public BlobReader Skip()
{
var reader = _reader;
while (reader.IsCustomModifier())
reader = new CustomModifierSignature(reader).Skip();
switch (reader.PeekSignatureTypeCode())
{
case SignatureTypeCode.ByReference:
reader.ReadSignatureTypeCode();
goto default;
case SignatureTypeCode.TypedReference:
case SignatureTypeCode.Void:
reader.ReadSignatureTypeCode();
break;
default:
reader = new TypeSignature(reader).Skip();
break;
}
return reader;
}
public BlobReader Skip()
{
BlobReader reader = _reader;
reader.ReadSignatureHeader();
int parameterCount = reader.ReadCompressedInteger();
while (reader.IsCustomModifier())
reader = new CustomModifierSignature(reader).Skip();
reader = new TypeSignature(reader).Skip();
for (int i = 0; i < parameterCount; i++)
reader = new ParameterSignature(reader).Skip();
return reader;
}
private bool IsSameTypeSignature(MetadataReader referenceMetadata, MetadataReader newMetadata, TypeSignature referenceSignature, TypeSignature newSignature)
{
if (referenceSignature.TypeCode != newSignature.TypeCode)
return false;
switch (referenceSignature.TypeCode)
{
case SignatureTypeCode.Boolean:
case SignatureTypeCode.Char:
case SignatureTypeCode.SByte:
case SignatureTypeCode.Byte:
case SignatureTypeCode.Int16:
case SignatureTypeCode.UInt16:
case SignatureTypeCode.Int32:
case SignatureTypeCode.UInt32:
case SignatureTypeCode.Int64:
case SignatureTypeCode.UInt64:
case SignatureTypeCode.IntPtr:
case SignatureTypeCode.UIntPtr:
case SignatureTypeCode.Single:
case SignatureTypeCode.Double:
return true;
case SignatureTypeCode.Object:
case SignatureTypeCode.String:
return true;
case SignatureTypeCode.Array:
throw new NotImplementedException(string.Format("{0} is not yet implemented.", referenceSignature.TypeCode));
case SignatureTypeCode.FunctionPointer:
throw new NotImplementedException(string.Format("{0} is not yet implemented.", referenceSignature.TypeCode));
case SignatureTypeCode.GenericTypeInstance:
if (!IsSameType(referenceMetadata, newMetadata, referenceSignature.TypeHandle, newSignature.TypeHandle))
return false;
ImmutableArray<TypeSignature> referenceGenericArguments = referenceSignature.GenericTypeArguments;
ImmutableArray<TypeSignature> newGenericArguments = newSignature.GenericTypeArguments;
if (referenceGenericArguments.Length != newGenericArguments.Length)
return false;
for (int i = 0; i < referenceGenericArguments.Length; i++)
{
if (!IsSameTypeSignature(referenceMetadata, newMetadata, referenceGenericArguments[i], newGenericArguments[i]))
return false;
}
return true;
case SignatureTypeCode.GenericMethodParameter:
case SignatureTypeCode.GenericTypeParameter:
return referenceSignature.GenericParameterIndex == newSignature.GenericParameterIndex;
case SignatureTypeCode.TypeHandle:
Handle referenceTypeHandle = referenceSignature.TypeHandle;
Handle newTypeHandle = newSignature.TypeHandle;
return IsSameType(referenceMetadata, newMetadata, referenceTypeHandle, newTypeHandle);
case SignatureTypeCode.Pointer:
throw new NotImplementedException(string.Format("{0} is not yet implemented.", referenceSignature.TypeCode));
case SignatureTypeCode.SZArray:
if (!referenceSignature.CustomModifiers.IsEmpty || !newSignature.CustomModifiers.IsEmpty)
throw new NotImplementedException();
return IsSameTypeSignature(referenceMetadata, newMetadata, referenceSignature.ElementType, newSignature.ElementType);
default:
throw new InvalidOperationException("Invalid signature type code.");
}
}
private string CompareTypeSignatures(TypeSignature sourceSignature, TypeSignature targetSignature)
{
if (sourceSignature.TypeCode != targetSignature.TypeCode)
return "Type mismatch";
switch (sourceSignature.TypeCode)
{
case SignatureTypeCode.Boolean:
case SignatureTypeCode.Char:
case SignatureTypeCode.SByte:
case SignatureTypeCode.Byte:
case SignatureTypeCode.Int16:
case SignatureTypeCode.UInt16:
case SignatureTypeCode.Int32:
case SignatureTypeCode.UInt32:
case SignatureTypeCode.Int64:
case SignatureTypeCode.UInt64:
case SignatureTypeCode.IntPtr:
case SignatureTypeCode.UIntPtr:
case SignatureTypeCode.Single:
case SignatureTypeCode.Double:
return null;
case SignatureTypeCode.Object:
case SignatureTypeCode.String:
return null;
case SignatureTypeCode.Array:
throw new NotImplementedException(string.Format("{0} is not yet implemented.", sourceSignature.TypeCode));
case SignatureTypeCode.FunctionPointer:
throw new NotImplementedException(string.Format("{0} is not yet implemented.", sourceSignature.TypeCode));
case SignatureTypeCode.GenericTypeInstance:
if (!IsSameHandle(sourceSignature.TypeHandle, targetSignature.TypeHandle))
return "Unbound generic type does not match.";
ImmutableArray<TypeSignature> sourceGenericArguments = sourceSignature.GenericTypeArguments;
ImmutableArray<TypeSignature> targetGenericArguments = targetSignature.GenericTypeArguments;
if (sourceGenericArguments.Length != targetGenericArguments.Length)
return "Generic arity does not match.";
for (int i = 0; i < sourceGenericArguments.Length; i++)
{
string genericParameterResult = CompareTypeSignatures(sourceGenericArguments[i], targetGenericArguments[i]);
if (genericParameterResult != null)
return string.Format("Generic parameter {0} does not match: {1}", i, genericParameterResult);
}
return null;
case SignatureTypeCode.GenericMethodParameter:
case SignatureTypeCode.GenericTypeParameter:
if (sourceSignature.GenericParameterIndex != targetSignature.GenericParameterIndex)
return "Generic parameter index differs.";
return null;
case SignatureTypeCode.TypeHandle:
throw new NotImplementedException(string.Format("{0} is not yet implemented.", sourceSignature.TypeCode));
//Handle referenceTypeHandle = sourceSignature.TypeHandle;
//Handle newTypeHandle = targetSignature.TypeHandle;
//return IsSameType(referenceMetadata, newMetadata, referenceTypeHandle, newTypeHandle);
case SignatureTypeCode.Pointer:
throw new NotImplementedException(string.Format("{0} is not yet implemented.", sourceSignature.TypeCode));
case SignatureTypeCode.SZArray:
if (!sourceSignature.CustomModifiers.IsEmpty || !targetSignature.CustomModifiers.IsEmpty)
throw new NotImplementedException();
string szArrayResult = CompareTypeSignatures(sourceSignature.ElementType, targetSignature.ElementType);
if (szArrayResult != null)
szArrayResult = string.Format("SZArray element type mismatch: {0}", szArrayResult);
return szArrayResult;
default:
throw new InvalidOperationException("Invalid signature type code.");
}
}
public BlobReader Skip()
{
BlobReader reader = _reader;
SignatureTypeCode typeCode = reader.ReadSignatureTypeCode();
switch (typeCode)
{
case SignatureTypeCode.Boolean:
case SignatureTypeCode.Char:
case SignatureTypeCode.SByte:
case SignatureTypeCode.Byte:
case SignatureTypeCode.Int16:
case SignatureTypeCode.UInt16:
case SignatureTypeCode.Int32:
case SignatureTypeCode.UInt32:
case SignatureTypeCode.Int64:
case SignatureTypeCode.UInt64:
case SignatureTypeCode.IntPtr:
case SignatureTypeCode.UIntPtr:
case SignatureTypeCode.Single:
case SignatureTypeCode.Double:
break;
case SignatureTypeCode.Object:
case SignatureTypeCode.String:
break;
case SignatureTypeCode.Array:
reader = new TypeSignature(reader).Skip();
reader = new ArrayShapeSignature(reader).Skip();
break;
case SignatureTypeCode.FunctionPointer:
throw new NotImplementedException(string.Format("{0} is not yet implemented.", typeCode));
case SignatureTypeCode.GenericTypeInstance:
reader.ReadSignatureTypeCode();
reader.ReadTypeHandle();
int argumentCount = reader.ReadCompressedInteger();
for (int i = 0; i < argumentCount; i++)
reader = new TypeSignature(reader).Skip();
break;
case SignatureTypeCode.GenericMethodParameter:
case SignatureTypeCode.GenericTypeParameter:
// skip the generic parameter index
reader.ReadCompressedInteger();
break;
case SignatureTypeCode.TypeHandle:
reader.ReadTypeHandle();
break;
case SignatureTypeCode.Pointer:
while (reader.IsCustomModifier())
reader = new CustomModifierSignature(reader).Skip();
if (reader.PeekSignatureTypeCode() == SignatureTypeCode.Void)
reader.ReadSignatureTypeCode();
else
reader = new TypeSignature(reader).Skip();
break;
case SignatureTypeCode.SZArray:
while (reader.IsCustomModifier())
reader = new CustomModifierSignature(reader).Skip();
reader = new TypeSignature(reader).Skip();
break;
default:
throw new InvalidOperationException("Invalid signature type code.");
}
return reader;
}
