using System;
using System.IO;
using NewLife;
using NewLife.Data;
using NewLife.Serialization;
using NewLife.Serialization.Interface;
using Xunit;
namespace XUnitTest.Serialization;
public class BinaryTests
{
[Fact]
public void Normal()
{
var model = new MyModel { Code = 1234, Name = "Stone" };
var bn = new Binary();
Assert.Equal(5, bn.Handlers.Count);
bn.Write(model);
var pk = bn.GetPacket();
Assert.Equal(10, pk.Total);
Assert.Equal("000004D20553746F6E65", pk.ToHex());
var bn2 = new Binary { Stream = pk.GetStream() };
var model2 = bn2.Read<MyModel>();
Assert.Equal(model.Code, model2.Code);
Assert.Equal(model.Name, model2.Name);
}
[Fact]
public void EncodeInt()
{
var model = new MyModel { Code = 1234, Name = "Stone" };
var bn = new Binary { EncodeInt = true, };
Assert.Equal(5, bn.Handlers.Count);
bn.Write(model);
var pk = bn.GetPacket();
Assert.Equal(8, pk.Total);
Assert.Equal("D2090553746F6E65", pk.ToHex());
var bn2 = new Binary { Stream = pk.GetStream(), EncodeInt = true };
var model2 = bn2.Read<MyModel>();
Assert.Equal(model.Code, model2.Code);
Assert.Equal(model.Name, model2.Name);
}
[Fact]
public void IsLittleEndian()
{
var model = new MyModel { Code = 1234, Name = "Stone" };
var bn = new Binary { IsLittleEndian = true, };
Assert.Equal(5, bn.Handlers.Count);
bn.Write(model);
var pk = bn.GetPacket();
Assert.Equal(10, pk.Total);
Assert.Equal("D20400000553746F6E65", pk.ToHex());
var bn2 = new Binary { Stream = pk.GetStream(), IsLittleEndian = true };
var model2 = bn2.Read<MyModel>();
Assert.Equal(model.Code, model2.Code);
Assert.Equal(model.Name, model2.Name);
}
[Fact]
public void UseFieldSize()
{
var model = new MyModelWithFieldSize { Name = "Stone" };
var bn = new Binary { UseFieldSize = true, };
Assert.Equal(5, bn.Handlers.Count);
bn.Write(model);
var pk = bn.GetPacket();
Assert.Equal(6, pk.Total);
Assert.Equal("0553746F6E65", pk.ToHex());
var bn2 = new Binary { Stream = pk.GetStream(), UseFieldSize = true };
var model2 = bn2.Read<MyModelWithFieldSize>();
Assert.Equal(model.Length, model2.Length);
Assert.Equal(model.Name, model2.Name);
}
[Fact]
public void SizeWidth()
{
var model = new MyModel { Code = 1234, Name = "Stone" };
var bn = new Binary { SizeWidth = 2, };
Assert.Equal(5, bn.Handlers.Count);
bn.Write(model);
var pk = bn.GetPacket();
Assert.Equal(11, pk.Total);
Assert.Equal("000004D2000553746F6E65", pk.ToHex());
var bn2 = new Binary { Stream = pk.GetStream(), SizeWidth = 2 };
var model2 = bn2.Read<MyModel>();
Assert.Equal(model.Code, model2.Code);
Assert.Equal(model.Name, model2.Name);
}
[Fact]
public void UseProperty()
{
var model = new MyModel { Code = 1234, Name = "Stone" };
var bn = new Binary { UseProperty = false, };
Assert.Equal(5, bn.Handlers.Count);
bn.Write(model);
var pk = bn.GetPacket();
Assert.Equal(10, pk.Total);
Assert.Equal("000004D20553746F6E65", pk.ToHex());
var bn2 = new Binary { Stream = pk.GetStream(), UseProperty = false };
var model2 = bn2.Read<MyModel>();
Assert.Equal(model.Code, model2.Code);
Assert.Equal(model.Name, model2.Name);
}
[Fact]
public void IgnoreMembers()
{
var model = new MyModel { Code = 1234, Name = "Stone" };
var bn = new Binary();
bn.IgnoreMembers.Add("Code");
Assert.Equal(5, bn.Handlers.Count);
bn.Write(model);
var pk = bn.GetPacket();
Assert.Equal(6, pk.Total);
Assert.Equal("0553746F6E65", pk.ToHex());
var bn2 = new Binary { Stream = pk.GetStream() };
bn2.IgnoreMembers.Add("Code");
var model2 = bn2.Read<MyModel>();
Assert.Equal(0, model2.Code);
Assert.Equal(model.Name, model2.Name);
}
[Fact]
public void Fast()
{
var model = new MyModel { Code = 1234, Name = "Stone" };
var pk = Binary.FastWrite(model);
Assert.Equal(8, pk.Total);
Assert.Equal("D2090553746F6E65", pk.ToHex());
Assert.Equal("0gkFU3RvbmU=", pk.ToArray().ToBase64());
var model2 = Binary.FastRead<MyModel>(pk.GetStream());
Assert.Equal(model.Code, model2.Code);
Assert.Equal(model.Name, model2.Name);
var ms = new MemoryStream();
Binary.FastWrite(model, ms);
Assert.Equal("D2090553746F6E65", ms.ToArray().ToHex());
}
private class MyModel
{
public Int32 Code { get; set; }
public String Name { get; set; }
}
[Fact]
public void Accessor()
{
var model = new MyModelWithAccessor { Code = 1234, Name = "Stone" };
var pk = Binary.FastWrite(model);
Assert.Equal(10, pk.Total);
Assert.Equal("D20400000553746F6E65", pk.ToHex());
Assert.Equal("0gQAAAVTdG9uZQ==", pk.ToArray().ToBase64());
var model2 = Binary.FastRead<MyModelWithAccessor>(pk.GetStream());
Assert.Equal(model.Code, model2.Code);
Assert.Equal(model.Name, model2.Name);
var ms = new MemoryStream();
Binary.FastWrite(model, ms);
Assert.Equal("D20400000553746F6E65", ms.ToArray().ToHex());
}
private class MyModelWithAccessor : IAccessor
{
public Int32 Code { get; set; }
public String Name { get; set; }
public Boolean Read(Stream stream, Object context)
{
var reader = new BinaryReader(stream);
Code = reader.ReadInt32();
Name = reader.ReadString();
return true;
}
public Boolean Write(Stream stream, Object context)
{
var writer = new BinaryWriter(stream);
writer.Write(Code);
writer.Write(Name);
return true;
}
}
[Fact]
public void MemberAccessor()
{
var model = new MyModelWithMemberAccessor { Code = 1234, Name = "Stone" };
var pk = Binary.FastWrite(model);
Assert.Equal(8, pk.Total);
Assert.Equal("D2090553746F6E65", pk.ToHex());
Assert.Equal("0gkFU3RvbmU=", pk.ToArray().ToBase64());
var model2 = Binary.FastRead<MyModelWithMemberAccessor>(pk.GetStream());
Assert.Equal(model.Code, model2.Code);
Assert.Equal(model.Name, model2.Name);
var ms = new MemoryStream();
Binary.FastWrite(model, ms);
Assert.Equal("D2090553746F6E65", ms.ToArray().ToHex());
}
private class MyModelWithMemberAccessor : IMemberAccessor
{
public Int32 Code { get; set; }
public String Name { get; set; }
public Boolean Read(IFormatterX formatter, AccessorContext context)
{
var bn = formatter as Binary;
switch (context.Member.Name)
{
case "Code": Code = bn.Read<Int32>(); break;
case "Name": Name = bn.Read<String>(); break;
}
//Code = bn.Read<Int32>();
//Name = bn.Read<String>();
return true;
}
public Boolean Write(IFormatterX formatter, AccessorContext context)
{
var bn = formatter as Binary;
switch (context.Member.Name)
{
case "Code": bn.Write(Code); break;
case "Name": bn.Write(Name); break;
}
return true;
}
}
[Fact]
public void FieldSize()
{
var model = new MyModelWithFieldSize { Name = "Stone" };
Assert.Equal(0, model.Length);
var bn = new Binary { EncodeInt = true, UseFieldSize = true };
bn.Write(model);
var pk = new Packet(bn.GetBytes());
Assert.Equal(5, model.Length);
Assert.Equal(6, pk.Total);
Assert.Equal("0553746F6E65", pk.ToHex());
var bn2 = new Binary { Stream = pk.GetStream(), EncodeInt = true, UseFieldSize = true };
var model2 = bn2.Read<MyModelWithFieldSize>();
Assert.Equal(model.Length, model2.Length);
Assert.Equal(model.Name, model2.Name);
}
private class MyModelWithFieldSize
{
public Byte Length { get; set; }
[FieldSize(nameof(Length))]
public String Name { get; set; }
}
[Fact]
public void MemberAccessorAtt()
{
var model = new MyModelWithMemberAccessorAtt { Code = 1234, Name = "Stone" };
var pk = Binary.FastWrite(model);
Assert.Equal(8, pk.Total);
Assert.Equal("D2090553746F6E65", pk.ToHex());
var model2 = Binary.FastRead<MyModelWithMemberAccessorAtt>(pk.GetStream());
Assert.Equal(model.Code, model2.Code);
Assert.Equal(model.Name, model2.Name);
}
private class MyModelWithMemberAccessorAtt
{
public Int32 Code { get; set; }
[MyAccessor]
public String Name { get; set; }
}
private class MyAccessorAttribute : AccessorAttribute
{
public override Boolean Read(IFormatterX formatter, AccessorContext context)
{
Assert.Equal("Name", context.Member.Name);
var v = context.Value as MyModelWithMemberAccessorAtt;
var bn = formatter as Binary;
v.Name = bn.Read<String>();
return true;
}
public override Boolean Write(IFormatterX formatter, AccessorContext context)
{
Assert.Equal("Name", context.Member.Name);
var v = context.Value as MyModelWithMemberAccessorAtt;
var bn = formatter as Binary;
bn.Write(v.Name);
return true;
}
}
[Fact]
public void FixedString()
{
var model = new MyModelWithFixed { Code = 1234, Name = "Stone" };
var bn = new Binary { EncodeInt = true };
bn.Write(model);
var pk = bn.GetPacket();
Assert.Equal(10, pk.Total);
Assert.Equal("D20953746F6E65000000", pk.ToHex());
var bn2 = new Binary { Stream = pk.GetStream(), EncodeInt = true };
var model2 = bn2.Read<MyModelWithFixed>();
Assert.Equal(model.Code, model2.Code);
Assert.Equal(model.Name, model2.Name);
}
private class MyModelWithFixed
{
public Int32 Code { get; set; }
[FixedString(8)]
public String Name { get; set; }
}
[Fact]
public void ReadDateTime()
{
var dt = DateTime.Now;
var n1 = dt.ToInt();
// 默认压缩整数,反而用了5字节
var pk = Binary.FastWrite(dt);
Assert.Equal(5, pk.Total);
var dt2 = Binary.FastRead<DateTime>(pk.GetStream());
var n2 = dt2.ToInt();
Assert.Equal(dt.Trim(), dt2);
Assert.Equal(n1, n2);
// 不用压缩整数,只要4字节
var bn = new Binary { EncodeInt = false };
bn.Write(dt);
pk = bn.GetPacket();
Assert.Equal(4, pk.Total);
bn = new Binary { EncodeInt = false, Stream = pk.GetStream() };
dt2 = bn.Read<DateTime>();
n2 = dt2.ToInt();
Assert.Equal(dt.Trim(), dt2);
Assert.Equal(n1, n2);
}
[Fact]
public void ReadDateTime2()
{
// 刚好超过Int32.MaxValue,最高可达UInt32.MaxValue
var dt = new DateTime(2038, 12, 31);
var n1 = dt.ToLong();
var pk = Binary.FastWrite(dt);
Assert.Equal(5, pk.Total);
var dt2 = Binary.FastRead<DateTime>(pk.GetStream());
var n2 = dt2.ToLong();
Assert.Equal(dt, dt2);
Assert.Equal(n1, n2);
}
[Fact]
public void WriteMinTime()
{
var dt = DateTime.MinValue;
var n1 = dt.ToLong();
var pk = Binary.FastWrite(dt);
Assert.Equal(1, pk.Total);
var dt2 = Binary.FastRead<DateTime>(pk.GetStream());
var n2 = dt2.ToLong();
Assert.Equal(dt, dt2);
Assert.Equal(n1, n2);
}
[Fact]
public void WriteMaxTime()
{
// 刚好超过UInt32.MaxValue
var dt = new DateTime(2106, 12, 31);
var n1 = dt.ToLong();
var ex = Assert.Throws<InvalidDataException>(() => Binary.FastWrite(dt));
}
[Theory]
[InlineData("0001-01-01 00:00:00")]
[InlineData("9999-12-31 23:59:59")]
[InlineData("9999-12-31 23:59:59.9999999")]
[InlineData("2024-07-01")]
[InlineData("1970-01-01")]
[InlineData("2038-12-31")]
[InlineData("2106-12-31")]
public void WriteFullTime(String str)
{
var dt = str.ToDateTime();
var n1 = dt.ToLong();
// 使用完整时间序列化
var bn = new Binary { FullTime = true };
bn.Write(dt);
var pk = bn.GetPacket();
Assert.Equal(8, pk.Total);
// 反序列化
bn = new Binary { FullTime = true, Stream = pk.GetStream() };
var dt2 = bn.Read<DateTime>();
var n2 = dt2.ToLong();
Assert.Equal(dt, dt2);
Assert.Equal(n1, n2);
}
private static void WriteFullTimeByKind(DateTime dt)
{
var n1 = dt.ToLong();
// 使用完整时间序列化
var bn = new Binary { FullTime = true };
bn.Write(dt);
var pk = bn.GetPacket();
Assert.Equal(8, pk.Total);
// 反序列化
bn = new Binary { FullTime = true, Stream = pk.GetStream() };
var dt2 = bn.Read<DateTime>();
var n2 = dt2.ToLong();
Assert.Equal(dt.Kind, dt2.Kind);
Assert.Equal(dt, dt2);
Assert.Equal(n1, n2);
}
[Fact]
public void WriteFullTimeByLocal()
{
var dt = DateTime.Now;
WriteFullTimeByKind(dt);
dt = new DateTime(1, 1, 1, 0, 0, 0, DateTimeKind.Local);
WriteFullTimeByKind(dt);
dt = new DateTime(9999, 12, 31, 23, 59, 59, DateTimeKind.Local);
WriteFullTimeByKind(dt);
}
[Fact]
public void WriteFullTimeByUTC()
{
var dt = DateTime.UtcNow;
WriteFullTimeByKind(dt);
dt = new DateTime(1, 1, 1, 0, 0, 0, DateTimeKind.Utc);
WriteFullTimeByKind(dt);
dt = new DateTime(9999, 12, 31, 23, 59, 59, DateTimeKind.Utc);
WriteFullTimeByKind(dt);
}
[Fact]
public void WriteFullTimeByUnspecified()
{
var dt = new DateTime(2106, 12, 31);
WriteFullTimeByKind(dt);
dt = new DateTime(1, 1, 1, 0, 0, 0, DateTimeKind.Unspecified);
WriteFullTimeByKind(dt);
dt = new DateTime(9999, 12, 31, 23, 59, 59, DateTimeKind.Unspecified);
WriteFullTimeByKind(dt);
dt = DateTime.MinValue;
WriteFullTimeByKind(dt);
dt = DateTime.MaxValue;
WriteFullTimeByKind(dt);
}
}
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