public async ValueTask Read(PrimitiveReader primitiveReader, CancellationToken cancellationToken) { BoolValue = await primitiveReader.ReadBool(cancellationToken); ByteValue = await primitiveReader.ReadByte(cancellationToken); SByteValue = await primitiveReader.ReadSByte(cancellationToken); ShortValue = await primitiveReader.ReadInt16(cancellationToken); UShortValue = await primitiveReader.ReadUInt16(cancellationToken); IntValue = await primitiveReader.ReadInt32(cancellationToken); UIntValue = await primitiveReader.ReadUInt32(cancellationToken); LongValue = await primitiveReader.ReadInt64(cancellationToken); ULongValue = await primitiveReader.ReadUInt64(cancellationToken); FloatValue = await primitiveReader.ReadSingle(cancellationToken); DoubleValue = await primitiveReader.ReadDouble(cancellationToken); StringValue = await primitiveReader.ReadString(cancellationToken); deserializationCounter++; }
public override void Load(PrimitiveReader reader) { var present = reader.ReadBoolean(); if (present) { Placeholder = reader.ReadString(); } }
public void TestingStrings(string init, Encoding encoding) { ResetBois(); PrimitiveWriter.WriteValue(Writer, init, encoding); ResetStream(); var final = PrimitiveReader.ReadString(Reader, encoding); final.Should().Be(init); }
public void Load(PrimitiveReader reader) { Id = reader.ReadUInt64(); Message = reader.ReadString(); SourceId = reader.ReadInt32(); ThreadId = reader.ReadInt32(); Time = new DateTime(reader.ReadInt64()); numericLogLevel = reader.ReadInt32(); if(ThreadId == -1) { ThreadId = null; } }
public void ShouldWriteAndReadStrings( [Values(1, 100, 10000)] int numberOfStrings, [Values(true, false)] bool withLongStrings) { const int maxLength = 100; const int longStringLength = 8000; const int longStringProbability = 10; var random = Helpers.Random; var strings = new string[numberOfStrings]; for (var i = 0; i < strings.Length; i++) { int length; if (withLongStrings && random.Next() % longStringProbability == 0) { length = longStringLength; } else { length = random.Next(maxLength); } strings[i] = Helpers.GetRandomString(length); } var stream = new MemoryStream(); using (var writer = new PrimitiveWriter(stream)) { for (var i = 0; i < strings.Length; i++) { writer.Write(strings[i]); } } var position = stream.Position; stream.Seek(0, SeekOrigin.Begin); using (var reader = new PrimitiveReader(stream)) { for (var i = 0; i < strings.Length; i++) { Assert.AreEqual(strings[i], reader.ReadString()); } } Assert.AreEqual(position, stream.Position, StreamCorruptedMessage); }
public void ShouldWriteAndReadStrings( [Values(1, 100, 10000)] int numberOfStrings, [Values(true, false)] bool withLongStrings) { const int maxLength = 100; const int longStringLength = 8000; const int longStringProbability = 10; var random = Helpers.Random; var strings = new string[numberOfStrings]; for(var i = 0; i < strings.Length; i++) { int length; if(withLongStrings && random.Next()%longStringProbability == 0) { length = longStringLength; } else { length = random.Next(maxLength); } strings[i] = Helpers.GetRandomString(length); } var stream = new MemoryStream(); using(var writer = new PrimitiveWriter(stream)) { for(var i = 0; i < strings.Length; i++) { writer.Write(strings[i]); } } var position = stream.Position; stream.Seek(0, SeekOrigin.Begin); using(var reader = new PrimitiveReader(stream)) { for(var i = 0; i < strings.Length; i++) { Assert.AreEqual(strings[i], reader.ReadString()); } } Assert.AreEqual(position, stream.Position, StreamCorruptedMessage); }
public async ValueTask Read(PrimitiveReader primitiveReader, CancellationToken cancellationToken) => result = await primitiveReader.ReadString(cancellationToken);