public Int16?Deserialize(ref MessagePackReader reader, IFormatterResolver formatterResolver) { if (reader.IsNil()) { return(null); } return(reader.ReadInt16()); }
public DateTimeOffset Deserialize(ref MessagePackReader reader, IFormatterResolver formatterResolver) { var count = reader.ReadArrayHeader(); if (count != 2) { ThrowHelper.ThrowInvalidOperationException_DateTimeOffset_Format(); } var utc = reader.ReadDateTime(); var dtOffsetMinutes = reader.ReadInt16(); return(new DateTimeOffset(utc.Ticks, TimeSpan.FromMinutes(dtOffsetMinutes))); }
public DateTimeOffset Deserialize(ref MessagePackReader reader, MessagePackSerializerOptions options) { var count = reader.ReadArrayHeader(); if (count != 2) { throw new MessagePackSerializationException("Invalid DateTimeOffset format."); } DateTime utc = reader.ReadDateTime(); var dtOffsetMinutes = reader.ReadInt16(); return(new DateTimeOffset(utc.Ticks, TimeSpan.FromMinutes(dtOffsetMinutes))); }
public Int16[] Deserialize(ref MessagePackReader reader, IFormatterResolver formatterResolver) { if (reader.IsNil()) { return(null); } var len = reader.ReadArrayHeader(); var array = new Int16[len]; for (int i = 0; i < array.Length; i++) { array[i] = reader.ReadInt16(); } return(array); }
public void Int16Test(short target, int length) { (MemoryStream stream, MsgPack.Packer packer) = this.CreateReferencePacker(); var sequence = new Sequence <byte>(); var writer = new MessagePackWriter(sequence); writer.Write(target); writer.Flush(); sequence.Length.Is(length); packer.Pack(target).Position.Is(sequence.Length); //// stream.ToArray().SequenceEqual(sequence.AsReadOnlySequence.ToArray()).IsTrue(); var sequenceReader = new MessagePackReader(sequence.AsReadOnlySequence); sequenceReader.ReadInt16().Is(target); sequenceReader.End.IsTrue(); this.CreateUnpackedReference(sequence).AsInt16().Is(target); }
public object Deserialize(ref MessagePackReader reader, MessagePackSerializerOptions options) { MessagePackType type = reader.NextMessagePackType; IFormatterResolver resolver = options.Resolver; switch (type) { case MessagePackType.Integer: var code = reader.NextCode; if (code >= MessagePackCode.MinNegativeFixInt && code <= MessagePackCode.MaxNegativeFixInt) { return(reader.ReadSByte()); } else if (code >= MessagePackCode.MinFixInt && code <= MessagePackCode.MaxFixInt) { return(reader.ReadByte()); } else if (code == MessagePackCode.Int8) { return(reader.ReadSByte()); } else if (code == MessagePackCode.Int16) { return(reader.ReadInt16()); } else if (code == MessagePackCode.Int32) { return(reader.ReadInt32()); } else if (code == MessagePackCode.Int64) { return(reader.ReadInt64()); } else if (code == MessagePackCode.UInt8) { return(reader.ReadByte()); } else if (code == MessagePackCode.UInt16) { return(reader.ReadUInt16()); } else if (code == MessagePackCode.UInt32) { return(reader.ReadUInt32()); } else if (code == MessagePackCode.UInt64) { return(reader.ReadUInt64()); } throw new MessagePackSerializationException("Invalid primitive bytes."); case MessagePackType.Boolean: return(reader.ReadBoolean()); case MessagePackType.Float: if (reader.NextCode == MessagePackCode.Float32) { return(reader.ReadSingle()); } else { return(reader.ReadDouble()); } case MessagePackType.String: return(reader.ReadString()); case MessagePackType.Binary: // We must copy the sequence returned by ReadBytes since the reader's sequence is only valid during deserialization. return(reader.ReadBytes()?.ToArray()); case MessagePackType.Extension: ExtensionHeader ext = reader.ReadExtensionFormatHeader(); if (ext.TypeCode == ReservedMessagePackExtensionTypeCode.DateTime) { return(reader.ReadDateTime(ext)); } throw new MessagePackSerializationException("Invalid primitive bytes."); case MessagePackType.Array: { var length = reader.ReadArrayHeader(); if (length == 0) { return(Array.Empty <object>()); } IMessagePackFormatter <object> objectFormatter = resolver.GetFormatter <object>(); var array = new object[length]; options.Security.DepthStep(ref reader); try { for (int i = 0; i < length; i++) { array[i] = objectFormatter.Deserialize(ref reader, options); } } finally { reader.Depth--; } return(array); } case MessagePackType.Map: { var length = reader.ReadMapHeader(); IMessagePackFormatter <object> objectFormatter = resolver.GetFormatter <object>(); var hash = new Dictionary <object, object>(length, options.Security.GetEqualityComparer <object>()); options.Security.DepthStep(ref reader); try { for (int i = 0; i < length; i++) { var key = objectFormatter.Deserialize(ref reader, options); var value = objectFormatter.Deserialize(ref reader, options); hash.Add(key, value); } } finally { reader.Depth--; } return(hash); } case MessagePackType.Nil: reader.ReadNil(); return(null); default: throw new MessagePackSerializationException("Invalid primitive bytes."); } }
public Int16 Deserialize(ref MessagePackReader reader, MessagePackSerializerOptions options) { return(reader.ReadInt16()); }
public global::Shared.Protocol.ErrCode Deserialize(ref MessagePackReader reader, global::MessagePack.MessagePackSerializerOptions options) { return((global::Shared.Protocol.ErrCode)reader.ReadInt16()); }
public void IntegerRangeTest() { // Int16 can accepts UInt8 // Int32 can accepts UInt16 // Int64 can accepts UInt32 { var small = new Sequence <byte>(); var smallWriter = new MessagePackWriter(small); smallWriter.Write(byte.MaxValue); smallWriter.Flush(); var smallReader = new MessagePackReader(small.AsReadOnlySequence); smallReader.ReadInt16().Is(byte.MaxValue); var target = new Sequence <byte>(); var targetWriter = new MessagePackWriter(target); targetWriter.Write((short)byte.MaxValue); targetWriter.Flush(); target.AsReadOnlySequence.ToArray().SequenceEqual(small.AsReadOnlySequence.ToArray()).IsTrue(); } { var small = new Sequence <byte>(); var smallWriter = new MessagePackWriter(small); smallWriter.Write(byte.MaxValue); smallWriter.Flush(); var smallReader = new MessagePackReader(small.AsReadOnlySequence); smallReader.ReadInt32().Is(byte.MaxValue); var target = new Sequence <byte>(); var targetWriter = new MessagePackWriter(target); targetWriter.Write((int)byte.MaxValue); targetWriter.Flush(); target.AsReadOnlySequence.ToArray().SequenceEqual(small.AsReadOnlySequence.ToArray()).IsTrue(); small.Reset(); smallWriter = new MessagePackWriter(small); smallWriter.Write(ushort.MaxValue); smallWriter.Flush(); smallReader = new MessagePackReader(small.AsReadOnlySequence); smallReader.ReadInt32().Is(ushort.MaxValue); target.Reset(); targetWriter = new MessagePackWriter(target); targetWriter.Write((int)ushort.MaxValue); targetWriter.Flush(); target.AsReadOnlySequence.ToArray().SequenceEqual(small.AsReadOnlySequence.ToArray()).IsTrue(); } { var small = new Sequence <byte>(); var smallWriter = new MessagePackWriter(small); smallWriter.Write(byte.MaxValue); smallWriter.Flush(); var smallReader = new MessagePackReader(small.AsReadOnlySequence); smallReader.ReadInt64().Is(byte.MaxValue); var target = new Sequence <byte>(); var targetWriter = new MessagePackWriter(target); targetWriter.Write((long)byte.MaxValue); targetWriter.Flush(); target.AsReadOnlySequence.ToArray().SequenceEqual(small.AsReadOnlySequence.ToArray()).IsTrue(); small.Reset(); smallWriter = new MessagePackWriter(small); smallWriter.Write(ushort.MaxValue); smallWriter.Flush(); smallReader = new MessagePackReader(small.AsReadOnlySequence); smallReader.ReadInt64().Is(ushort.MaxValue); target.Reset(); targetWriter = new MessagePackWriter(target); targetWriter.Write((long)ushort.MaxValue); targetWriter.Flush(); target.AsReadOnlySequence.ToArray().SequenceEqual(small.AsReadOnlySequence.ToArray()).IsTrue(); small.Reset(); smallWriter = new MessagePackWriter(small); smallWriter.Write(uint.MaxValue); smallWriter.Flush(); smallReader = new MessagePackReader(small.AsReadOnlySequence); smallReader.ReadInt64().Is(uint.MaxValue); target.Reset(); targetWriter = new MessagePackWriter(target); targetWriter.Write((long)uint.MaxValue); targetWriter.Flush(); target.AsReadOnlySequence.ToArray().SequenceEqual(small.AsReadOnlySequence.ToArray()).IsTrue(); } }
public void ForceBlockFormatters() { var block = new BlockFormattedIntegers { UInt8Property = 1, UInt16Property = 2, UInt32Property = 3, UInt64Property = 4, Int8Property = 1, Int16Property = 2, Int32Property = 3, Int64Property = 4, NullableUInt8Property = 1, NullableUInt16Property = 2, NullableUInt32Property = 3, NullableUInt64Property = 4, NullableInt8Property = 1, NullableInt16Property = 2, NullableInt32Property = 3, NullableInt64Property = 4, }; byte[] packed = MessagePackSerializer.Serialize(block, MessagePackSerializerOptions.Standard); var reader = new MessagePackReader(packed); reader.ReadArrayHeader(); Assert.Equal(MessagePackCode.UInt8, reader.NextCode); Assert.Equal(1, reader.ReadByte()); Assert.Equal(MessagePackCode.UInt16, reader.NextCode); Assert.Equal(2, reader.ReadUInt16()); Assert.Equal(MessagePackCode.UInt32, reader.NextCode); Assert.Equal(3u, reader.ReadUInt32()); Assert.Equal(MessagePackCode.UInt64, reader.NextCode); Assert.Equal(4u, reader.ReadUInt64()); Assert.Equal(MessagePackCode.Int8, reader.NextCode); Assert.Equal(1, reader.ReadSByte()); Assert.Equal(MessagePackCode.Int16, reader.NextCode); Assert.Equal(2, reader.ReadInt16()); Assert.Equal(MessagePackCode.Int32, reader.NextCode); Assert.Equal(3, reader.ReadInt32()); Assert.Equal(MessagePackCode.Int64, reader.NextCode); Assert.Equal(4, reader.ReadInt64()); Assert.Equal(MessagePackCode.UInt8, reader.NextCode); Assert.Equal(1, reader.ReadByte()); Assert.Equal(MessagePackCode.UInt16, reader.NextCode); Assert.Equal(2, reader.ReadUInt16()); Assert.Equal(MessagePackCode.UInt32, reader.NextCode); Assert.Equal(3u, reader.ReadUInt32()); Assert.Equal(MessagePackCode.UInt64, reader.NextCode); Assert.Equal(4u, reader.ReadUInt64()); Assert.Equal(MessagePackCode.Int8, reader.NextCode); Assert.Equal(1, reader.ReadSByte()); Assert.Equal(MessagePackCode.Int16, reader.NextCode); Assert.Equal(2, reader.ReadInt16()); Assert.Equal(MessagePackCode.Int32, reader.NextCode); Assert.Equal(3, reader.ReadInt32()); Assert.Equal(MessagePackCode.Int64, reader.NextCode); Assert.Equal(4, reader.ReadInt64()); }
public Int16 Deserialize(ref MessagePackReader reader, IFormatterResolver formatterResolver) { return(reader.ReadInt16()); }
public object Deserialize(ref MessagePackReader reader, IFormatterResolver resolver) { var type = reader.NextMessagePackType; switch (type) { case MessagePackType.Integer: var code = reader.NextCode; if (MessagePackCode.MinNegativeFixInt <= code && code <= MessagePackCode.MaxNegativeFixInt) { return(reader.ReadSByte()); } else if (MessagePackCode.MinFixInt <= code && code <= MessagePackCode.MaxFixInt) { return(reader.ReadByte()); } else if (code == MessagePackCode.Int8) { return(reader.ReadSByte()); } else if (code == MessagePackCode.Int16) { return(reader.ReadInt16()); } else if (code == MessagePackCode.Int32) { return(reader.ReadInt32()); } else if (code == MessagePackCode.Int64) { return(reader.ReadInt64()); } else if (code == MessagePackCode.UInt8) { return(reader.ReadByte()); } else if (code == MessagePackCode.UInt16) { return(reader.ReadUInt16()); } else if (code == MessagePackCode.UInt32) { return(reader.ReadUInt32()); } else if (code == MessagePackCode.UInt64) { return(reader.ReadUInt64()); } throw new InvalidOperationException("Invalid primitive bytes."); case MessagePackType.Boolean: return(reader.ReadBoolean()); case MessagePackType.Float: if (MessagePackCode.Float32 == reader.NextCode) { return(reader.ReadSingle()); } else { return(reader.ReadDouble()); } case MessagePackType.String: return(reader.ReadString()); case MessagePackType.Binary: return(reader.ReadBytes()); case MessagePackType.Extension: var ext = reader.ReadExtensionFormatHeader(); if (ext.TypeCode == ReservedMessagePackExtensionTypeCode.DateTime) { return(reader.ReadDateTime(ext)); } throw new InvalidOperationException("Invalid primitive bytes."); case MessagePackType.Array: { var length = reader.ReadArrayHeader(); var objectFormatter = resolver.GetFormatter <object>(); var array = new object[length]; for (int i = 0; i < length; i++) { array[i] = objectFormatter.Deserialize(ref reader, resolver); } return(array); } case MessagePackType.Map: { var length = reader.ReadMapHeader(); var objectFormatter = resolver.GetFormatter <object>(); var hash = new Dictionary <object, object>(length); for (int i = 0; i < length; i++) { var key = objectFormatter.Deserialize(ref reader, resolver); var value = objectFormatter.Deserialize(ref reader, resolver); hash.Add(key, value); } return(hash); } case MessagePackType.Nil: reader.ReadNil(); return(null); default: throw new InvalidOperationException("Invalid primitive bytes."); } }
public override T Deserialize(ref MessagePackReader reader) { short value = reader.ReadInt16(); return(MessagePackUnsafeUtility.As <short, T>(ref value)); }
public object Deserialize(ref MessagePackReader reader, IFormatterResolver formatterResolver) { var type = reader.GetMessagePackType(); switch (type) { case MessagePackType.Integer: var code = reader.Peek(); if (MessagePackCode.MinNegativeFixInt <= code && code <= MessagePackCode.MaxNegativeFixInt) { return(reader.ReadSByte()); } else if (MessagePackCode.MinFixInt <= code && code <= MessagePackCode.MaxFixInt) { return(reader.ReadByte()); } else { switch (code) { case MessagePackCode.Int8: return(reader.ReadSByte()); case MessagePackCode.Int16: return(reader.ReadInt16()); case MessagePackCode.Int32: return(reader.ReadInt32()); case MessagePackCode.Int64: return(reader.ReadInt64()); case MessagePackCode.UInt8: return(reader.ReadByte()); case MessagePackCode.UInt16: return(reader.ReadUInt16()); case MessagePackCode.UInt32: return(reader.ReadUInt32()); case MessagePackCode.UInt64: return(reader.ReadUInt64()); default: ThrowHelper.ThrowInvalidOperationException_Primitive_Bytes(); return(null); } } case MessagePackType.Boolean: return(reader.ReadBoolean()); case MessagePackType.Float: if (MessagePackCode.Float32 == reader.Peek()) { return(reader.ReadSingle()); } else { return(reader.ReadDouble()); } case MessagePackType.String: return(reader.ReadString()); case MessagePackType.Binary: return(reader.ReadBytes()); case MessagePackType.Extension: var extTypeCode = reader.GetExtensionFormatTypeCode(); if (extTypeCode != ReservedMessagePackExtensionTypeCode.DateTime) { ThrowHelper.ThrowInvalidOperationException_Primitive_Bytes(); } return(reader.ReadDateTime()); case MessagePackType.Array: { var length = reader.ReadArrayHeader(); var objectFormatter = formatterResolver.GetFormatter <object>(); var array = new object[length]; for (int i = 0; i < length; i++) { array[i] = objectFormatter.Deserialize(ref reader, formatterResolver); } return(array); } case MessagePackType.Map: { var length = reader.ReadMapHeader(); var objectFormatter = formatterResolver.GetFormatter <object>(); var hash = new Dictionary <object, object>(length); for (int i = 0; i < length; i++) { var key = objectFormatter.Deserialize(ref reader, formatterResolver); var value = objectFormatter.Deserialize(ref reader, formatterResolver); hash.Add(key, value); } return(hash); } case MessagePackType.Nil: reader.Advance(1); return(null); default: ThrowHelper.ThrowInvalidOperationException_Primitive_Bytes(); return(null); } }
public global::Fenix.Common.DefaultErrCode Deserialize(ref MessagePackReader reader, global::MessagePack.MessagePackSerializerOptions options) { return((global::Fenix.Common.DefaultErrCode)reader.ReadInt16()); }