Storage | Messaging | Reflection
.NET library with advanced reflection APIs like XML documentation reading, Nullable Reference Types (C# 8) reflection and string based type checks.
This library is mainly used in NJsonSchema and NSwag.
Inheritance hierarchy:
- CachedType: A cached
Type
object which does not have a context- ContextualType: A cached
Type
with contextual attributes (e.g. property attributes)- ContextualParameterInfo
- ContextualMemberInfo
- ContextualPropertyInfo
- ContextualFieldInfo
- ContextualType: A cached
Behavior:
- Each
CachedType
instance is cached perType
,ParameterInfo
orMemberInfo
. - Contextual and type attributes are evaluated only once and then cached for higher performance.
- If the original
Type
isNullable<T>
thenT
is unwrapped and stored in theType
property - the original type can be accessed with theOriginalType
property.
With the ContextualType
class you can reflect on the nullability of properties, fields, method parameters and return types which will be available when compiling with the C# 8 compiler with the Nullable Reference Types feature enabled.
Given the following test class with some C# 8 nullability annotations (?):
#nullable enable
public class MyClass
{
public void MyMethod(Dictionary<string, string?> dictionary)
{
}
}
To reflect on the first parameter's nullability, we can load a ContextualType
instance and display the nullability of the parameter's types:
using Namotion.Reflection;
var method = typeof(MyClass).GetMethod(nameof(MyClass.MyMethod));
var parameter = method.GetParameters().First();
var contextualParameter = parameter.ToContextualParameter();
Console.WriteLine("Dictionary: " + contextualParameter.Nullability);
Console.WriteLine("Key: " + contextualParameter.GenericArguments[0].Nullability);
Console.WriteLine("Value: " + contextualParameter.GenericArguments[1].Nullability);
The output is:
Dictionary: NotNullable
Key: NotNullable
Value: Nullable
For more details, see https://blog.rsuter.com/the-output-of-nullable-reference-types-and-how-to-reflect-it/
Methods:
- CachedType.ClearCache()
It is important to understand that Nullable Reference Types is a compiler feature only and the .NET runtime does not do any checks when your app is running. Consider the following class:
public class Person
{
public string FirstName { get; set; }
public string? MiddleName { get; set; }
public string LastName { get; set; }
}
Inside your application you'll get warnings when you forget to set the FirstName
. However when data is coming from outside (e.g. via reflection, serialization, etc.) you could end up with invalid objects. This JSON.NET call throws no exception but will create an invalid object:
var person = JsonConvert.DeserializeObject<Person>("{}");
Call the EnsureValidNullability()
extension method which throws an InvalidOperationException
when the object is in an invalid state:
person.EnsureValidNullability();
Methods:
- HasValidNullability();
- EnsureValidNullability();
- ValidateNullability();
Methods:
-
Type|MemberInfo.GetXmlDocsSummaryAsync():
-
Type|MemberInfo.GetXmlDocsRemarksAsync():
-
ParameterInfo.GetXmlDocsAsync(): Gets the parameter's description
-
ParameterInfo.GetXmlDocsElementAsync(): Gets the
XElement
of the given type -
... and more
-
XmlDocs.ClearCache()
This functionality can also be used with Cecil types with the Namotion.Reflection.Cecil package.
Methods:
IEnumerable extensions
- GetAssignableToTypeName(): Gets all objects which are assignable to the given type name as string.
- FirstAssignableToTypeNameOrDefault(): Tries to get the first object which is assignable to the given type name as string.
- GetCommonBaseType(): Finds the first common base type of the given types.
Object extensions
- HasProperty(): Determines whether the specified property name exists.
- TryGetPropertyValue(): Determines whether the specified property name exists.
Type extensions
- IsAssignableToTypeName()
- InheritsFromTypeName()
- GetEnumerableItemType()
- GetDisplayName(): Gets a human readable identifier for the type (eg. "DictionaryOfStringAndInt32").