#region Copyright notice and license
// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
// https://developers.google.com/protocol-buffers/
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#endregion
using System;
using System.Buffers;
using System.Buffers.Binary;
using System.Collections.Generic;
using System.IO;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Security;
using System.Text;
using LC.Google.Protobuf.Collections;
namespace LC.Google.Protobuf
{
///
/// Fast parsing primitives for wrapper types
///
[SecuritySafeCritical]
internal static class ParsingPrimitivesWrappers
{
internal static float? ReadFloatWrapperLittleEndian(ref ReadOnlySpan buffer, ref ParserInternalState state)
{
// length:1 + tag:1 + value:4 = 6 bytes
if (state.bufferPos + 6 <= state.bufferSize)
{
// The entire wrapper message is already contained in `buffer`.
int length = buffer[state.bufferPos];
if (length == 0)
{
state.bufferPos++;
return 0F;
}
// tag:1 + value:4 = length of 5 bytes
// field=1, type=32-bit = tag of 13
if (length != 5 || buffer[state.bufferPos + 1] != 13)
{
return ReadFloatWrapperSlow(ref buffer, ref state);
}
state.bufferPos += 2;
return ParsingPrimitives.ParseFloat(ref buffer, ref state);
}
else
{
return ReadFloatWrapperSlow(ref buffer, ref state);
}
}
internal static float? ReadFloatWrapperSlow(ref ReadOnlySpan buffer, ref ParserInternalState state)
{
int length = ParsingPrimitives.ParseLength(ref buffer, ref state);
if (length == 0)
{
return 0F;
}
int finalBufferPos = state.totalBytesRetired + state.bufferPos + length;
float result = 0F;
do
{
// field=1, type=32-bit = tag of 13
if (ParsingPrimitives.ParseTag(ref buffer, ref state) == 13)
{
result = ParsingPrimitives.ParseFloat(ref buffer, ref state);
}
else
{
ParsingPrimitivesMessages.SkipLastField(ref buffer, ref state);
}
}
while (state.totalBytesRetired + state.bufferPos < finalBufferPos);
return result;
}
internal static double? ReadDoubleWrapperLittleEndian(ref ReadOnlySpan buffer, ref ParserInternalState state)
{
// length:1 + tag:1 + value:8 = 10 bytes
if (state.bufferPos + 10 <= state.bufferSize)
{
// The entire wrapper message is already contained in `buffer`.
int length = buffer[state.bufferPos];
if (length == 0)
{
state.bufferPos++;
return 0D;
}
// tag:1 + value:8 = length of 9 bytes
// field=1, type=64-bit = tag of 9
if (length != 9 || buffer[state.bufferPos + 1] != 9)
{
return ReadDoubleWrapperSlow(ref buffer, ref state);
}
state.bufferPos += 2;
return ParsingPrimitives.ParseDouble(ref buffer, ref state);
}
else
{
return ReadDoubleWrapperSlow(ref buffer, ref state);
}
}
internal static double? ReadDoubleWrapperSlow(ref ReadOnlySpan buffer, ref ParserInternalState state)
{
int length = ParsingPrimitives.ParseLength(ref buffer, ref state);
if (length == 0)
{
return 0D;
}
int finalBufferPos = state.totalBytesRetired + state.bufferPos + length;
double result = 0D;
do
{
// field=1, type=64-bit = tag of 9
if (ParsingPrimitives.ParseTag(ref buffer, ref state) == 9)
{
result = ParsingPrimitives.ParseDouble(ref buffer, ref state);
}
else
{
ParsingPrimitivesMessages.SkipLastField(ref buffer, ref state);
}
}
while (state.totalBytesRetired + state.bufferPos < finalBufferPos);
return result;
}
internal static bool? ReadBoolWrapper(ref ReadOnlySpan buffer, ref ParserInternalState state)
{
return ReadUInt64Wrapper(ref buffer, ref state) != 0;
}
internal static uint? ReadUInt32Wrapper(ref ReadOnlySpan buffer, ref ParserInternalState state)
{
// field=1, type=varint = tag of 8
const int expectedTag = 8;
// length:1 + tag:1 + value:10(varint64-max) = 12 bytes
// Value can be 64 bits for negative integers
if (state.bufferPos + 12 <= state.bufferSize)
{
// The entire wrapper message is already contained in `buffer`.
int pos0 = state.bufferPos;
int length = buffer[state.bufferPos++];
if (length == 0)
{
return 0;
}
// Length will always fit in a single byte.
if (length >= 128)
{
state.bufferPos = pos0;
return ReadUInt32WrapperSlow(ref buffer, ref state);
}
int finalBufferPos = state.bufferPos + length;
if (buffer[state.bufferPos++] != expectedTag)
{
state.bufferPos = pos0;
return ReadUInt32WrapperSlow(ref buffer, ref state);
}
var result = ParsingPrimitives.ParseRawVarint32(ref buffer, ref state);
// Verify this message only contained a single field.
if (state.bufferPos != finalBufferPos)
{
state.bufferPos = pos0;
return ReadUInt32WrapperSlow(ref buffer, ref state);
}
return result;
}
else
{
return ReadUInt32WrapperSlow(ref buffer, ref state);
}
}
internal static uint? ReadUInt32WrapperSlow(ref ReadOnlySpan buffer, ref ParserInternalState state)
{
int length = ParsingPrimitives.ParseLength(ref buffer, ref state);
if (length == 0)
{
return 0;
}
int finalBufferPos = state.totalBytesRetired + state.bufferPos + length;
uint result = 0;
do
{
// field=1, type=varint = tag of 8
if (ParsingPrimitives.ParseTag(ref buffer, ref state) == 8)
{
result = ParsingPrimitives.ParseRawVarint32(ref buffer, ref state);
}
else
{
ParsingPrimitivesMessages.SkipLastField(ref buffer, ref state);
}
}
while (state.totalBytesRetired + state.bufferPos < finalBufferPos);
return result;
}
internal static int? ReadInt32Wrapper(ref ReadOnlySpan buffer, ref ParserInternalState state)
{
return (int?)ReadUInt32Wrapper(ref buffer, ref state);
}
internal static ulong? ReadUInt64Wrapper(ref ReadOnlySpan buffer, ref ParserInternalState state)
{
// field=1, type=varint = tag of 8
const int expectedTag = 8;
// length:1 + tag:1 + value:10(varint64-max) = 12 bytes
if (state.bufferPos + 12 <= state.bufferSize)
{
// The entire wrapper message is already contained in `buffer`.
int pos0 = state.bufferPos;
int length = buffer[state.bufferPos++];
if (length == 0)
{
return 0L;
}
// Length will always fit in a single byte.
if (length >= 128)
{
state.bufferPos = pos0;
return ReadUInt64WrapperSlow(ref buffer, ref state);
}
int finalBufferPos = state.bufferPos + length;
if (buffer[state.bufferPos++] != expectedTag)
{
state.bufferPos = pos0;
return ReadUInt64WrapperSlow(ref buffer, ref state);
}
var result = ParsingPrimitives.ParseRawVarint64(ref buffer, ref state);
// Verify this message only contained a single field.
if (state.bufferPos != finalBufferPos)
{
state.bufferPos = pos0;
return ReadUInt64WrapperSlow(ref buffer, ref state);
}
return result;
}
else
{
return ReadUInt64WrapperSlow(ref buffer, ref state);
}
}
internal static ulong? ReadUInt64WrapperSlow(ref ReadOnlySpan buffer, ref ParserInternalState state)
{
// field=1, type=varint = tag of 8
const int expectedTag = 8;
int length = ParsingPrimitives.ParseLength(ref buffer, ref state);
if (length == 0)
{
return 0L;
}
int finalBufferPos = state.totalBytesRetired + state.bufferPos + length;
ulong result = 0L;
do
{
if (ParsingPrimitives.ParseTag(ref buffer, ref state) == expectedTag)
{
result = ParsingPrimitives.ParseRawVarint64(ref buffer, ref state);
}
else
{
ParsingPrimitivesMessages.SkipLastField(ref buffer, ref state);
}
}
while (state.totalBytesRetired + state.bufferPos < finalBufferPos);
return result;
}
internal static long? ReadInt64Wrapper(ref ReadOnlySpan buffer, ref ParserInternalState state)
{
return (long?)ReadUInt64Wrapper(ref buffer, ref state);
}
internal static float? ReadFloatWrapperLittleEndian(ref ParseContext ctx)
{
return ParsingPrimitivesWrappers.ReadFloatWrapperLittleEndian(ref ctx.buffer, ref ctx.state);
}
internal static float? ReadFloatWrapperSlow(ref ParseContext ctx)
{
return ParsingPrimitivesWrappers.ReadFloatWrapperSlow(ref ctx.buffer, ref ctx.state);
}
internal static double? ReadDoubleWrapperLittleEndian(ref ParseContext ctx)
{
return ParsingPrimitivesWrappers.ReadDoubleWrapperLittleEndian(ref ctx.buffer, ref ctx.state);
}
internal static double? ReadDoubleWrapperSlow(ref ParseContext ctx)
{
return ParsingPrimitivesWrappers.ReadDoubleWrapperSlow(ref ctx.buffer, ref ctx.state);
}
internal static bool? ReadBoolWrapper(ref ParseContext ctx)
{
return ParsingPrimitivesWrappers.ReadBoolWrapper(ref ctx.buffer, ref ctx.state);
}
internal static uint? ReadUInt32Wrapper(ref ParseContext ctx)
{
return ParsingPrimitivesWrappers.ReadUInt32Wrapper(ref ctx.buffer, ref ctx.state);
}
internal static int? ReadInt32Wrapper(ref ParseContext ctx)
{
return ParsingPrimitivesWrappers.ReadInt32Wrapper(ref ctx.buffer, ref ctx.state);
}
internal static ulong? ReadUInt64Wrapper(ref ParseContext ctx)
{
return ParsingPrimitivesWrappers.ReadUInt64Wrapper(ref ctx.buffer, ref ctx.state);
}
internal static ulong? ReadUInt64WrapperSlow(ref ParseContext ctx)
{
return ParsingPrimitivesWrappers.ReadUInt64WrapperSlow(ref ctx.buffer, ref ctx.state);
}
internal static long? ReadInt64Wrapper(ref ParseContext ctx)
{
return ParsingPrimitivesWrappers.ReadInt64Wrapper(ref ctx.buffer, ref ctx.state);
}
}
}