csharp-sdk-upm/Libs/Newtonsoft.Json.AOT/JsonTextReader.cs

2656 lines
99 KiB
C#
Raw Normal View History

2021-03-31 11:22:02 +08:00
#region License
// Copyright (c) 2007 James Newton-King
//
// Permission is hereby granted, free of charge, to any person
// obtaining a copy of this software and associated documentation
// files (the "Software"), to deal in the Software without
// restriction, including without limitation the rights to use,
// copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the
// Software is furnished to do so, subject to the following
// conditions:
//
// The above copyright notice and this permission notice shall be
// included in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
// OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
// HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
// WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
// OTHER DEALINGS IN THE SOFTWARE.
#endregion
using System;
using System.Runtime.CompilerServices;
using System.IO;
using System.Globalization;
using System.Diagnostics;
#if HAVE_BIG_INTEGER
using System.Numerics;
#endif
using LC.Newtonsoft.Json.Utilities;
namespace LC.Newtonsoft.Json
{
internal enum ReadType
{
Read,
ReadAsInt32,
ReadAsInt64,
ReadAsBytes,
ReadAsString,
ReadAsDecimal,
ReadAsDateTime,
#if HAVE_DATE_TIME_OFFSET
ReadAsDateTimeOffset,
#endif
ReadAsDouble,
ReadAsBoolean
}
/// <summary>
/// Represents a reader that provides fast, non-cached, forward-only access to JSON text data.
/// </summary>
public partial class JsonTextReader : JsonReader, IJsonLineInfo
{
private const char UnicodeReplacementChar = '\uFFFD';
#if HAVE_BIG_INTEGER
private const int MaximumJavascriptIntegerCharacterLength = 380;
#endif
#if DEBUG
internal int LargeBufferLength { get; set; } = int.MaxValue / 2;
#else
private const int LargeBufferLength = int.MaxValue / 2;
#endif
private readonly TextReader _reader;
private char[]? _chars;
private int _charsUsed;
private int _charPos;
private int _lineStartPos;
private int _lineNumber;
private bool _isEndOfFile;
private StringBuffer _stringBuffer;
private StringReference _stringReference;
private IArrayPool<char>? _arrayPool;
/// <summary>
/// Initializes a new instance of the <see cref="JsonTextReader"/> class with the specified <see cref="TextReader"/>.
/// </summary>
/// <param name="reader">The <see cref="TextReader"/> containing the JSON data to read.</param>
public JsonTextReader(TextReader reader)
{
if (reader == null)
{
throw new ArgumentNullException(nameof(reader));
}
_reader = reader;
_lineNumber = 1;
#if HAVE_ASYNC
_safeAsync = GetType() == typeof(JsonTextReader);
#endif
}
#if DEBUG
internal char[]? CharBuffer
{
get => _chars;
set => _chars = value;
}
internal int CharPos => _charPos;
#endif
/// <summary>
/// Gets or sets the reader's property name table.
/// </summary>
public JsonNameTable? PropertyNameTable { get; set; }
/// <summary>
/// Gets or sets the reader's character buffer pool.
/// </summary>
public IArrayPool<char>? ArrayPool
{
get => _arrayPool;
set
{
if (value == null)
{
throw new ArgumentNullException(nameof(value));
}
_arrayPool = value;
}
}
private void EnsureBufferNotEmpty()
{
if (_stringBuffer.IsEmpty)
{
_stringBuffer = new StringBuffer(_arrayPool, 1024);
}
}
private void SetNewLine(bool hasNextChar)
{
MiscellaneousUtils.Assert(_chars != null);
if (hasNextChar && _chars[_charPos] == StringUtils.LineFeed)
{
_charPos++;
}
OnNewLine(_charPos);
}
private void OnNewLine(int pos)
{
_lineNumber++;
_lineStartPos = pos;
}
private void ParseString(char quote, ReadType readType)
{
_charPos++;
ShiftBufferIfNeeded();
ReadStringIntoBuffer(quote);
ParseReadString(quote, readType);
}
private void ParseReadString(char quote, ReadType readType)
{
SetPostValueState(true);
switch (readType)
{
case ReadType.ReadAsBytes:
Guid g;
byte[] data;
if (_stringReference.Length == 0)
{
data = CollectionUtils.ArrayEmpty<byte>();
}
else if (_stringReference.Length == 36 && ConvertUtils.TryConvertGuid(_stringReference.ToString(), out g))
{
data = g.ToByteArray();
}
else
{
data = Convert.FromBase64CharArray(_stringReference.Chars, _stringReference.StartIndex, _stringReference.Length);
}
SetToken(JsonToken.Bytes, data, false);
break;
case ReadType.ReadAsString:
string text = _stringReference.ToString();
SetToken(JsonToken.String, text, false);
_quoteChar = quote;
break;
case ReadType.ReadAsInt32:
case ReadType.ReadAsDecimal:
case ReadType.ReadAsBoolean:
// caller will convert result
break;
default:
if (_dateParseHandling != DateParseHandling.None)
{
DateParseHandling dateParseHandling;
if (readType == ReadType.ReadAsDateTime)
{
dateParseHandling = DateParseHandling.DateTime;
}
#if HAVE_DATE_TIME_OFFSET
else if (readType == ReadType.ReadAsDateTimeOffset)
{
dateParseHandling = DateParseHandling.DateTimeOffset;
}
#endif
else
{
dateParseHandling = _dateParseHandling;
}
if (dateParseHandling == DateParseHandling.DateTime)
{
if (DateTimeUtils.TryParseDateTime(_stringReference, DateTimeZoneHandling, DateFormatString, Culture, out DateTime dt))
{
SetToken(JsonToken.Date, dt, false);
return;
}
}
#if HAVE_DATE_TIME_OFFSET
else
{
if (DateTimeUtils.TryParseDateTimeOffset(_stringReference, DateFormatString, Culture, out DateTimeOffset dt))
{
SetToken(JsonToken.Date, dt, false);
return;
}
}
#endif
}
SetToken(JsonToken.String, _stringReference.ToString(), false);
_quoteChar = quote;
break;
}
}
private static void BlockCopyChars(char[] src, int srcOffset, char[] dst, int dstOffset, int count)
{
const int charByteCount = 2;
Buffer.BlockCopy(src, srcOffset * charByteCount, dst, dstOffset * charByteCount, count * charByteCount);
}
private void ShiftBufferIfNeeded()
{
MiscellaneousUtils.Assert(_chars != null);
// once in the last 10% of the buffer, or buffer is already very large then
// shift the remaining content to the start to avoid unnecessarily increasing
// the buffer size when reading numbers/strings
int length = _chars.Length;
if (length - _charPos <= length * 0.1 || length >= LargeBufferLength)
{
int count = _charsUsed - _charPos;
if (count > 0)
{
BlockCopyChars(_chars, _charPos, _chars, 0, count);
}
_lineStartPos -= _charPos;
_charPos = 0;
_charsUsed = count;
_chars[_charsUsed] = '\0';
}
}
private int ReadData(bool append)
{
return ReadData(append, 0);
}
private void PrepareBufferForReadData(bool append, int charsRequired)
{
MiscellaneousUtils.Assert(_chars != null);
// char buffer is full
if (_charsUsed + charsRequired >= _chars.Length - 1)
{
if (append)
{
int doubledArrayLength = _chars.Length * 2;
// copy to new array either double the size of the current or big enough to fit required content
int newArrayLength = Math.Max(
doubledArrayLength < 0 ? int.MaxValue : doubledArrayLength, // handle overflow
_charsUsed + charsRequired + 1);
// increase the size of the buffer
char[] dst = BufferUtils.RentBuffer(_arrayPool, newArrayLength);
BlockCopyChars(_chars, 0, dst, 0, _chars.Length);
BufferUtils.ReturnBuffer(_arrayPool, _chars);
_chars = dst;
}
else
{
int remainingCharCount = _charsUsed - _charPos;
if (remainingCharCount + charsRequired + 1 >= _chars.Length)
{
// the remaining count plus the required is bigger than the current buffer size
char[] dst = BufferUtils.RentBuffer(_arrayPool, remainingCharCount + charsRequired + 1);
if (remainingCharCount > 0)
{
BlockCopyChars(_chars, _charPos, dst, 0, remainingCharCount);
}
BufferUtils.ReturnBuffer(_arrayPool, _chars);
_chars = dst;
}
else
{
// copy any remaining data to the beginning of the buffer if needed and reset positions
if (remainingCharCount > 0)
{
BlockCopyChars(_chars, _charPos, _chars, 0, remainingCharCount);
}
}
_lineStartPos -= _charPos;
_charPos = 0;
_charsUsed = remainingCharCount;
}
}
}
private int ReadData(bool append, int charsRequired)
{
if (_isEndOfFile)
{
return 0;
}
PrepareBufferForReadData(append, charsRequired);
MiscellaneousUtils.Assert(_chars != null);
int attemptCharReadCount = _chars.Length - _charsUsed - 1;
int charsRead = _reader.Read(_chars, _charsUsed, attemptCharReadCount);
_charsUsed += charsRead;
if (charsRead == 0)
{
_isEndOfFile = true;
}
_chars[_charsUsed] = '\0';
return charsRead;
}
private bool EnsureChars(int relativePosition, bool append)
{
if (_charPos + relativePosition >= _charsUsed)
{
return ReadChars(relativePosition, append);
}
return true;
}
private bool ReadChars(int relativePosition, bool append)
{
if (_isEndOfFile)
{
return false;
}
int charsRequired = _charPos + relativePosition - _charsUsed + 1;
int totalCharsRead = 0;
// it is possible that the TextReader doesn't return all data at once
// repeat read until the required text is returned or the reader is out of content
do
{
int charsRead = ReadData(append, charsRequired - totalCharsRead);
// no more content
if (charsRead == 0)
{
break;
}
totalCharsRead += charsRead;
} while (totalCharsRead < charsRequired);
if (totalCharsRead < charsRequired)
{
return false;
}
return true;
}
/// <summary>
/// Reads the next JSON token from the underlying <see cref="TextReader"/>.
/// </summary>
/// <returns>
/// <c>true</c> if the next token was read successfully; <c>false</c> if there are no more tokens to read.
/// </returns>
public override bool Read()
{
EnsureBuffer();
MiscellaneousUtils.Assert(_chars != null);
while (true)
{
switch (_currentState)
{
case State.Start:
case State.Property:
case State.Array:
case State.ArrayStart:
case State.Constructor:
case State.ConstructorStart:
return ParseValue();
case State.Object:
case State.ObjectStart:
return ParseObject();
case State.PostValue:
// returns true if it hits
// end of object or array
if (ParsePostValue(false))
{
return true;
}
break;
case State.Finished:
if (EnsureChars(0, false))
{
EatWhitespace();
if (_isEndOfFile)
{
SetToken(JsonToken.None);
return false;
}
if (_chars[_charPos] == '/')
{
ParseComment(true);
return true;
}
throw JsonReaderException.Create(this, "Additional text encountered after finished reading JSON content: {0}.".FormatWith(CultureInfo.InvariantCulture, _chars[_charPos]));
}
SetToken(JsonToken.None);
return false;
default:
throw JsonReaderException.Create(this, "Unexpected state: {0}.".FormatWith(CultureInfo.InvariantCulture, CurrentState));
}
}
}
/// <summary>
/// Reads the next JSON token from the underlying <see cref="TextReader"/> as a <see cref="Nullable{T}"/> of <see cref="Int32"/>.
/// </summary>
/// <returns>A <see cref="Nullable{T}"/> of <see cref="Int32"/>. This method will return <c>null</c> at the end of an array.</returns>
public override int? ReadAsInt32()
{
return (int?)ReadNumberValue(ReadType.ReadAsInt32);
}
/// <summary>
/// Reads the next JSON token from the underlying <see cref="TextReader"/> as a <see cref="Nullable{T}"/> of <see cref="DateTime"/>.
/// </summary>
/// <returns>A <see cref="Nullable{T}"/> of <see cref="DateTime"/>. This method will return <c>null</c> at the end of an array.</returns>
public override DateTime? ReadAsDateTime()
{
return (DateTime?)ReadStringValue(ReadType.ReadAsDateTime);
}
/// <summary>
/// Reads the next JSON token from the underlying <see cref="TextReader"/> as a <see cref="String"/>.
/// </summary>
/// <returns>A <see cref="String"/>. This method will return <c>null</c> at the end of an array.</returns>
public override string? ReadAsString()
{
return (string?)ReadStringValue(ReadType.ReadAsString);
}
/// <summary>
/// Reads the next JSON token from the underlying <see cref="TextReader"/> as a <see cref="Byte"/>[].
/// </summary>
/// <returns>A <see cref="Byte"/>[] or <c>null</c> if the next JSON token is null. This method will return <c>null</c> at the end of an array.</returns>
public override byte[]? ReadAsBytes()
{
EnsureBuffer();
MiscellaneousUtils.Assert(_chars != null);
bool isWrapped = false;
switch (_currentState)
{
case State.PostValue:
if (ParsePostValue(true))
{
return null;
}
goto case State.Start;
case State.Start:
case State.Property:
case State.Array:
case State.ArrayStart:
case State.Constructor:
case State.ConstructorStart:
while (true)
{
char currentChar = _chars[_charPos];
switch (currentChar)
{
case '\0':
if (ReadNullChar())
{
SetToken(JsonToken.None, null, false);
return null;
}
break;
case '"':
case '\'':
ParseString(currentChar, ReadType.ReadAsBytes);
byte[]? data = (byte[]?)Value;
if (isWrapped)
{
ReaderReadAndAssert();
if (TokenType != JsonToken.EndObject)
{
throw JsonReaderException.Create(this, "Error reading bytes. Unexpected token: {0}.".FormatWith(CultureInfo.InvariantCulture, TokenType));
}
SetToken(JsonToken.Bytes, data, false);
}
return data;
case '{':
_charPos++;
SetToken(JsonToken.StartObject);
ReadIntoWrappedTypeObject();
isWrapped = true;
break;
case '[':
_charPos++;
SetToken(JsonToken.StartArray);
return ReadArrayIntoByteArray();
case 'n':
HandleNull();
return null;
case '/':
ParseComment(false);
break;
case ',':
ProcessValueComma();
break;
case ']':
_charPos++;
if (_currentState == State.Array || _currentState == State.ArrayStart || _currentState == State.PostValue)
{
SetToken(JsonToken.EndArray);
return null;
}
throw CreateUnexpectedCharacterException(currentChar);
case StringUtils.CarriageReturn:
ProcessCarriageReturn(false);
break;
case StringUtils.LineFeed:
ProcessLineFeed();
break;
case ' ':
case StringUtils.Tab:
// eat
_charPos++;
break;
default:
_charPos++;
if (!char.IsWhiteSpace(currentChar))
{
throw CreateUnexpectedCharacterException(currentChar);
}
// eat
break;
}
}
case State.Finished:
ReadFinished();
return null;
default:
throw JsonReaderException.Create(this, "Unexpected state: {0}.".FormatWith(CultureInfo.InvariantCulture, CurrentState));
}
}
private object? ReadStringValue(ReadType readType)
{
EnsureBuffer();
MiscellaneousUtils.Assert(_chars != null);
switch (_currentState)
{
case State.PostValue:
if (ParsePostValue(true))
{
return null;
}
goto case State.Start;
case State.Start:
case State.Property:
case State.Array:
case State.ArrayStart:
case State.Constructor:
case State.ConstructorStart:
while (true)
{
char currentChar = _chars[_charPos];
switch (currentChar)
{
case '\0':
if (ReadNullChar())
{
SetToken(JsonToken.None, null, false);
return null;
}
break;
case '"':
case '\'':
ParseString(currentChar, readType);
return FinishReadQuotedStringValue(readType);
case '-':
if (EnsureChars(1, true) && _chars[_charPos + 1] == 'I')
{
return ParseNumberNegativeInfinity(readType);
}
else
{
ParseNumber(readType);
return Value;
}
case '.':
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
if (readType != ReadType.ReadAsString)
{
_charPos++;
throw CreateUnexpectedCharacterException(currentChar);
}
ParseNumber(ReadType.ReadAsString);
return Value;
case 't':
case 'f':
if (readType != ReadType.ReadAsString)
{
_charPos++;
throw CreateUnexpectedCharacterException(currentChar);
}
string expected = currentChar == 't' ? JsonConvert.True : JsonConvert.False;
if (!MatchValueWithTrailingSeparator(expected))
{
throw CreateUnexpectedCharacterException(_chars[_charPos]);
}
SetToken(JsonToken.String, expected);
return expected;
case 'I':
return ParseNumberPositiveInfinity(readType);
case 'N':
return ParseNumberNaN(readType);
case 'n':
HandleNull();
return null;
case '/':
ParseComment(false);
break;
case ',':
ProcessValueComma();
break;
case ']':
_charPos++;
if (_currentState == State.Array || _currentState == State.ArrayStart || _currentState == State.PostValue)
{
SetToken(JsonToken.EndArray);
return null;
}
throw CreateUnexpectedCharacterException(currentChar);
case StringUtils.CarriageReturn:
ProcessCarriageReturn(false);
break;
case StringUtils.LineFeed:
ProcessLineFeed();
break;
case ' ':
case StringUtils.Tab:
// eat
_charPos++;
break;
default:
_charPos++;
if (!char.IsWhiteSpace(currentChar))
{
throw CreateUnexpectedCharacterException(currentChar);
}
// eat
break;
}
}
case State.Finished:
ReadFinished();
return null;
default:
throw JsonReaderException.Create(this, "Unexpected state: {0}.".FormatWith(CultureInfo.InvariantCulture, CurrentState));
}
}
private object? FinishReadQuotedStringValue(ReadType readType)
{
switch (readType)
{
case ReadType.ReadAsBytes:
case ReadType.ReadAsString:
return Value;
case ReadType.ReadAsDateTime:
if (Value is DateTime time)
{
return time;
}
return ReadDateTimeString((string?)Value);
#if HAVE_DATE_TIME_OFFSET
case ReadType.ReadAsDateTimeOffset:
if (Value is DateTimeOffset offset)
{
return offset;
}
return ReadDateTimeOffsetString((string?)Value);
#endif
default:
throw new ArgumentOutOfRangeException(nameof(readType));
}
}
private JsonReaderException CreateUnexpectedCharacterException(char c)
{
return JsonReaderException.Create(this, "Unexpected character encountered while parsing value: {0}.".FormatWith(CultureInfo.InvariantCulture, c));
}
/// <summary>
/// Reads the next JSON token from the underlying <see cref="TextReader"/> as a <see cref="Nullable{T}"/> of <see cref="Boolean"/>.
/// </summary>
/// <returns>A <see cref="Nullable{T}"/> of <see cref="Boolean"/>. This method will return <c>null</c> at the end of an array.</returns>
public override bool? ReadAsBoolean()
{
EnsureBuffer();
MiscellaneousUtils.Assert(_chars != null);
switch (_currentState)
{
case State.PostValue:
if (ParsePostValue(true))
{
return null;
}
goto case State.Start;
case State.Start:
case State.Property:
case State.Array:
case State.ArrayStart:
case State.Constructor:
case State.ConstructorStart:
while (true)
{
char currentChar = _chars[_charPos];
switch (currentChar)
{
case '\0':
if (ReadNullChar())
{
SetToken(JsonToken.None, null, false);
return null;
}
break;
case '"':
case '\'':
ParseString(currentChar, ReadType.Read);
return ReadBooleanString(_stringReference.ToString());
case 'n':
HandleNull();
return null;
case '-':
case '.':
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
ParseNumber(ReadType.Read);
bool b;
#if HAVE_BIG_INTEGER
if (Value is BigInteger integer)
{
b = integer != 0;
}
else
#endif
{
b = Convert.ToBoolean(Value, CultureInfo.InvariantCulture);
}
SetToken(JsonToken.Boolean, b, false);
return b;
case 't':
case 'f':
bool isTrue = currentChar == 't';
string expected = isTrue ? JsonConvert.True : JsonConvert.False;
if (!MatchValueWithTrailingSeparator(expected))
{
throw CreateUnexpectedCharacterException(_chars[_charPos]);
}
SetToken(JsonToken.Boolean, isTrue);
return isTrue;
case '/':
ParseComment(false);
break;
case ',':
ProcessValueComma();
break;
case ']':
_charPos++;
if (_currentState == State.Array || _currentState == State.ArrayStart || _currentState == State.PostValue)
{
SetToken(JsonToken.EndArray);
return null;
}
throw CreateUnexpectedCharacterException(currentChar);
case StringUtils.CarriageReturn:
ProcessCarriageReturn(false);
break;
case StringUtils.LineFeed:
ProcessLineFeed();
break;
case ' ':
case StringUtils.Tab:
// eat
_charPos++;
break;
default:
_charPos++;
if (!char.IsWhiteSpace(currentChar))
{
throw CreateUnexpectedCharacterException(currentChar);
}
// eat
break;
}
}
case State.Finished:
ReadFinished();
return null;
default:
throw JsonReaderException.Create(this, "Unexpected state: {0}.".FormatWith(CultureInfo.InvariantCulture, CurrentState));
}
}
private void ProcessValueComma()
{
_charPos++;
if (_currentState != State.PostValue)
{
SetToken(JsonToken.Undefined);
JsonReaderException ex = CreateUnexpectedCharacterException(',');
// so the comma will be parsed again
_charPos--;
throw ex;
}
SetStateBasedOnCurrent();
}
private object? ReadNumberValue(ReadType readType)
{
EnsureBuffer();
MiscellaneousUtils.Assert(_chars != null);
switch (_currentState)
{
case State.PostValue:
if (ParsePostValue(true))
{
return null;
}
goto case State.Start;
case State.Start:
case State.Property:
case State.Array:
case State.ArrayStart:
case State.Constructor:
case State.ConstructorStart:
while (true)
{
char currentChar = _chars[_charPos];
switch (currentChar)
{
case '\0':
if (ReadNullChar())
{
SetToken(JsonToken.None, null, false);
return null;
}
break;
case '"':
case '\'':
ParseString(currentChar, readType);
return FinishReadQuotedNumber(readType);
case 'n':
HandleNull();
return null;
case 'N':
return ParseNumberNaN(readType);
case 'I':
return ParseNumberPositiveInfinity(readType);
case '-':
if (EnsureChars(1, true) && _chars[_charPos + 1] == 'I')
{
return ParseNumberNegativeInfinity(readType);
}
else
{
ParseNumber(readType);
return Value;
}
case '.':
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
ParseNumber(readType);
return Value;
case '/':
ParseComment(false);
break;
case ',':
ProcessValueComma();
break;
case ']':
_charPos++;
if (_currentState == State.Array || _currentState == State.ArrayStart || _currentState == State.PostValue)
{
SetToken(JsonToken.EndArray);
return null;
}
throw CreateUnexpectedCharacterException(currentChar);
case StringUtils.CarriageReturn:
ProcessCarriageReturn(false);
break;
case StringUtils.LineFeed:
ProcessLineFeed();
break;
case ' ':
case StringUtils.Tab:
// eat
_charPos++;
break;
default:
_charPos++;
if (!char.IsWhiteSpace(currentChar))
{
throw CreateUnexpectedCharacterException(currentChar);
}
// eat
break;
}
}
case State.Finished:
ReadFinished();
return null;
default:
throw JsonReaderException.Create(this, "Unexpected state: {0}.".FormatWith(CultureInfo.InvariantCulture, CurrentState));
}
}
private object? FinishReadQuotedNumber(ReadType readType)
{
switch (readType)
{
case ReadType.ReadAsInt32:
return ReadInt32String(_stringReference.ToString());
case ReadType.ReadAsDecimal:
return ReadDecimalString(_stringReference.ToString());
case ReadType.ReadAsDouble:
return ReadDoubleString(_stringReference.ToString());
default:
throw new ArgumentOutOfRangeException(nameof(readType));
}
}
#if HAVE_DATE_TIME_OFFSET
/// <summary>
/// Reads the next JSON token from the underlying <see cref="TextReader"/> as a <see cref="Nullable{T}"/> of <see cref="DateTimeOffset"/>.
/// </summary>
/// <returns>A <see cref="Nullable{T}"/> of <see cref="DateTimeOffset"/>. This method will return <c>null</c> at the end of an array.</returns>
public override DateTimeOffset? ReadAsDateTimeOffset()
{
return (DateTimeOffset?)ReadStringValue(ReadType.ReadAsDateTimeOffset);
}
#endif
/// <summary>
/// Reads the next JSON token from the underlying <see cref="TextReader"/> as a <see cref="Nullable{T}"/> of <see cref="Decimal"/>.
/// </summary>
/// <returns>A <see cref="Nullable{T}"/> of <see cref="Decimal"/>. This method will return <c>null</c> at the end of an array.</returns>
public override decimal? ReadAsDecimal()
{
return (decimal?)ReadNumberValue(ReadType.ReadAsDecimal);
}
/// <summary>
/// Reads the next JSON token from the underlying <see cref="TextReader"/> as a <see cref="Nullable{T}"/> of <see cref="Double"/>.
/// </summary>
/// <returns>A <see cref="Nullable{T}"/> of <see cref="Double"/>. This method will return <c>null</c> at the end of an array.</returns>
public override double? ReadAsDouble()
{
return (double?)ReadNumberValue(ReadType.ReadAsDouble);
}
private void HandleNull()
{
MiscellaneousUtils.Assert(_chars != null);
if (EnsureChars(1, true))
{
char next = _chars[_charPos + 1];
if (next == 'u')
{
ParseNull();
return;
}
_charPos += 2;
throw CreateUnexpectedCharacterException(_chars[_charPos - 1]);
}
_charPos = _charsUsed;
throw CreateUnexpectedEndException();
}
private void ReadFinished()
{
MiscellaneousUtils.Assert(_chars != null);
if (EnsureChars(0, false))
{
EatWhitespace();
if (_isEndOfFile)
{
return;
}
if (_chars[_charPos] == '/')
{
ParseComment(false);
}
else
{
throw JsonReaderException.Create(this, "Additional text encountered after finished reading JSON content: {0}.".FormatWith(CultureInfo.InvariantCulture, _chars[_charPos]));
}
}
SetToken(JsonToken.None);
}
private bool ReadNullChar()
{
if (_charsUsed == _charPos)
{
if (ReadData(false) == 0)
{
_isEndOfFile = true;
return true;
}
}
else
{
_charPos++;
}
return false;
}
private void EnsureBuffer()
{
if (_chars == null)
{
_chars = BufferUtils.RentBuffer(_arrayPool, 1024);
_chars[0] = '\0';
}
}
private void ReadStringIntoBuffer(char quote)
{
MiscellaneousUtils.Assert(_chars != null);
int charPos = _charPos;
int initialPosition = _charPos;
int lastWritePosition = _charPos;
_stringBuffer.Position = 0;
while (true)
{
switch (_chars[charPos++])
{
case '\0':
if (_charsUsed == charPos - 1)
{
charPos--;
if (ReadData(true) == 0)
{
_charPos = charPos;
throw JsonReaderException.Create(this, "Unterminated string. Expected delimiter: {0}.".FormatWith(CultureInfo.InvariantCulture, quote));
}
}
break;
case '\\':
_charPos = charPos;
if (!EnsureChars(0, true))
{
throw JsonReaderException.Create(this, "Unterminated string. Expected delimiter: {0}.".FormatWith(CultureInfo.InvariantCulture, quote));
}
// start of escape sequence
int escapeStartPos = charPos - 1;
char currentChar = _chars[charPos];
charPos++;
char writeChar;
switch (currentChar)
{
case 'b':
writeChar = '\b';
break;
case 't':
writeChar = '\t';
break;
case 'n':
writeChar = '\n';
break;
case 'f':
writeChar = '\f';
break;
case 'r':
writeChar = '\r';
break;
case '\\':
writeChar = '\\';
break;
case '"':
case '\'':
case '/':
writeChar = currentChar;
break;
case 'u':
_charPos = charPos;
writeChar = ParseUnicode();
if (StringUtils.IsLowSurrogate(writeChar))
{
// low surrogate with no preceding high surrogate; this char is replaced
writeChar = UnicodeReplacementChar;
}
else if (StringUtils.IsHighSurrogate(writeChar))
{
bool anotherHighSurrogate;
// loop for handling situations where there are multiple consecutive high surrogates
do
{
anotherHighSurrogate = false;
// potential start of a surrogate pair
if (EnsureChars(2, true) && _chars[_charPos] == '\\' && _chars[_charPos + 1] == 'u')
{
char highSurrogate = writeChar;
_charPos += 2;
writeChar = ParseUnicode();
if (StringUtils.IsLowSurrogate(writeChar))
{
// a valid surrogate pair!
}
else if (StringUtils.IsHighSurrogate(writeChar))
{
// another high surrogate; replace current and start check over
highSurrogate = UnicodeReplacementChar;
anotherHighSurrogate = true;
}
else
{
// high surrogate not followed by low surrogate; original char is replaced
highSurrogate = UnicodeReplacementChar;
}
EnsureBufferNotEmpty();
WriteCharToBuffer(highSurrogate, lastWritePosition, escapeStartPos);
lastWritePosition = _charPos;
}
else
{
// there are not enough remaining chars for the low surrogate or is not follow by unicode sequence
// replace high surrogate and continue on as usual
writeChar = UnicodeReplacementChar;
}
} while (anotherHighSurrogate);
}
charPos = _charPos;
break;
default:
_charPos = charPos;
throw JsonReaderException.Create(this, "Bad JSON escape sequence: {0}.".FormatWith(CultureInfo.InvariantCulture, @"\" + currentChar));
}
EnsureBufferNotEmpty();
WriteCharToBuffer(writeChar, lastWritePosition, escapeStartPos);
lastWritePosition = charPos;
break;
case StringUtils.CarriageReturn:
_charPos = charPos - 1;
ProcessCarriageReturn(true);
charPos = _charPos;
break;
case StringUtils.LineFeed:
_charPos = charPos - 1;
ProcessLineFeed();
charPos = _charPos;
break;
case '"':
case '\'':
if (_chars[charPos - 1] == quote)
{
FinishReadStringIntoBuffer(charPos - 1, initialPosition, lastWritePosition);
return;
}
break;
}
}
}
private void FinishReadStringIntoBuffer(int charPos, int initialPosition, int lastWritePosition)
{
MiscellaneousUtils.Assert(_chars != null);
if (initialPosition == lastWritePosition)
{
_stringReference = new StringReference(_chars, initialPosition, charPos - initialPosition);
}
else
{
EnsureBufferNotEmpty();
if (charPos > lastWritePosition)
{
_stringBuffer.Append(_arrayPool, _chars, lastWritePosition, charPos - lastWritePosition);
}
_stringReference = new StringReference(_stringBuffer.InternalBuffer!, 0, _stringBuffer.Position);
}
_charPos = charPos + 1;
}
private void WriteCharToBuffer(char writeChar, int lastWritePosition, int writeToPosition)
{
MiscellaneousUtils.Assert(_chars != null);
if (writeToPosition > lastWritePosition)
{
_stringBuffer.Append(_arrayPool, _chars, lastWritePosition, writeToPosition - lastWritePosition);
}
_stringBuffer.Append(_arrayPool, writeChar);
}
private char ConvertUnicode(bool enoughChars)
{
MiscellaneousUtils.Assert(_chars != null);
if (enoughChars)
{
if (ConvertUtils.TryHexTextToInt(_chars, _charPos, _charPos + 4, out int value))
{
char hexChar = Convert.ToChar(value);
_charPos += 4;
return hexChar;
}
else
{
throw JsonReaderException.Create(this, @"Invalid Unicode escape sequence: \u{0}.".FormatWith(CultureInfo.InvariantCulture, new string(_chars, _charPos, 4)));
}
}
else
{
throw JsonReaderException.Create(this, "Unexpected end while parsing Unicode escape sequence.");
}
}
private char ParseUnicode()
{
return ConvertUnicode(EnsureChars(4, true));
}
private void ReadNumberIntoBuffer()
{
MiscellaneousUtils.Assert(_chars != null);
int charPos = _charPos;
while (true)
{
char currentChar = _chars[charPos];
if (currentChar == '\0')
{
_charPos = charPos;
if (_charsUsed == charPos)
{
if (ReadData(true) == 0)
{
return;
}
}
else
{
return;
}
}
else if (ReadNumberCharIntoBuffer(currentChar, charPos))
{
return;
}
else
{
charPos++;
}
}
}
private bool ReadNumberCharIntoBuffer(char currentChar, int charPos)
{
switch (currentChar)
{
case '-':
case '+':
case 'a':
case 'A':
case 'b':
case 'B':
case 'c':
case 'C':
case 'd':
case 'D':
case 'e':
case 'E':
case 'f':
case 'F':
case 'x':
case 'X':
case '.':
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
return false;
default:
_charPos = charPos;
if (char.IsWhiteSpace(currentChar) || currentChar == ',' || currentChar == '}' || currentChar == ']' || currentChar == ')' || currentChar == '/')
{
return true;
}
throw JsonReaderException.Create(this, "Unexpected character encountered while parsing number: {0}.".FormatWith(CultureInfo.InvariantCulture, currentChar));
}
}
private void ClearRecentString()
{
_stringBuffer.Position = 0;
_stringReference = new StringReference();
}
private bool ParsePostValue(bool ignoreComments)
{
MiscellaneousUtils.Assert(_chars != null);
while (true)
{
char currentChar = _chars[_charPos];
switch (currentChar)
{
case '\0':
if (_charsUsed == _charPos)
{
if (ReadData(false) == 0)
{
_currentState = State.Finished;
return false;
}
}
else
{
_charPos++;
}
break;
case '}':
_charPos++;
SetToken(JsonToken.EndObject);
return true;
case ']':
_charPos++;
SetToken(JsonToken.EndArray);
return true;
case ')':
_charPos++;
SetToken(JsonToken.EndConstructor);
return true;
case '/':
ParseComment(!ignoreComments);
if (!ignoreComments)
{
return true;
}
break;
case ',':
_charPos++;
// finished parsing
SetStateBasedOnCurrent();
return false;
case ' ':
case StringUtils.Tab:
// eat
_charPos++;
break;
case StringUtils.CarriageReturn:
ProcessCarriageReturn(false);
break;
case StringUtils.LineFeed:
ProcessLineFeed();
break;
default:
if (char.IsWhiteSpace(currentChar))
{
// eat
_charPos++;
}
else
{
// handle multiple content without comma delimiter
if (SupportMultipleContent && Depth == 0)
{
SetStateBasedOnCurrent();
return false;
}
throw JsonReaderException.Create(this, "After parsing a value an unexpected character was encountered: {0}.".FormatWith(CultureInfo.InvariantCulture, currentChar));
}
break;
}
}
}
private bool ParseObject()
{
MiscellaneousUtils.Assert(_chars != null);
while (true)
{
char currentChar = _chars[_charPos];
switch (currentChar)
{
case '\0':
if (_charsUsed == _charPos)
{
if (ReadData(false) == 0)
{
return false;
}
}
else
{
_charPos++;
}
break;
case '}':
SetToken(JsonToken.EndObject);
_charPos++;
return true;
case '/':
ParseComment(true);
return true;
case StringUtils.CarriageReturn:
ProcessCarriageReturn(false);
break;
case StringUtils.LineFeed:
ProcessLineFeed();
break;
case ' ':
case StringUtils.Tab:
// eat
_charPos++;
break;
default:
if (char.IsWhiteSpace(currentChar))
{
// eat
_charPos++;
}
else
{
return ParseProperty();
}
break;
}
}
}
private bool ParseProperty()
{
MiscellaneousUtils.Assert(_chars != null);
char firstChar = _chars[_charPos];
char quoteChar;
if (firstChar == '"' || firstChar == '\'')
{
_charPos++;
quoteChar = firstChar;
ShiftBufferIfNeeded();
ReadStringIntoBuffer(quoteChar);
}
else if (ValidIdentifierChar(firstChar))
{
quoteChar = '\0';
ShiftBufferIfNeeded();
ParseUnquotedProperty();
}
else
{
throw JsonReaderException.Create(this, "Invalid property identifier character: {0}.".FormatWith(CultureInfo.InvariantCulture, _chars[_charPos]));
}
string? propertyName;
if (PropertyNameTable != null)
{
propertyName = PropertyNameTable.Get(_stringReference.Chars, _stringReference.StartIndex, _stringReference.Length);
// no match in name table
if (propertyName == null)
{
propertyName = _stringReference.ToString();
}
}
else
{
propertyName = _stringReference.ToString();
}
EatWhitespace();
if (_chars[_charPos] != ':')
{
throw JsonReaderException.Create(this, "Invalid character after parsing property name. Expected ':' but got: {0}.".FormatWith(CultureInfo.InvariantCulture, _chars[_charPos]));
}
_charPos++;
SetToken(JsonToken.PropertyName, propertyName);
_quoteChar = quoteChar;
ClearRecentString();
return true;
}
private bool ValidIdentifierChar(char value)
{
return (char.IsLetterOrDigit(value) || value == '_' || value == '$');
}
private void ParseUnquotedProperty()
{
MiscellaneousUtils.Assert(_chars != null);
int initialPosition = _charPos;
// parse unquoted property name until whitespace or colon
while (true)
{
char currentChar = _chars[_charPos];
if (currentChar == '\0')
{
if (_charsUsed == _charPos)
{
if (ReadData(true) == 0)
{
throw JsonReaderException.Create(this, "Unexpected end while parsing unquoted property name.");
}
continue;
}
_stringReference = new StringReference(_chars, initialPosition, _charPos - initialPosition);
return;
}
if (ReadUnquotedPropertyReportIfDone(currentChar, initialPosition))
{
return;
}
}
}
private bool ReadUnquotedPropertyReportIfDone(char currentChar, int initialPosition)
{
MiscellaneousUtils.Assert(_chars != null);
if (ValidIdentifierChar(currentChar))
{
_charPos++;
return false;
}
if (char.IsWhiteSpace(currentChar) || currentChar == ':')
{
_stringReference = new StringReference(_chars, initialPosition, _charPos - initialPosition);
return true;
}
throw JsonReaderException.Create(this, "Invalid JavaScript property identifier character: {0}.".FormatWith(CultureInfo.InvariantCulture, currentChar));
}
private bool ParseValue()
{
MiscellaneousUtils.Assert(_chars != null);
while (true)
{
char currentChar = _chars[_charPos];
switch (currentChar)
{
case '\0':
if (_charsUsed == _charPos)
{
if (ReadData(false) == 0)
{
return false;
}
}
else
{
_charPos++;
}
break;
case '"':
case '\'':
ParseString(currentChar, ReadType.Read);
return true;
case 't':
ParseTrue();
return true;
case 'f':
ParseFalse();
return true;
case 'n':
if (EnsureChars(1, true))
{
char next = _chars[_charPos + 1];
if (next == 'u')
{
ParseNull();
}
else if (next == 'e')
{
ParseConstructor();
}
else
{
throw CreateUnexpectedCharacterException(_chars[_charPos]);
}
}
else
{
_charPos++;
throw CreateUnexpectedEndException();
}
return true;
case 'N':
ParseNumberNaN(ReadType.Read);
return true;
case 'I':
ParseNumberPositiveInfinity(ReadType.Read);
return true;
case '-':
if (EnsureChars(1, true) && _chars[_charPos + 1] == 'I')
{
ParseNumberNegativeInfinity(ReadType.Read);
}
else
{
ParseNumber(ReadType.Read);
}
return true;
case '/':
ParseComment(true);
return true;
case 'u':
ParseUndefined();
return true;
case '{':
_charPos++;
SetToken(JsonToken.StartObject);
return true;
case '[':
_charPos++;
SetToken(JsonToken.StartArray);
return true;
case ']':
_charPos++;
SetToken(JsonToken.EndArray);
return true;
case ',':
// don't increment position, the next call to read will handle comma
// this is done to handle multiple empty comma values
SetToken(JsonToken.Undefined);
return true;
case ')':
_charPos++;
SetToken(JsonToken.EndConstructor);
return true;
case StringUtils.CarriageReturn:
ProcessCarriageReturn(false);
break;
case StringUtils.LineFeed:
ProcessLineFeed();
break;
case ' ':
case StringUtils.Tab:
// eat
_charPos++;
break;
default:
if (char.IsWhiteSpace(currentChar))
{
// eat
_charPos++;
break;
}
if (char.IsNumber(currentChar) || currentChar == '-' || currentChar == '.')
{
ParseNumber(ReadType.Read);
return true;
}
throw CreateUnexpectedCharacterException(currentChar);
}
}
}
private void ProcessLineFeed()
{
_charPos++;
OnNewLine(_charPos);
}
private void ProcessCarriageReturn(bool append)
{
_charPos++;
SetNewLine(EnsureChars(1, append));
}
private void EatWhitespace()
{
MiscellaneousUtils.Assert(_chars != null);
while (true)
{
char currentChar = _chars[_charPos];
switch (currentChar)
{
case '\0':
if (_charsUsed == _charPos)
{
if (ReadData(false) == 0)
{
return;
}
}
else
{
_charPos++;
}
break;
case StringUtils.CarriageReturn:
ProcessCarriageReturn(false);
break;
case StringUtils.LineFeed:
ProcessLineFeed();
break;
default:
if (currentChar == ' ' || char.IsWhiteSpace(currentChar))
{
_charPos++;
}
else
{
return;
}
break;
}
}
}
private void ParseConstructor()
{
MiscellaneousUtils.Assert(_chars != null);
if (MatchValueWithTrailingSeparator("new"))
{
EatWhitespace();
int initialPosition = _charPos;
int endPosition;
while (true)
{
char currentChar = _chars[_charPos];
if (currentChar == '\0')
{
if (_charsUsed == _charPos)
{
if (ReadData(true) == 0)
{
throw JsonReaderException.Create(this, "Unexpected end while parsing constructor.");
}
}
else
{
endPosition = _charPos;
_charPos++;
break;
}
}
else if (char.IsLetterOrDigit(currentChar))
{
_charPos++;
}
else if (currentChar == StringUtils.CarriageReturn)
{
endPosition = _charPos;
ProcessCarriageReturn(true);
break;
}
else if (currentChar == StringUtils.LineFeed)
{
endPosition = _charPos;
ProcessLineFeed();
break;
}
else if (char.IsWhiteSpace(currentChar))
{
endPosition = _charPos;
_charPos++;
break;
}
else if (currentChar == '(')
{
endPosition = _charPos;
break;
}
else
{
throw JsonReaderException.Create(this, "Unexpected character while parsing constructor: {0}.".FormatWith(CultureInfo.InvariantCulture, currentChar));
}
}
_stringReference = new StringReference(_chars, initialPosition, endPosition - initialPosition);
string constructorName = _stringReference.ToString();
EatWhitespace();
if (_chars[_charPos] != '(')
{
throw JsonReaderException.Create(this, "Unexpected character while parsing constructor: {0}.".FormatWith(CultureInfo.InvariantCulture, _chars[_charPos]));
}
_charPos++;
ClearRecentString();
SetToken(JsonToken.StartConstructor, constructorName);
}
else
{
throw JsonReaderException.Create(this, "Unexpected content while parsing JSON.");
}
}
private void ParseNumber(ReadType readType)
{
ShiftBufferIfNeeded();
MiscellaneousUtils.Assert(_chars != null);
char firstChar = _chars[_charPos];
int initialPosition = _charPos;
ReadNumberIntoBuffer();
ParseReadNumber(readType, firstChar, initialPosition);
}
private void ParseReadNumber(ReadType readType, char firstChar, int initialPosition)
{
MiscellaneousUtils.Assert(_chars != null);
// set state to PostValue now so that if there is an error parsing the number then the reader can continue
SetPostValueState(true);
_stringReference = new StringReference(_chars, initialPosition, _charPos - initialPosition);
object numberValue;
JsonToken numberType;
bool singleDigit = (char.IsDigit(firstChar) && _stringReference.Length == 1);
bool nonBase10 = (firstChar == '0' && _stringReference.Length > 1 && _stringReference.Chars[_stringReference.StartIndex + 1] != '.' && _stringReference.Chars[_stringReference.StartIndex + 1] != 'e' && _stringReference.Chars[_stringReference.StartIndex + 1] != 'E');
switch (readType)
{
case ReadType.ReadAsString:
{
string number = _stringReference.ToString();
// validate that the string is a valid number
if (nonBase10)
{
try
{
if (number.StartsWith("0x", StringComparison.OrdinalIgnoreCase))
{
Convert.ToInt64(number, 16);
}
else
{
Convert.ToInt64(number, 8);
}
}
catch (Exception ex)
{
throw ThrowReaderError("Input string '{0}' is not a valid number.".FormatWith(CultureInfo.InvariantCulture, number), ex);
}
}
else
{
if (!double.TryParse(number, NumberStyles.Float, CultureInfo.InvariantCulture, out _))
{
throw ThrowReaderError("Input string '{0}' is not a valid number.".FormatWith(CultureInfo.InvariantCulture, _stringReference.ToString()));
}
}
numberType = JsonToken.String;
numberValue = number;
}
break;
case ReadType.ReadAsInt32:
{
if (singleDigit)
{
// digit char values start at 48
numberValue = firstChar - 48;
}
else if (nonBase10)
{
string number = _stringReference.ToString();
try
{
int integer = number.StartsWith("0x", StringComparison.OrdinalIgnoreCase) ? Convert.ToInt32(number, 16) : Convert.ToInt32(number, 8);
numberValue = integer;
}
catch (Exception ex)
{
throw ThrowReaderError("Input string '{0}' is not a valid integer.".FormatWith(CultureInfo.InvariantCulture, number), ex);
}
}
else
{
ParseResult parseResult = ConvertUtils.Int32TryParse(_stringReference.Chars, _stringReference.StartIndex, _stringReference.Length, out int value);
if (parseResult == ParseResult.Success)
{
numberValue = value;
}
else if (parseResult == ParseResult.Overflow)
{
throw ThrowReaderError("JSON integer {0} is too large or small for an Int32.".FormatWith(CultureInfo.InvariantCulture, _stringReference.ToString()));
}
else
{
throw ThrowReaderError("Input string '{0}' is not a valid integer.".FormatWith(CultureInfo.InvariantCulture, _stringReference.ToString()));
}
}
numberType = JsonToken.Integer;
}
break;
case ReadType.ReadAsDecimal:
{
if (singleDigit)
{
// digit char values start at 48
numberValue = (decimal)firstChar - 48;
}
else if (nonBase10)
{
string number = _stringReference.ToString();
try
{
// decimal.Parse doesn't support parsing hexadecimal values
long integer = number.StartsWith("0x", StringComparison.OrdinalIgnoreCase) ? Convert.ToInt64(number, 16) : Convert.ToInt64(number, 8);
numberValue = Convert.ToDecimal(integer);
}
catch (Exception ex)
{
throw ThrowReaderError("Input string '{0}' is not a valid decimal.".FormatWith(CultureInfo.InvariantCulture, number), ex);
}
}
else
{
ParseResult parseResult = ConvertUtils.DecimalTryParse(_stringReference.Chars, _stringReference.StartIndex, _stringReference.Length, out decimal value);
if (parseResult == ParseResult.Success)
{
numberValue = value;
}
else
{
throw ThrowReaderError("Input string '{0}' is not a valid decimal.".FormatWith(CultureInfo.InvariantCulture, _stringReference.ToString()));
}
}
numberType = JsonToken.Float;
}
break;
case ReadType.ReadAsDouble:
{
if (singleDigit)
{
// digit char values start at 48
numberValue = (double)firstChar - 48;
}
else if (nonBase10)
{
string number = _stringReference.ToString();
try
{
// double.Parse doesn't support parsing hexadecimal values
long integer = number.StartsWith("0x", StringComparison.OrdinalIgnoreCase) ? Convert.ToInt64(number, 16) : Convert.ToInt64(number, 8);
numberValue = Convert.ToDouble(integer);
}
catch (Exception ex)
{
throw ThrowReaderError("Input string '{0}' is not a valid double.".FormatWith(CultureInfo.InvariantCulture, number), ex);
}
}
else
{
string number = _stringReference.ToString();
if (double.TryParse(number, NumberStyles.Float, CultureInfo.InvariantCulture, out double value))
{
numberValue = value;
}
else
{
throw ThrowReaderError("Input string '{0}' is not a valid double.".FormatWith(CultureInfo.InvariantCulture, _stringReference.ToString()));
}
}
numberType = JsonToken.Float;
}
break;
case ReadType.Read:
case ReadType.ReadAsInt64:
{
if (singleDigit)
{
// digit char values start at 48
numberValue = (long)firstChar - 48;
numberType = JsonToken.Integer;
}
else if (nonBase10)
{
string number = _stringReference.ToString();
try
{
numberValue = number.StartsWith("0x", StringComparison.OrdinalIgnoreCase) ? Convert.ToInt64(number, 16) : Convert.ToInt64(number, 8);
}
catch (Exception ex)
{
throw ThrowReaderError("Input string '{0}' is not a valid number.".FormatWith(CultureInfo.InvariantCulture, number), ex);
}
numberType = JsonToken.Integer;
}
else
{
ParseResult parseResult = ConvertUtils.Int64TryParse(_stringReference.Chars, _stringReference.StartIndex, _stringReference.Length, out long value);
if (parseResult == ParseResult.Success)
{
numberValue = value;
numberType = JsonToken.Integer;
}
else if (parseResult == ParseResult.Overflow)
{
#if HAVE_BIG_INTEGER
string number = _stringReference.ToString();
if (number.Length > MaximumJavascriptIntegerCharacterLength)
{
throw ThrowReaderError("JSON integer {0} is too large to parse.".FormatWith(CultureInfo.InvariantCulture, _stringReference.ToString()));
}
numberValue = BigIntegerParse(number, CultureInfo.InvariantCulture);
numberType = JsonToken.Integer;
#else
throw ThrowReaderError("JSON integer {0} is too large or small for an Int64.".FormatWith(CultureInfo.InvariantCulture, _stringReference.ToString()));
#endif
}
else
{
if (_floatParseHandling == FloatParseHandling.Decimal)
{
parseResult = ConvertUtils.DecimalTryParse(_stringReference.Chars, _stringReference.StartIndex, _stringReference.Length, out decimal d);
if (parseResult == ParseResult.Success)
{
numberValue = d;
}
else
{
throw ThrowReaderError("Input string '{0}' is not a valid decimal.".FormatWith(CultureInfo.InvariantCulture, _stringReference.ToString()));
}
}
else
{
string number = _stringReference.ToString();
if (double.TryParse(number, NumberStyles.Float, CultureInfo.InvariantCulture, out double d))
{
numberValue = d;
}
else
{
throw ThrowReaderError("Input string '{0}' is not a valid number.".FormatWith(CultureInfo.InvariantCulture, _stringReference.ToString()));
}
}
numberType = JsonToken.Float;
}
}
}
break;
default:
throw JsonReaderException.Create(this, "Cannot read number value as type.");
}
ClearRecentString();
// index has already been updated
SetToken(numberType, numberValue, false);
}
private JsonReaderException ThrowReaderError(string message, Exception? ex = null)
{
SetToken(JsonToken.Undefined, null, false);
return JsonReaderException.Create(this, message, ex);
}
#if HAVE_BIG_INTEGER
// By using the BigInteger type in a separate method,
// the runtime can execute the ParseNumber even if
// the System.Numerics.BigInteger.Parse method is
// missing, which happens in some versions of Mono
[MethodImpl(MethodImplOptions.NoInlining)]
private static object BigIntegerParse(string number, CultureInfo culture)
{
return System.Numerics.BigInteger.Parse(number, culture);
}
#endif
private void ParseComment(bool setToken)
{
MiscellaneousUtils.Assert(_chars != null);
// should have already parsed / character before reaching this method
_charPos++;
if (!EnsureChars(1, false))
{
throw JsonReaderException.Create(this, "Unexpected end while parsing comment.");
}
bool singlelineComment;
if (_chars[_charPos] == '*')
{
singlelineComment = false;
}
else if (_chars[_charPos] == '/')
{
singlelineComment = true;
}
else
{
throw JsonReaderException.Create(this, "Error parsing comment. Expected: *, got {0}.".FormatWith(CultureInfo.InvariantCulture, _chars[_charPos]));
}
_charPos++;
int initialPosition = _charPos;
while (true)
{
switch (_chars[_charPos])
{
case '\0':
if (_charsUsed == _charPos)
{
if (ReadData(true) == 0)
{
if (!singlelineComment)
{
throw JsonReaderException.Create(this, "Unexpected end while parsing comment.");
}
EndComment(setToken, initialPosition, _charPos);
return;
}
}
else
{
_charPos++;
}
break;
case '*':
_charPos++;
if (!singlelineComment)
{
if (EnsureChars(0, true))
{
if (_chars[_charPos] == '/')
{
EndComment(setToken, initialPosition, _charPos - 1);
_charPos++;
return;
}
}
}
break;
case StringUtils.CarriageReturn:
if (singlelineComment)
{
EndComment(setToken, initialPosition, _charPos);
return;
}
ProcessCarriageReturn(true);
break;
case StringUtils.LineFeed:
if (singlelineComment)
{
EndComment(setToken, initialPosition, _charPos);
return;
}
ProcessLineFeed();
break;
default:
_charPos++;
break;
}
}
}
private void EndComment(bool setToken, int initialPosition, int endPosition)
{
if (setToken)
{
SetToken(JsonToken.Comment, new string(_chars, initialPosition, endPosition - initialPosition));
}
}
private bool MatchValue(string value)
{
return MatchValue(EnsureChars(value.Length - 1, true), value);
}
private bool MatchValue(bool enoughChars, string value)
{
MiscellaneousUtils.Assert(_chars != null);
if (!enoughChars)
{
_charPos = _charsUsed;
throw CreateUnexpectedEndException();
}
for (int i = 0; i < value.Length; i++)
{
if (_chars[_charPos + i] != value[i])
{
_charPos += i;
return false;
}
}
_charPos += value.Length;
return true;
}
private bool MatchValueWithTrailingSeparator(string value)
{
MiscellaneousUtils.Assert(_chars != null);
// will match value and then move to the next character, checking that it is a separator character
bool match = MatchValue(value);
if (!match)
{
return false;
}
if (!EnsureChars(0, false))
{
return true;
}
return IsSeparator(_chars[_charPos]) || _chars[_charPos] == '\0';
}
private bool IsSeparator(char c)
{
MiscellaneousUtils.Assert(_chars != null);
switch (c)
{
case '}':
case ']':
case ',':
return true;
case '/':
// check next character to see if start of a comment
if (!EnsureChars(1, false))
{
return false;
}
char nextChart = _chars[_charPos + 1];
return (nextChart == '*' || nextChart == '/');
case ')':
if (CurrentState == State.Constructor || CurrentState == State.ConstructorStart)
{
return true;
}
break;
case ' ':
case StringUtils.Tab:
case StringUtils.LineFeed:
case StringUtils.CarriageReturn:
return true;
default:
if (char.IsWhiteSpace(c))
{
return true;
}
break;
}
return false;
}
private void ParseTrue()
{
// check characters equal 'true'
// and that it is followed by either a separator character
// or the text ends
if (MatchValueWithTrailingSeparator(JsonConvert.True))
{
SetToken(JsonToken.Boolean, true);
}
else
{
throw JsonReaderException.Create(this, "Error parsing boolean value.");
}
}
private void ParseNull()
{
if (MatchValueWithTrailingSeparator(JsonConvert.Null))
{
SetToken(JsonToken.Null);
}
else
{
throw JsonReaderException.Create(this, "Error parsing null value.");
}
}
private void ParseUndefined()
{
if (MatchValueWithTrailingSeparator(JsonConvert.Undefined))
{
SetToken(JsonToken.Undefined);
}
else
{
throw JsonReaderException.Create(this, "Error parsing undefined value.");
}
}
private void ParseFalse()
{
if (MatchValueWithTrailingSeparator(JsonConvert.False))
{
SetToken(JsonToken.Boolean, false);
}
else
{
throw JsonReaderException.Create(this, "Error parsing boolean value.");
}
}
private object ParseNumberNegativeInfinity(ReadType readType)
{
return ParseNumberNegativeInfinity(readType, MatchValueWithTrailingSeparator(JsonConvert.NegativeInfinity));
}
private object ParseNumberNegativeInfinity(ReadType readType, bool matched)
{
if (matched)
{
switch (readType)
{
case ReadType.Read:
case ReadType.ReadAsDouble:
if (_floatParseHandling == FloatParseHandling.Double)
{
SetToken(JsonToken.Float, double.NegativeInfinity);
return double.NegativeInfinity;
}
break;
case ReadType.ReadAsString:
SetToken(JsonToken.String, JsonConvert.NegativeInfinity);
return JsonConvert.NegativeInfinity;
}
throw JsonReaderException.Create(this, "Cannot read -Infinity value.");
}
throw JsonReaderException.Create(this, "Error parsing -Infinity value.");
}
private object ParseNumberPositiveInfinity(ReadType readType)
{
return ParseNumberPositiveInfinity(readType, MatchValueWithTrailingSeparator(JsonConvert.PositiveInfinity));
}
private object ParseNumberPositiveInfinity(ReadType readType, bool matched)
{
if (matched)
{
switch (readType)
{
case ReadType.Read:
case ReadType.ReadAsDouble:
if (_floatParseHandling == FloatParseHandling.Double)
{
SetToken(JsonToken.Float, double.PositiveInfinity);
return double.PositiveInfinity;
}
break;
case ReadType.ReadAsString:
SetToken(JsonToken.String, JsonConvert.PositiveInfinity);
return JsonConvert.PositiveInfinity;
}
throw JsonReaderException.Create(this, "Cannot read Infinity value.");
}
throw JsonReaderException.Create(this, "Error parsing Infinity value.");
}
private object ParseNumberNaN(ReadType readType)
{
return ParseNumberNaN(readType, MatchValueWithTrailingSeparator(JsonConvert.NaN));
}
private object ParseNumberNaN(ReadType readType, bool matched)
{
if (matched)
{
switch (readType)
{
case ReadType.Read:
case ReadType.ReadAsDouble:
if (_floatParseHandling == FloatParseHandling.Double)
{
SetToken(JsonToken.Float, double.NaN);
return double.NaN;
}
break;
case ReadType.ReadAsString:
SetToken(JsonToken.String, JsonConvert.NaN);
return JsonConvert.NaN;
}
throw JsonReaderException.Create(this, "Cannot read NaN value.");
}
throw JsonReaderException.Create(this, "Error parsing NaN value.");
}
/// <summary>
/// Changes the reader's state to <see cref="JsonReader.State.Closed"/>.
/// If <see cref="JsonReader.CloseInput"/> is set to <c>true</c>, the underlying <see cref="TextReader"/> is also closed.
/// </summary>
public override void Close()
{
base.Close();
if (_chars != null)
{
BufferUtils.ReturnBuffer(_arrayPool, _chars);
_chars = null;
}
if (CloseInput)
{
#if HAVE_STREAM_READER_WRITER_CLOSE
_reader?.Close();
#else
_reader?.Dispose();
#endif
}
_stringBuffer.Clear(_arrayPool);
}
/// <summary>
/// Gets a value indicating whether the class can return line information.
/// </summary>
/// <returns>
/// <c>true</c> if <see cref="JsonTextReader.LineNumber"/> and <see cref="JsonTextReader.LinePosition"/> can be provided; otherwise, <c>false</c>.
/// </returns>
public bool HasLineInfo()
{
return true;
}
/// <summary>
/// Gets the current line number.
/// </summary>
/// <value>
/// The current line number or 0 if no line information is available (for example, <see cref="JsonTextReader.HasLineInfo"/> returns <c>false</c>).
/// </value>
public int LineNumber
{
get
{
if (CurrentState == State.Start && LinePosition == 0 && TokenType != JsonToken.Comment)
{
return 0;
}
return _lineNumber;
}
}
/// <summary>
/// Gets the current line position.
/// </summary>
/// <value>
/// The current line position or 0 if no line information is available (for example, <see cref="JsonTextReader.HasLineInfo"/> returns <c>false</c>).
/// </value>
public int LinePosition => _charPos - _lineStartPos;
}
}