| public static ToUInt16 ( byte buffer, int offset ) : ushort | ||
| buffer | byte | |
| offset | int | |
| 리턴 | ushort | |
public void PerformanceTest()
{
var dummy = new byte[8];
// Let's load and JIT
BigEndianBinary.ToInt16(dummy, 0);
BigEndianBinary.ToInt32(dummy, 0);
BigEndianBinary.ToInt64(dummy, 0);
BigEndianBinary.ToUInt16(dummy, 0);
BigEndianBinary.ToUInt32(dummy, 0);
BigEndianBinary.ToUInt64(dummy, 0);
BigEndianBinary.ToSingle(dummy, 0);
BigEndianBinary.ToDouble(dummy, 0);
BitConverter.ToInt16(dummy, 0);
BitConverter.ToInt32(dummy, 0);
BitConverter.ToInt64(dummy, 0);
BitConverter.ToUInt16(dummy, 0);
BitConverter.ToUInt32(dummy, 0);
BitConverter.ToUInt64(dummy, 0);
BitConverter.ToSingle(dummy, 0);
BitConverter.ToDouble(dummy, 0);
// Go
const int iteration = 1000000;
PerformanceTestCore(new byte[] { 0, 0x80, 0xff, 0 }, BigEndianBinary.ToInt16, BitConverter.ToInt16, iteration);
PerformanceTestCore(new byte[] { 0, 0x80, 0xff, 0 }, BigEndianBinary.ToUInt16, BitConverter.ToUInt16, iteration);
PerformanceTestCore(new byte[] { 0, 0x80, 0x00, 0xff, 0xff, 0 }, BigEndianBinary.ToInt32, BitConverter.ToInt32, iteration);
PerformanceTestCore(new byte[] { 0, 0x80, 0x00, 0xff, 0xff, 0 }, BigEndianBinary.ToUInt32, BitConverter.ToUInt32, iteration);
PerformanceTestCore(new byte[] { 0, 0x80, 0x00, 0x00, 0x00, 0xff, 0xff, 0xff, 0xff, 0 }, BigEndianBinary.ToInt64, BitConverter.ToInt64, iteration);
PerformanceTestCore(new byte[] { 0, 0x80, 0x00, 0x00, 0x00, 0xff, 0xff, 0xff, 0xff, 0 }, BigEndianBinary.ToUInt64, BitConverter.ToUInt64, iteration);
PerformanceTestCore(new byte[] { 0, 0x80, 0xff, 0x00, 0xff, 0 }, BigEndianBinary.ToSingle, BitConverter.ToSingle, iteration);
PerformanceTestCore(new byte[] { 0, 0x80, 0xff, 0x00, 0xff, 0x00, 0xff, 0x00, 0xff, 0 }, BigEndianBinary.ToDouble, BitConverter.ToDouble, iteration);
}
public void TestToUInt16()
{
AssertPrimitive("0", BigEndianBinary.ToUInt16(new byte[] { 0x0, 0x0 }, 0));
AssertPrimitive("7fff", BigEndianBinary.ToUInt16(new byte[] { 0x7f, 0xff }, 0));
AssertPrimitive("8000", BigEndianBinary.ToUInt16(new byte[] { 0x80, 0x00 }, 0));
AssertPrimitive("ffff", BigEndianBinary.ToUInt16(new byte[] { 0xff, 0xff }, 0));
AssertPrimitive("8000", BigEndianBinary.ToUInt16(new byte[] { 0x1, 0x80, 0x00, 0x2 }, 1));
}
protected sealed override long?SkipCore()
{
var source = this._stream;
var buffer = this._scalarBuffer;
#if !UNITY
Contract.Assert(source != null, "source != null");
Contract.Assert(buffer != null, "buffer != null");
#endif // !UNITY
long remainingItems = -1;
long skipped = 0;
Int64Stack remainingCollections = null;
do
{
var header = source.ReadByte();
if (header < 0)
{
return(null);
}
switch (header)
{
case MessagePackCode.NilValue:
case MessagePackCode.TrueValue:
case MessagePackCode.FalseValue:
{
skipped += 1;
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
continue;
}
}
if (header < 0x80)
{
skipped += 1;
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
continue;
}
else if (header >= 0xE0)
{
skipped += 1;
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
continue;
}
switch (header & 0xF0)
{
case 0x80:
{
var size = header & 0xF;
skipped += 1;
if (size == 0)
{
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
}
else
{
#region PushContextCollection
if (remainingItems >= 0)
{
if (remainingCollections == null)
{
remainingCollections = new Int64Stack(4);
}
remainingCollections.Push(remainingItems);
}
remainingItems = size * 2;
#endregion PushContextCollection
}
continue;
}
case 0x90:
{
var size = header & 0xF;
skipped += 1;
if (size == 0)
{
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
}
else
{
#region PushContextCollection
if (remainingItems >= 0)
{
if (remainingCollections == null)
{
remainingCollections = new Int64Stack(4);
}
remainingCollections.Push(remainingItems);
}
remainingItems = size;
#endregion PushContextCollection
}
continue;
}
case 0xA0:
case 0xB0:
{
var size = header & 0x1F;
skipped += 1;
#region DrainValue
long bytesRead = 0;
while (size > bytesRead)
{
var remaining = (size - bytesRead);
var reading = remaining > DummyBufferForSkipping.Length ? DummyBufferForSkipping.Length : unchecked (( int )remaining);
bytesRead += source.Read(DummyBufferForSkipping, 0, reading);
if (bytesRead < reading)
{
return(null);
}
}
skipped += bytesRead;
#endregion DrainValue
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
continue;
}
}
switch (header)
{
case MessagePackCode.SignedInt8:
case MessagePackCode.UnsignedInt8:
{
skipped += 1;
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
#region DrainValue
long bytesRead = 0;
while (1 > bytesRead)
{
var remaining = (1 - bytesRead);
var reading = remaining > DummyBufferForSkipping.Length ? DummyBufferForSkipping.Length : unchecked (( int )remaining);
bytesRead += source.Read(DummyBufferForSkipping, 0, reading);
if (bytesRead < reading)
{
return(null);
}
}
skipped += bytesRead;
#endregion DrainValue
continue;
}
case MessagePackCode.SignedInt16:
case MessagePackCode.UnsignedInt16:
{
skipped += 1;
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
#region DrainValue
long bytesRead = 0;
while (2 > bytesRead)
{
var remaining = (2 - bytesRead);
var reading = remaining > DummyBufferForSkipping.Length ? DummyBufferForSkipping.Length : unchecked (( int )remaining);
bytesRead += source.Read(DummyBufferForSkipping, 0, reading);
if (bytesRead < reading)
{
return(null);
}
}
skipped += bytesRead;
#endregion DrainValue
continue;
}
case MessagePackCode.SignedInt32:
case MessagePackCode.UnsignedInt32:
case MessagePackCode.Real32:
{
skipped += 1;
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
#region DrainValue
long bytesRead = 0;
while (4 > bytesRead)
{
var remaining = (4 - bytesRead);
var reading = remaining > DummyBufferForSkipping.Length ? DummyBufferForSkipping.Length : unchecked (( int )remaining);
bytesRead += source.Read(DummyBufferForSkipping, 0, reading);
if (bytesRead < reading)
{
return(null);
}
}
skipped += bytesRead;
#endregion DrainValue
continue;
}
case MessagePackCode.SignedInt64:
case MessagePackCode.UnsignedInt64:
case MessagePackCode.Real64:
{
skipped += 1;
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
#region DrainValue
long bytesRead = 0;
while (8 > bytesRead)
{
var remaining = (8 - bytesRead);
var reading = remaining > DummyBufferForSkipping.Length ? DummyBufferForSkipping.Length : unchecked (( int )remaining);
bytesRead += source.Read(DummyBufferForSkipping, 0, reading);
if (bytesRead < reading)
{
return(null);
}
}
skipped += bytesRead;
#endregion DrainValue
continue;
}
case MessagePackCode.Raw16:
{
skipped += 1;
ushort length;
var read = source.Read(buffer, 0, 2);
if (read == 2)
{
length = BigEndianBinary.ToUInt16(buffer, 0);
skipped += 2;
}
else
{
return(null);
}
#region DrainValue
long bytesRead = 0;
while (length > bytesRead)
{
var remaining = (length - bytesRead);
var reading = remaining > DummyBufferForSkipping.Length ? DummyBufferForSkipping.Length : unchecked (( int )remaining);
bytesRead += source.Read(DummyBufferForSkipping, 0, reading);
if (bytesRead < reading)
{
return(null);
}
}
skipped += bytesRead;
#endregion DrainValue
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
continue;
}
case MessagePackCode.Raw32:
{
skipped += 1;
uint length;
var read = source.Read(buffer, 0, 4);
if (read == 4)
{
length = BigEndianBinary.ToUInt32(buffer, 0);
skipped += 4;
}
else
{
return(null);
}
#region DrainValue
long bytesRead = 0;
while (length > bytesRead)
{
var remaining = (length - bytesRead);
var reading = remaining > DummyBufferForSkipping.Length ? DummyBufferForSkipping.Length : unchecked (( int )remaining);
bytesRead += source.Read(DummyBufferForSkipping, 0, reading);
if (bytesRead < reading)
{
return(null);
}
}
skipped += bytesRead;
#endregion DrainValue
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
continue;
}
case MessagePackCode.Array16:
{
skipped += 1;
ushort length;
var read = source.Read(buffer, 0, 2);
if (read == 2)
{
length = BigEndianBinary.ToUInt16(buffer, 0);
skipped += 2;
}
else
{
return(null);
}
if (length == 0)
{
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
}
else
{
#region PushContextCollection
if (remainingItems >= 0)
{
if (remainingCollections == null)
{
remainingCollections = new Int64Stack(4);
}
remainingCollections.Push(remainingItems);
}
remainingItems = length;
#endregion PushContextCollection
}
continue;
}
case MessagePackCode.Array32:
{
skipped += 1;
uint length;
var read = source.Read(buffer, 0, 4);
if (read == 4)
{
length = BigEndianBinary.ToUInt32(buffer, 0);
skipped += 4;
}
else
{
return(null);
}
if (length == 0)
{
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
}
else
{
#region PushContextCollection
if (remainingItems >= 0)
{
if (remainingCollections == null)
{
remainingCollections = new Int64Stack(4);
}
remainingCollections.Push(remainingItems);
}
remainingItems = length;
#endregion PushContextCollection
}
continue;
}
case MessagePackCode.Map16:
{
skipped += 1;
ushort length;
var read = source.Read(buffer, 0, 2);
if (read == 2)
{
length = BigEndianBinary.ToUInt16(buffer, 0);
skipped += 2;
}
else
{
return(null);
}
if (length == 0)
{
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
}
else
{
#region PushContextCollection
if (remainingItems >= 0)
{
if (remainingCollections == null)
{
remainingCollections = new Int64Stack(4);
}
remainingCollections.Push(remainingItems);
}
remainingItems = length * 2;
#endregion PushContextCollection
}
continue;
}
case MessagePackCode.Map32:
{
skipped += 1;
uint length;
var read = source.Read(buffer, 0, 4);
if (read == 4)
{
length = BigEndianBinary.ToUInt32(buffer, 0);
skipped += 4;
}
else
{
return(null);
}
if (length == 0)
{
#region TryPopContextCollection
remainingItems--;
if (remainingCollections != null)
{
while (remainingItems == 0 && remainingCollections.Count > 0)
{
if (remainingCollections.Count == 0)
{
break;
}
remainingItems = remainingCollections.Pop();
remainingItems--;
}
}
#endregion TryPopContextCollection
}
else
{
#region PushContextCollection
if (remainingItems >= 0)
{
if (remainingCollections == null)
{
remainingCollections = new Int64Stack(4);
}
remainingCollections.Push(remainingItems);
}
remainingItems = length * 2;
#endregion PushContextCollection
}
continue;
}
default:
{
throw new MessageTypeException(String.Format(CultureInfo.CurrentCulture, "Unknown header value 0x{0:X}", header));
}
}
} while (remainingItems > 0);
return(skipped);
}
private async Task <MessagePackExtendedTypeObject> ReadMessagePackExtendedTypeObjectAsyncCore(ReadValueResult type, CancellationToken cancellationToken)
{
byte typeCode;
uint length;
switch (type)
{
case ReadValueResult.FixExt1:
{
typeCode = await this.ReadByteStrictAsync(cancellationToken).ConfigureAwait(false);
length = 1;
break;
}
case ReadValueResult.FixExt2:
{
typeCode = await this.ReadByteStrictAsync(cancellationToken).ConfigureAwait(false);
length = 2;
break;
}
case ReadValueResult.FixExt4:
{
typeCode = await this.ReadByteStrictAsync(cancellationToken).ConfigureAwait(false);
length = 4;
break;
}
case ReadValueResult.FixExt8:
{
typeCode = await this.ReadByteStrictAsync(cancellationToken).ConfigureAwait(false);
length = 8;
break;
}
case ReadValueResult.FixExt16:
{
typeCode = await this.ReadByteStrictAsync(cancellationToken).ConfigureAwait(false);
length = 16;
break;
}
case ReadValueResult.Ext8:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(byte), cancellationToken).ConfigureAwait(false);
length = BigEndianBinary.ToByte(this._scalarBuffer, 0);
typeCode = this.ReadByteStrict();
break;
}
case ReadValueResult.Ext16:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(ushort), cancellationToken).ConfigureAwait(false);
length = BigEndianBinary.ToUInt16(this._scalarBuffer, 0);
typeCode = this.ReadByteStrict();
break;
}
case ReadValueResult.Ext32:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(uint), cancellationToken).ConfigureAwait(false);
length = BigEndianBinary.ToUInt32(this._scalarBuffer, 0);
typeCode = this.ReadByteStrict();
break;
}
default:
{
this.ThrowUnexpectedExtCodeException(type);
return(default(MessagePackExtendedTypeObject)); // Never reach
}
}
var data = new byte[length];
await this.ReadStrictAsync(data, data.Length, cancellationToken).ConfigureAwait(false);
this.InternalCollectionType = CollectionType.None;
return(new MessagePackExtendedTypeObject(typeCode, data));
}
private ReadValueResult ReadValue(out byte header, out long integral, out float real32, out double real64)
{
var readHeader = this.ReadByteFromSource();
// This is BAD practice for out, but it reduces IL size very well for this method.
integral = default(long);
real32 = default(float);
real64 = default(double);
if (readHeader < 0)
{
header = 0;
return(ReadValueResult.Eof);
}
header = unchecked (( byte )readHeader);
switch (header >> 4)
{
case 0x0:
case 0x1:
case 0x2:
case 0x3:
case 0x4:
case 0x5:
case 0x6:
case 0x7:
{
// PositiveFixNum
this.InternalCollectionType = CollectionType.None;
integral = header;
return(ReadValueResult.Byte);
}
case 0x8:
{
// FixMap
integral = header & 0xF;
return(ReadValueResult.MapLength);
}
case 0x9:
{
// FixArray
integral = header & 0xF;
return(ReadValueResult.ArrayLength);
}
case 0xA:
case 0xB:
{
// FixRaw
integral = header & 0x1F;
return(ReadValueResult.String);
}
case 0xE:
case 0xF:
{
// NegativeFixNum
this.InternalCollectionType = CollectionType.None;
integral = header | unchecked (( long )0xFFFFFFFFFFFFFF00);
return(ReadValueResult.SByte);
}
}
switch (header)
{
case MessagePackCode.NilValue:
{
return(ReadValueResult.Nil);
}
case MessagePackCode.TrueValue:
{
integral = 1;
return(ReadValueResult.Boolean);
}
case MessagePackCode.FalseValue:
{
integral = 0;
return(ReadValueResult.Boolean);
}
case MessagePackCode.SignedInt8:
{
this.ReadStrict(this._scalarBuffer, sizeof(sbyte));
integral = BigEndianBinary.ToSByte(this._scalarBuffer, 0);
return(ReadValueResult.SByte);
}
case MessagePackCode.SignedInt16:
{
this.ReadStrict(this._scalarBuffer, sizeof(short));
integral = BigEndianBinary.ToInt16(this._scalarBuffer, 0);
return(ReadValueResult.Int16);
}
case MessagePackCode.SignedInt32:
{
this.ReadStrict(this._scalarBuffer, sizeof(int));
integral = BigEndianBinary.ToInt32(this._scalarBuffer, 0);
return(ReadValueResult.Int32);
}
case MessagePackCode.SignedInt64:
{
this.ReadStrict(this._scalarBuffer, sizeof(long));
integral = BigEndianBinary.ToInt64(this._scalarBuffer, 0);
return(ReadValueResult.Int64);
}
case MessagePackCode.UnsignedInt8:
{
this.ReadStrict(this._scalarBuffer, sizeof(byte));
integral = BigEndianBinary.ToByte(this._scalarBuffer, 0);
return(ReadValueResult.Byte);
}
case MessagePackCode.UnsignedInt16:
{
this.ReadStrict(this._scalarBuffer, sizeof(ushort));
integral = BigEndianBinary.ToUInt16(this._scalarBuffer, 0);
return(ReadValueResult.UInt16);
}
case MessagePackCode.UnsignedInt32:
{
this.ReadStrict(this._scalarBuffer, sizeof(uint));
integral = BigEndianBinary.ToUInt32(this._scalarBuffer, 0);
return(ReadValueResult.UInt32);
}
case MessagePackCode.UnsignedInt64:
{
this.ReadStrict(this._scalarBuffer, sizeof(ulong));
integral = unchecked (( long )BigEndianBinary.ToUInt64(this._scalarBuffer, 0));
return(ReadValueResult.UInt64);
}
case MessagePackCode.Real32:
{
this.ReadStrict(this._scalarBuffer, sizeof(float));
real32 = BigEndianBinary.ToSingle(this._scalarBuffer, 0);
return(ReadValueResult.Single);
}
case MessagePackCode.Real64:
{
this.ReadStrict(this._scalarBuffer, sizeof(double));
real64 = BigEndianBinary.ToDouble(this._scalarBuffer, 0);
return(ReadValueResult.Double);
}
case MessagePackCode.Bin8:
{
this.ReadStrict(this._scalarBuffer, sizeof(byte));
integral = BigEndianBinary.ToByte(this._scalarBuffer, 0);
return(ReadValueResult.Binary);
}
case MessagePackCode.Str8:
{
this.ReadStrict(this._scalarBuffer, sizeof(byte));
integral = BigEndianBinary.ToByte(this._scalarBuffer, 0);
return(ReadValueResult.String);
}
case MessagePackCode.Bin16:
{
this.ReadStrict(this._scalarBuffer, sizeof(ushort));
integral = BigEndianBinary.ToUInt16(this._scalarBuffer, 0);
return(ReadValueResult.Binary);
}
case MessagePackCode.Raw16:
{
this.ReadStrict(this._scalarBuffer, sizeof(ushort));
integral = BigEndianBinary.ToUInt16(this._scalarBuffer, 0);
return(ReadValueResult.String);
}
case MessagePackCode.Bin32:
{
this.ReadStrict(this._scalarBuffer, sizeof(uint));
integral = BigEndianBinary.ToUInt32(this._scalarBuffer, 0);
return(ReadValueResult.Binary);
}
case MessagePackCode.Raw32:
{
this.ReadStrict(this._scalarBuffer, sizeof(uint));
integral = BigEndianBinary.ToUInt32(this._scalarBuffer, 0);
return(ReadValueResult.String);
}
case MessagePackCode.Array16:
{
this.ReadStrict(this._scalarBuffer, sizeof(ushort));
integral = BigEndianBinary.ToUInt16(this._scalarBuffer, 0);
return(ReadValueResult.ArrayLength);
}
case MessagePackCode.Array32:
{
this.ReadStrict(this._scalarBuffer, sizeof(uint));
integral = BigEndianBinary.ToUInt32(this._scalarBuffer, 0);
return(ReadValueResult.ArrayLength);
}
case MessagePackCode.Map16:
{
this.ReadStrict(this._scalarBuffer, sizeof(ushort));
integral = BigEndianBinary.ToUInt16(this._scalarBuffer, 0);
return(ReadValueResult.MapLength);
}
case MessagePackCode.Map32:
{
this.ReadStrict(this._scalarBuffer, sizeof(uint));
integral = BigEndianBinary.ToUInt32(this._scalarBuffer, 0);
return(ReadValueResult.MapLength);
}
case MessagePackCode.FixExt1:
{
return(ReadValueResult.FixExt1);
}
case MessagePackCode.FixExt2:
{
return(ReadValueResult.FixExt2);
}
case MessagePackCode.FixExt4:
{
return(ReadValueResult.FixExt4);
}
case MessagePackCode.FixExt8:
{
return(ReadValueResult.FixExt8);
}
case MessagePackCode.FixExt16:
{
return(ReadValueResult.FixExt16);
}
case MessagePackCode.Ext8:
{
return(ReadValueResult.Ext8);
}
case MessagePackCode.Ext16:
{
return(ReadValueResult.Ext16);
}
case MessagePackCode.Ext32:
{
return(ReadValueResult.Ext32);
}
default:
{
this.ThrowUnassignedMessageTypeException(readHeader);
// Never reach
return(ReadValueResult.Eof);
}
}
}
private async Task <AsyncReadValueResult> ReadValueAsync(CancellationToken cancellationToken)
{
var readHeader = await this.ReadByteFromSourceAsync(cancellationToken).ConfigureAwait(false);
var result = default(AsyncReadValueResult);
if (readHeader < 0)
{
return(result);
}
var header = unchecked (( byte )readHeader);
result.header = header;
switch (header >> 4)
{
case 0x0:
case 0x1:
case 0x2:
case 0x3:
case 0x4:
case 0x5:
case 0x6:
case 0x7:
{
// PositiveFixNum
this.InternalCollectionType = CollectionType.None;
result.integral = header;
result.type = ReadValueResult.Byte;
return(result);
}
case 0x8:
{
// FixMap
result.integral = header & 0xF;
result.type = ReadValueResult.MapLength;
return(result);
}
case 0x9:
{
// FixArray
result.integral = header & 0xF;
result.type = ReadValueResult.ArrayLength;
return(result);
}
case 0xA:
case 0xB:
{
// FixRaw
result.integral = header & 0x1F;
result.type = ReadValueResult.String;
return(result);
}
case 0xE:
case 0xF:
{
// NegativeFixNum
this.InternalCollectionType = CollectionType.None;
result.integral = header | unchecked (( long )0xFFFFFFFFFFFFFF00);
result.type = ReadValueResult.SByte;
return(result);
}
}
switch (header)
{
case MessagePackCode.NilValue:
{
result.type = ReadValueResult.Nil;
return(result);
}
case MessagePackCode.TrueValue:
{
result.integral = 1;
result.type = ReadValueResult.Boolean;
return(result);
}
case MessagePackCode.FalseValue:
{
result.integral = 0;
result.type = ReadValueResult.Boolean;
return(result);
}
case MessagePackCode.SignedInt8:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(sbyte), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToSByte(this._scalarBuffer, 0);
result.type = ReadValueResult.SByte;
return(result);
}
case MessagePackCode.SignedInt16:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(short), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToInt16(this._scalarBuffer, 0);
result.type = ReadValueResult.Int16;
return(result);
}
case MessagePackCode.SignedInt32:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(int), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToInt32(this._scalarBuffer, 0);
result.type = ReadValueResult.Int32;
return(result);
}
case MessagePackCode.SignedInt64:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(long), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToInt64(this._scalarBuffer, 0);
result.type = ReadValueResult.Int64;
return(result);
}
case MessagePackCode.UnsignedInt8:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(byte), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToByte(this._scalarBuffer, 0);
result.type = ReadValueResult.Byte;
return(result);
}
case MessagePackCode.UnsignedInt16:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(ushort), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToUInt16(this._scalarBuffer, 0);
result.type = ReadValueResult.UInt16;
return(result);
}
case MessagePackCode.UnsignedInt32:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(uint), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToUInt32(this._scalarBuffer, 0);
result.type = ReadValueResult.UInt32;
return(result);
}
case MessagePackCode.UnsignedInt64:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(ulong), cancellationToken).ConfigureAwait(false);
result.integral = unchecked (( long )BigEndianBinary.ToUInt64(this._scalarBuffer, 0));
result.type = ReadValueResult.UInt64;
return(result);
}
case MessagePackCode.Real32:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(float), cancellationToken).ConfigureAwait(false);
result.real32 = BigEndianBinary.ToSingle(this._scalarBuffer, 0);
result.type = ReadValueResult.Single;
return(result);
}
case MessagePackCode.Real64:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(double), cancellationToken).ConfigureAwait(false);
result.real64 = BigEndianBinary.ToDouble(this._scalarBuffer, 0);
result.type = ReadValueResult.Double;
return(result);
}
case MessagePackCode.Bin8:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(byte), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToByte(this._scalarBuffer, 0);
result.type = ReadValueResult.Binary;
return(result);
}
case MessagePackCode.Str8:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(byte), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToByte(this._scalarBuffer, 0);
result.type = ReadValueResult.String;
return(result);
}
case MessagePackCode.Bin16:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(ushort), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToUInt16(this._scalarBuffer, 0);
result.type = ReadValueResult.Binary;
return(result);
}
case MessagePackCode.Raw16:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(ushort), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToUInt16(this._scalarBuffer, 0);
result.type = ReadValueResult.String;
return(result);
}
case MessagePackCode.Bin32:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(uint), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToUInt32(this._scalarBuffer, 0);
result.type = ReadValueResult.Binary;
return(result);
}
case MessagePackCode.Raw32:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(uint), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToUInt32(this._scalarBuffer, 0);
result.type = ReadValueResult.String;
return(result);
}
case MessagePackCode.Array16:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(ushort), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToUInt16(this._scalarBuffer, 0);
result.type = ReadValueResult.ArrayLength;
return(result);
}
case MessagePackCode.Array32:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(uint), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToUInt32(this._scalarBuffer, 0);
result.type = ReadValueResult.ArrayLength;
return(result);
}
case MessagePackCode.Map16:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(ushort), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToUInt16(this._scalarBuffer, 0);
result.type = ReadValueResult.MapLength;
return(result);
}
case MessagePackCode.Map32:
{
await this.ReadStrictAsync(this._scalarBuffer, sizeof(uint), cancellationToken).ConfigureAwait(false);
result.integral = BigEndianBinary.ToUInt32(this._scalarBuffer, 0);
result.type = ReadValueResult.MapLength;
return(result);
}
case MessagePackCode.FixExt1:
{
result.type = ReadValueResult.FixExt1;
return(result);
}
case MessagePackCode.FixExt2:
{
result.type = ReadValueResult.FixExt2;
return(result);
}
case MessagePackCode.FixExt4:
{
result.type = ReadValueResult.FixExt4;
return(result);
}
case MessagePackCode.FixExt8:
{
result.type = ReadValueResult.FixExt8;
return(result);
}
case MessagePackCode.FixExt16:
{
result.type = ReadValueResult.FixExt16;
return(result);
}
case MessagePackCode.Ext8:
{
result.type = ReadValueResult.Ext8;
return(result);
}
case MessagePackCode.Ext16:
{
result.type = ReadValueResult.Ext16;
return(result);
}
case MessagePackCode.Ext32:
{
result.type = ReadValueResult.Ext32;
return(result);
}
default:
{
this.ThrowUnassignedMessageTypeException(readHeader);
// Never reach
result.type = ReadValueResult.Eof;
return(result);
}
}
}
private MessagePackExtendedTypeObject ReadMessagePackExtendedTypeObjectCore(ReadValueResult type)
{
byte typeCode;
uint length;
switch (type)
{
case ReadValueResult.FixExt1:
{
typeCode = this.ReadByteStrict();
length = 1;
break;
}
case ReadValueResult.FixExt2:
{
typeCode = this.ReadByteStrict();
length = 2;
break;
}
case ReadValueResult.FixExt4:
{
typeCode = this.ReadByteStrict();
length = 4;
break;
}
case ReadValueResult.FixExt8:
{
typeCode = this.ReadByteStrict();
length = 8;
break;
}
case ReadValueResult.FixExt16:
{
typeCode = this.ReadByteStrict();
length = 16;
break;
}
case ReadValueResult.Ext8:
{
this.ReadStrict(this._scalarBuffer, sizeof(byte));
length = BigEndianBinary.ToByte(this._scalarBuffer, 0);
typeCode = this.ReadByteStrict();
break;
}
case ReadValueResult.Ext16:
{
this.ReadStrict(this._scalarBuffer, sizeof(ushort));
length = BigEndianBinary.ToUInt16(this._scalarBuffer, 0);
typeCode = this.ReadByteStrict();
break;
}
case ReadValueResult.Ext32:
{
this.ReadStrict(this._scalarBuffer, sizeof(uint));
length = BigEndianBinary.ToUInt32(this._scalarBuffer, 0);
typeCode = this.ReadByteStrict();
break;
}
default:
{
ThrowUnexpectedExtCodeException(type);
return(default(MessagePackExtendedTypeObject)); // Never reach
}
}
var data = new byte[length];
this.ReadStrict(data, data.Length);
this.InternalCollectionType = CollectionType.None;
return(new MessagePackExtendedTypeObject(typeCode, data));
}