of this object are initialized.
	fn check_initialized(&self) -> crate::Result<()> {
	if !self.is_initialized() {
	Err(ProtobufError::MessageNotInitialized(Self::NAME.to_owned()).into())
	} else {
	Ok(())
	}
	}

	/// Write the message to the writer.
	fn write_to_writer(&self, w: &mut dyn Write) -> crate::Result<()> {
	w.with_coded_output_stream(\|os\| self.write_to(os))
	}

	/// Write the message to bytes vec.
	fn write_to_vec(&self, v: &mut Vec<u8>) -> crate::Result<()> {
	v.with_coded_output_stream(\|os\| self.write_to(os))
	}

	/// Write the message to bytes vec.
	///
	/// > Note: You can use [`Message::parse_from_bytes`]
	/// to do the reverse.
	fn write_to_bytes(&self) -> crate::Result<Vec<u8>> {
	self.check_initialized()?;

	let size = self.compute_size() as usize;
	let mut v = Vec::with_capacity(size);
	let mut os = CodedOutputStream::vec(&mut v);
	self.write_to_with_cached_sizes(&mut os)?;
	os.flush()?;
	drop(os);
	Ok(v)
	}

	/// Write the message to the writer, prepend the message with message length
	/// encoded as varint.
	fn write_length_delimited_to_writer(&self, w: &mut dyn Write) -> crate::Result<()> {
	w.with_coded_output_stream(\|os\| self.write_length_delimited_to(os))
	}

	/// Write the message to the bytes vec, prepend the message with message length
	/// encoded as varint.
	fn write_length_delimited_to_bytes(&self) -> crate::Result<Vec<u8>> {
	let mut v = Vec::new();
	v.with_coded_output_stream(\|os\| self.write_length_delimited_to(os))?;
	Ok(v)
	}

	/// Special fields (unknown fields and cached size).
	fn special_fields(&self) -> &SpecialFields;
	/// Special fields (unknown fields and cached size).
	fn mut_special_fields(&mut self) -> &mut SpecialFields;

	/// Get a reference to unknown fields.
	fn unknown_fields(&self) -> &UnknownFields {
	&self.special_fields().unknown_fields()
	}
	/// Get a mutable reference to unknown fields.
	fn mut_unknown_fields(&mut self) -> &mut UnknownFields {
	self.mut_special_fields().mut_unknown_fields()
	}

	/// Create an empty message object.
	///
	/// ```
	/// # use protobuf::MessageFull;
	/// # fn foo<MyMessage: MessageFull>() {
	/// let m = MyMessage::new();
	/// # }
	/// ```
	fn new() -> Self;

	/// Reset all fields.
	fn clear(&mut self) {
	*self = Self::new();
	}

	/// Return a pointer to default immutable message with static lifetime.
	///
	/// ```
	/// # use protobuf::MessageFull;
	/// # fn foo<MyMessage: MessageFull>() {
	/// let m: &MyMessage = MyMessage::default_instance();
	/// # }
	/// ```
	fn default_instance() -> &'static Self;
	}