csharp/src/Google.Protobuf/WriteContext.cs - third_party/protobuf - Git at Google

 #region Copyright notice and license
 // Protocol Buffers - Google's data interchange format
 // Copyright 2008 Google Inc.  All rights reserved.
 //
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file or at
 // https://developers.google.com/open-source/licenses/bsd
 #endregion

 using System;
 using System.Buffers;
 using System.Runtime.CompilerServices;
 using System.Security;

 namespace Google.Protobuf
 {
     /// <summary>
     /// An opaque struct that represents the current serialization state and is passed along
     /// as the serialization proceeds.
     /// All the public methods are intended to be invoked only by the generated code,
     /// users should never invoke them directly.
     /// </summary>
     [SecuritySafeCritical]
     public ref struct WriteContext
     {
         internal Span<byte> buffer;
         internal WriterInternalState state;

         [MethodImpl(MethodImplOptions.AggressiveInlining)]
         internal static void Initialize(ref Span<byte> buffer, ref WriterInternalState state, out WriteContext ctx)
         {
             ctx.buffer = buffer;
             ctx.state = state;
         }

         /// <summary>
         /// Creates a WriteContext instance from CodedOutputStream.
         /// WARNING: internally this copies the CodedOutputStream's state, so after done with the WriteContext,
         /// the CodedOutputStream's state needs to be updated.
         /// </summary>
         [MethodImpl(MethodImplOptions.AggressiveInlining)]
         internal static void Initialize(CodedOutputStream output, out WriteContext ctx)
         {
             ctx.buffer = new Span<byte>(output.InternalBuffer);
             // ideally we would use a reference to the original state, but that doesn't seem possible
             // so we just copy the struct that holds the state. We will need to later store the state back
             // into CodedOutputStream if we want to keep it usable.
             ctx.state = output.InternalState;
         }

         [MethodImpl(MethodImplOptions.AggressiveInlining)]
         internal static void Initialize(IBufferWriter<byte> output, out WriteContext ctx)
         {
             ctx.buffer = default;
             ctx.state = default;
             WriteBufferHelper.Initialize(output, out ctx.state.writeBufferHelper, out ctx.buffer);
             ctx.state.limit = ctx.buffer.Length;
             ctx.state.position = 0;
         }

         [MethodImpl(MethodImplOptions.AggressiveInlining)]
         internal static void Initialize(ref Span<byte> buffer, out WriteContext ctx)
         {
             ctx.buffer = buffer;
             ctx.state = default;
             ctx.state.limit = ctx.buffer.Length;
             ctx.state.position = 0;
             WriteBufferHelper.InitializeNonRefreshable(out ctx.state.writeBufferHelper);
         }

         /// <summary>
         /// Writes a double field value, without a tag.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteDouble(double value) => WritingPrimitives.WriteDouble(ref buffer, ref state, value);

         /// <summary>
         /// Writes a float field value, without a tag.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteFloat(float value) => WritingPrimitives.WriteFloat(ref buffer, ref state, value);

         /// <summary>
         /// Writes a uint64 field value, without a tag.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteUInt64(ulong value) => WritingPrimitives.WriteUInt64(ref buffer, ref state, value);

         /// <summary>
         /// Writes an int64 field value, without a tag.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteInt64(long value) => WritingPrimitives.WriteInt64(ref buffer, ref state, value);

         /// <summary>
         /// Writes an int32 field value, without a tag.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteInt32(int value) => WritingPrimitives.WriteInt32(ref buffer, ref state, value);

         /// <summary>
         /// Writes a fixed64 field value, without a tag.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteFixed64(ulong value) => WritingPrimitives.WriteFixed64(ref buffer, ref state, value);

         /// <summary>
         /// Writes a fixed32 field value, without a tag.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteFixed32(uint value) => WritingPrimitives.WriteFixed32(ref buffer, ref state, value);

         /// <summary>
         /// Writes a bool field value, without a tag.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteBool(bool value) => WritingPrimitives.WriteBool(ref buffer, ref state, value);

         /// <summary>
         /// Writes a string field value, without a tag.
         /// The data is length-prefixed.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteString(string value) => WritingPrimitives.WriteString(ref buffer, ref state, value);

         /// <summary>
         /// Writes a message, without a tag.
         /// The data is length-prefixed.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteMessage(IMessage value) => WritingPrimitivesMessages.WriteMessage(ref this, value);

         /// <summary>
         /// Writes a group, without a tag, to the stream.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteGroup(IMessage value) => WritingPrimitivesMessages.WriteGroup(ref this, value);

         /// <summary>
         /// Write a byte string, without a tag, to the stream.
         /// The data is length-prefixed.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteBytes(ByteString value) => WritingPrimitives.WriteBytes(ref buffer, ref state, value);

         /// <summary>
         /// Writes a uint32 value, without a tag.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteUInt32(uint value) => WritingPrimitives.WriteUInt32(ref buffer, ref state, value);

         /// <summary>
         /// Writes an enum value, without a tag.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteEnum(int value) => WritingPrimitives.WriteEnum(ref buffer, ref state, value);

         /// <summary>
         /// Writes an sfixed32 value, without a tag.
         /// </summary>
         /// <param name="value">The value to write.</param>
         public void WriteSFixed32(int value) => WritingPrimitives.WriteSFixed32(ref buffer, ref state, value);

         /// <summary>
         /// Writes an sfixed64 value, without a tag.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteSFixed64(long value) => WritingPrimitives.WriteSFixed64(ref buffer, ref state, value);

         /// <summary>
         /// Writes an sint32 value, without a tag.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteSInt32(int value) => WritingPrimitives.WriteSInt32(ref buffer, ref state, value);

         /// <summary>
         /// Writes an sint64 value, without a tag.
         /// </summary>
         /// <param name="value">The value to write</param>
         public void WriteSInt64(long value) => WritingPrimitives.WriteSInt64(ref buffer, ref state, value);

         /// <summary>
         /// Writes a length (in bytes) for length-delimited data.
         /// </summary>
         /// <remarks>
         /// This method simply writes a rawint, but exists for clarity in calling code.
         /// </remarks>
         /// <param name="length">Length value, in bytes.</param>
         public void WriteLength(int length) => WritingPrimitives.WriteLength(ref buffer, ref state, length);

         /// <summary>
         /// Encodes and writes a tag.
         /// </summary>
         /// <param name="fieldNumber">The number of the field to write the tag for</param>
         /// <param name="type">The wire format type of the tag to write</param>
         public void WriteTag(int fieldNumber, WireFormat.WireType type) => WritingPrimitives.WriteTag(ref buffer, ref state, fieldNumber, type);

         /// <summary>
         /// Writes an already-encoded tag.
         /// </summary>
         /// <param name="tag">The encoded tag</param>
         public void WriteTag(uint tag) => WritingPrimitives.WriteTag(ref buffer, ref state, tag);

         /// <summary>
         /// Writes the given single-byte tag.
         /// </summary>
         /// <param name="b1">The encoded tag</param>
         public void WriteRawTag(byte b1) => WritingPrimitives.WriteRawTag(ref buffer, ref state, b1);

         /// <summary>
         /// Writes the given two-byte tag.
         /// </summary>
         /// <param name="b1">The first byte of the encoded tag</param>
         /// <param name="b2">The second byte of the encoded tag</param>
         public void WriteRawTag(byte b1, byte b2) => WritingPrimitives.WriteRawTag(ref buffer, ref state, b1, b2);

         /// <summary>
         /// Writes the given three-byte tag.
         /// </summary>
         /// <param name="b1">The first byte of the encoded tag</param>
         /// <param name="b2">The second byte of the encoded tag</param>
         /// <param name="b3">The third byte of the encoded tag</param>
         public void WriteRawTag(byte b1, byte b2, byte b3) => WritingPrimitives.WriteRawTag(ref buffer, ref state, b1, b2, b3);

         /// <summary>
         /// Writes the given four-byte tag.
         /// </summary>
         /// <param name="b1">The first byte of the encoded tag</param>
         /// <param name="b2">The second byte of the encoded tag</param>
         /// <param name="b3">The third byte of the encoded tag</param>
         /// <param name="b4">The fourth byte of the encoded tag</param>
         public void WriteRawTag(byte b1, byte b2, byte b3, byte b4) => WritingPrimitives.WriteRawTag(ref buffer, ref state, b1, b2, b3, b4);

         /// <summary>
         /// Writes the given five-byte tag.
         /// </summary>
         /// <param name="b1">The first byte of the encoded tag</param>
         /// <param name="b2">The second byte of the encoded tag</param>
         /// <param name="b3">The third byte of the encoded tag</param>
         /// <param name="b4">The fourth byte of the encoded tag</param>
         /// <param name="b5">The fifth byte of the encoded tag</param>
         public void WriteRawTag(byte b1, byte b2, byte b3, byte b4, byte b5) => WritingPrimitives.WriteRawTag(ref buffer, ref state, b1, b2, b3, b4, b5);

         internal void Flush() => WriteBufferHelper.Flush(ref buffer, ref state);

         internal void CheckNoSpaceLeft() => WriteBufferHelper.CheckNoSpaceLeft(ref state);

         internal void CopyStateTo(CodedOutputStream output)
         {
             output.InternalState = state;
         }

         internal void LoadStateFrom(CodedOutputStream output)
         {
             state = output.InternalState;
         }
     }
 }
	#region Copyright notice and license
	// Protocol Buffers - Google's data interchange format
	// Copyright 2008 Google Inc. All rights reserved.
	//
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file or at
	// https://developers.google.com/open-source/licenses/bsd
	#endregion

	using System;
	using System.Buffers;
	using System.Runtime.CompilerServices;
	using System.Security;

	namespace Google.Protobuf
	{
	/// <summary>
	/// An opaque struct that represents the current serialization state and is passed along
	/// as the serialization proceeds.
	/// All the public methods are intended to be invoked only by the generated code,
	/// users should never invoke them directly.
	/// </summary>
	[SecuritySafeCritical]
	public ref struct WriteContext
	{
	internal Span<byte> buffer;
	internal WriterInternalState state;

	[MethodImpl(MethodImplOptions.AggressiveInlining)]
	internal static void Initialize(ref Span<byte> buffer, ref WriterInternalState state, out WriteContext ctx)
	{
	ctx.buffer = buffer;
	ctx.state = state;
	}

	/// <summary>
	/// Creates a WriteContext instance from CodedOutputStream.
	/// WARNING: internally this copies the CodedOutputStream's state, so after done with the WriteContext,
	/// the CodedOutputStream's state needs to be updated.
	/// </summary>
	[MethodImpl(MethodImplOptions.AggressiveInlining)]
	internal static void Initialize(CodedOutputStream output, out WriteContext ctx)
	{
	ctx.buffer = new Span<byte>(output.InternalBuffer);
	// ideally we would use a reference to the original state, but that doesn't seem possible
	// so we just copy the struct that holds the state. We will need to later store the state back
	// into CodedOutputStream if we want to keep it usable.
	ctx.state = output.InternalState;
	}

	[MethodImpl(MethodImplOptions.AggressiveInlining)]
	internal static void Initialize(IBufferWriter<byte> output, out WriteContext ctx)
	{
	ctx.buffer = default;
	ctx.state = default;
	WriteBufferHelper.Initialize(output, out ctx.state.writeBufferHelper, out ctx.buffer);
	ctx.state.limit = ctx.buffer.Length;
	ctx.state.position = 0;
	}

	[MethodImpl(MethodImplOptions.AggressiveInlining)]
	internal static void Initialize(ref Span<byte> buffer, out WriteContext ctx)
	{
	ctx.buffer = buffer;
	ctx.state = default;
	ctx.state.limit = ctx.buffer.Length;
	ctx.state.position = 0;
	WriteBufferHelper.InitializeNonRefreshable(out ctx.state.writeBufferHelper);
	}

	/// <summary>
	/// Writes a double field value, without a tag.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteDouble(double value) => WritingPrimitives.WriteDouble(ref buffer, ref state, value);

	/// <summary>
	/// Writes a float field value, without a tag.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteFloat(float value) => WritingPrimitives.WriteFloat(ref buffer, ref state, value);

	/// <summary>
	/// Writes a uint64 field value, without a tag.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteUInt64(ulong value) => WritingPrimitives.WriteUInt64(ref buffer, ref state, value);

	/// <summary>
	/// Writes an int64 field value, without a tag.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteInt64(long value) => WritingPrimitives.WriteInt64(ref buffer, ref state, value);

	/// <summary>
	/// Writes an int32 field value, without a tag.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteInt32(int value) => WritingPrimitives.WriteInt32(ref buffer, ref state, value);

	/// <summary>
	/// Writes a fixed64 field value, without a tag.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteFixed64(ulong value) => WritingPrimitives.WriteFixed64(ref buffer, ref state, value);

	/// <summary>
	/// Writes a fixed32 field value, without a tag.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteFixed32(uint value) => WritingPrimitives.WriteFixed32(ref buffer, ref state, value);

	/// <summary>
	/// Writes a bool field value, without a tag.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteBool(bool value) => WritingPrimitives.WriteBool(ref buffer, ref state, value);

	/// <summary>
	/// Writes a string field value, without a tag.
	/// The data is length-prefixed.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteString(string value) => WritingPrimitives.WriteString(ref buffer, ref state, value);

	/// <summary>
	/// Writes a message, without a tag.
	/// The data is length-prefixed.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteMessage(IMessage value) => WritingPrimitivesMessages.WriteMessage(ref this, value);

	/// <summary>
	/// Writes a group, without a tag, to the stream.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteGroup(IMessage value) => WritingPrimitivesMessages.WriteGroup(ref this, value);

	/// <summary>
	/// Write a byte string, without a tag, to the stream.
	/// The data is length-prefixed.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteBytes(ByteString value) => WritingPrimitives.WriteBytes(ref buffer, ref state, value);

	/// <summary>
	/// Writes a uint32 value, without a tag.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteUInt32(uint value) => WritingPrimitives.WriteUInt32(ref buffer, ref state, value);

	/// <summary>
	/// Writes an enum value, without a tag.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteEnum(int value) => WritingPrimitives.WriteEnum(ref buffer, ref state, value);

	/// <summary>
	/// Writes an sfixed32 value, without a tag.
	/// </summary>
	/// <param name="value">The value to write.</param>
	public void WriteSFixed32(int value) => WritingPrimitives.WriteSFixed32(ref buffer, ref state, value);

	/// <summary>
	/// Writes an sfixed64 value, without a tag.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteSFixed64(long value) => WritingPrimitives.WriteSFixed64(ref buffer, ref state, value);

	/// <summary>
	/// Writes an sint32 value, without a tag.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteSInt32(int value) => WritingPrimitives.WriteSInt32(ref buffer, ref state, value);

	/// <summary>
	/// Writes an sint64 value, without a tag.
	/// </summary>
	/// <param name="value">The value to write</param>
	public void WriteSInt64(long value) => WritingPrimitives.WriteSInt64(ref buffer, ref state, value);

	/// <summary>
	/// Writes a length (in bytes) for length-delimited data.
	/// </summary>
	/// <remarks>
	/// This method simply writes a rawint, but exists for clarity in calling code.
	/// </remarks>
	/// <param name="length">Length value, in bytes.</param>
	public void WriteLength(int length) => WritingPrimitives.WriteLength(ref buffer, ref state, length);

	/// <summary>
	/// Encodes and writes a tag.
	/// </summary>
	/// <param name="fieldNumber">The number of the field to write the tag for</param>
	/// <param name="type">The wire format type of the tag to write</param>
	public void WriteTag(int fieldNumber, WireFormat.WireType type) => WritingPrimitives.WriteTag(ref buffer, ref state, fieldNumber, type);

	/// <summary>
	/// Writes an already-encoded tag.
	/// </summary>
	/// <param name="tag">The encoded tag</param>
	public void WriteTag(uint tag) => WritingPrimitives.WriteTag(ref buffer, ref state, tag);

	/// <summary>
	/// Writes the given single-byte tag.
	/// </summary>
	/// <param name="b1">The encoded tag</param>
	public void WriteRawTag(byte b1) => WritingPrimitives.WriteRawTag(ref buffer, ref state, b1);

	/// <summary>
	/// Writes the given two-byte tag.
	/// </summary>
	/// <param name="b1">The first byte of the encoded tag</param>
	/// <param name="b2">The second byte of the encoded tag</param>
	public void WriteRawTag(byte b1, byte b2) => WritingPrimitives.WriteRawTag(ref buffer, ref state, b1, b2);

	/// <summary>
	/// Writes the given three-byte tag.
	/// </summary>
	/// <param name="b1">The first byte of the encoded tag</param>
	/// <param name="b2">The second byte of the encoded tag</param>
	/// <param name="b3">The third byte of the encoded tag</param>
	public void WriteRawTag(byte b1, byte b2, byte b3) => WritingPrimitives.WriteRawTag(ref buffer, ref state, b1, b2, b3);

	/// <summary>
	/// Writes the given four-byte tag.
	/// </summary>
	/// <param name="b1">The first byte of the encoded tag</param>
	/// <param name="b2">The second byte of the encoded tag</param>
	/// <param name="b3">The third byte of the encoded tag</param>
	/// <param name="b4">The fourth byte of the encoded tag</param>
	public void WriteRawTag(byte b1, byte b2, byte b3, byte b4) => WritingPrimitives.WriteRawTag(ref buffer, ref state, b1, b2, b3, b4);

	/// <summary>
	/// Writes the given five-byte tag.
	/// </summary>
	/// <param name="b1">The first byte of the encoded tag</param>
	/// <param name="b2">The second byte of the encoded tag</param>
	/// <param name="b3">The third byte of the encoded tag</param>
	/// <param name="b4">The fourth byte of the encoded tag</param>
	/// <param name="b5">The fifth byte of the encoded tag</param>
	public void WriteRawTag(byte b1, byte b2, byte b3, byte b4, byte b5) => WritingPrimitives.WriteRawTag(ref buffer, ref state, b1, b2, b3, b4, b5);

	internal void Flush() => WriteBufferHelper.Flush(ref buffer, ref state);

	internal void CheckNoSpaceLeft() => WriteBufferHelper.CheckNoSpaceLeft(ref state);

	internal void CopyStateTo(CodedOutputStream output)
	{
	output.InternalState = state;
	}

	internal void LoadStateFrom(CodedOutputStream output)
	{
	state = output.InternalState;
	}
	}
	}