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I have a block of code that serializes a type into a Html tag.

Type t = typeof(T); // I pass <T> in as a paramter, where myObj is of type T
tagBuilder.Attributes.Add("class", t.Name);
foreach (PropertyInfo prop in t.GetProperties())
    object propValue = prop.GetValue(myObj, null);
    string stringValue = propValue != null ? propValue.ToString() : String.Empty;
    tagBuilder.Attributes.Add(prop.Name, stringValue);

This works great, except I want it to only do this for primitive types, like int, double, bool etc, and other types that aren't primitive but can be serialized easily like string. I want it to ignore everything else like Lists & other custom types.

Can anyone suggest how I do this? Or do I need to specify the types I want to allow somewhere and switch on the property's type to see if it's allowed? That's a little messy, so it'd be nice if I there was a tidier way.

share|improve this question
System.String is not a primitive type. – SLaks Mar 14 '10 at 15:02
The better way to do it is to not use generics at all. If you support a small number of types as legal parameter types then simply have that many overloads. If you support any type that implements ISerializable, then write a non-generic method that takes an ISerializable. Use generics for things which are actually generic; if the type actually matters, its probably not generic. – Eric Lippert Mar 14 '10 at 20:37
@Eric: Thanks, I am also wondering if you can use the same criteria with numerics? For instance to write mathematical functions that support all numeric types, i.e. Average, Sum, etc. Should they be implemented using Generic or overloads? Does it matter whether the implementation is the same or not? Because it's pretty much the same operation for Average, Sum for any numeric type, right? – Joan Venge Mar 15 '10 at 20:53
@Joan: Being able to write generic arithmetic methods on types constrained to implement various operators is a frequently requested feature, but it requires CLR support and is surprisingly complicated. We're considering it for future versions of the language, but no promises. – Eric Lippert Mar 16 '10 at 5:45

12 Answers 12

up vote 105 down vote accepted

You can use the property Type.IsPrimitive, but be carefull because there are some types that we can think that are primitives, but they aren´t, for example Decimal and String.

Edit 1: Added sample code

Here is a sample code:

if (t.IsPrimitive || t == typeof(Decimal) || t == typeof(String) || ... )
    // Is Primitive, or Decimal, or String

Edit 2: As @SLaks comments, there are other types that maybe you want to treat as primitives, too. I think that you´ll have to add this variations one by one.

Edit 3: IsPrimitive = (Boolean, Byte, SByte, Int16, UInt16, Int32, UInt32, Int64, UInt64, IntPtr, UIntPtr, Char, Double, and Single), Anther Primitive-Like type to check (t == typeof(DateTime))

share|improve this answer
And perhaps DateTime, TimeSpan, and DateTimeOffset. – SLaks Mar 14 '10 at 15:08
Mmmm... yes, you are right. I think we´ll have to add some more possibilities – Javier Mar 14 '10 at 15:09
You need to use the logical or (||), not the bitwise or (|). – SLaks Mar 14 '10 at 15:14
Why the bitwise or? – Motti Mar 14 '10 at 15:14
Here's an extension method I wrote to conveniently run the tests described in the answers by @Javier and Michael Petito: – jonathanconway Aug 12 '12 at 8:13

I just found this question while looking for a similar solution, and thought you might be interested in the following approach using System.TypeCode and System.Convert.

It is easy to serialize any type that is mapped to a System.TypeCode other than System.TypeCode.Object, so you could do:

object PropertyValue = ...
if(Convert.GetTypeCode(PropertyValue) != TypeCode.Object)
    string StringValue = Convert.ToString(PropertyValue);

The advantage with this approach is you don't have to name every other acceptable non-primitive type. You could also modify the above code slightly to handle any type that implements IConvertible.

share|improve this answer
This is great, I had to manually add Guid for my own purposes (as a primitive in my definition). – Erik Philips Jul 27 '12 at 22:54

We do it like this in our ORM:

Type t;
bool isPrimitiveType = t.IsPrimitive || t.IsValueType || (t == typeof(string));

I know that using IsValueType is not the best option (you can have your own very complex structs) but it works in 99% cases

share|improve this answer
Why do you need IsPrimitive if you are using IsValueType? Are not all primitives value types? – JoelFan Oct 29 '14 at 19:22
@JoelFan decimal type has IsPrimitive false, but IsValueType true – xhafan Dec 9 '14 at 8:04
@xhafan: You answer the wrong question. All structs are like decimal in that regard. But are there a type for which IsPrimitive returns true but IsValueType returns false? If there are no such type then the t.IsPrimitive test is unnecessary. – Lii Jan 13 '15 at 8:21
@Lii you are right, every primitive type has IsValueType set to true, so checking for IsPrimitive is not need. Cheers! – xhafan Jan 13 '15 at 14:17
So what is then the answer to "why does the framework provide 2 properties that represent the very same data" ? – Veverke Apr 20 '15 at 14:33

Here's how I did it.

   static class PrimitiveTypes
       public static readonly Type[] List;

       static PrimitiveTypes()
           var types = new[]
                              typeof (Enum),
                              typeof (String),
                              typeof (Char),
                              typeof (Guid),

                              typeof (Boolean),
                              typeof (Byte),
                              typeof (Int16),
                              typeof (Int32),
                              typeof (Int64),
                              typeof (Single),
                              typeof (Double),
                              typeof (Decimal),

                              typeof (SByte),
                              typeof (UInt16),
                              typeof (UInt32),
                              typeof (UInt64),

                              typeof (DateTime),
                              typeof (DateTimeOffset),
                              typeof (TimeSpan),

           var nullTypes = from t in types
                           where t.IsValueType
                           select typeof (Nullable<>).MakeGenericType(t);

           List = types.Concat(nullTypes).ToArray();

       public static bool Test(Type type)
           if (List.Any(x => x.IsAssignableFrom(type)))
               return true;

           var nut = Nullable.GetUnderlyingType(type);
           return nut != null && nut.IsEnum;
share|improve this answer
I would add Guid as well, but it is a pretty good list – Marco Jan 23 '15 at 20:10
Nice work on that. – Jerry Nixon - MSFT Apr 10 '15 at 23:16

From @Ronnie Overby response and @jonathanconway comment, I wrote this method that works for Nullable, and exclude user structs.

public static bool IsSimpleType(Type type)
        type.IsPrimitive ||
        new Type[] {
        }.Contains(type) ||
        Convert.GetTypeCode(type) != TypeCode.Object ||
        (type.IsGenericType && type.GetGenericTypeDefinition() == typeof(Nullable<>) && IsSimpleType(type.GetGenericArguments()[0]))

With the following TestCase :

struct TestStruct
    public string Prop1;
    public int Prop2;

class TestClass1
    public string Prop1;
    public int Prop2;

public void Test1()









share|improve this answer

I just want to share my solution. Perhaps it's useful to anyone.

public static bool IsPrimitiveType(Type fieldType)
   return fieldType.IsPrimitive || fieldType.Namespace.Equals("System");
share|improve this answer
IsPrimitiveType(typeof(System.AccessViolationException)) == true – Ronnie Overby Apr 6 '15 at 20:48
namespace System { class MyNonPrimitiveType { } } – Ronnie Overby Apr 6 '15 at 20:48

Assuming you have a function signature like this:

void foo<T>() 

You could add a generic constraint to allow value types only:

void foo<T>() where T : struct

Notice that this allows not only primitive types for T, but any value type.

share|improve this answer

I had a need to serialize types for the purposes of exporting them to XML. To do this, I iterated through the object and opted for fields that were primitive, enum, value types or serializable. This was the result of my query:

Type contextType = context.GetType();

var props = (from property in contextType.GetProperties()
                         let name = property.Name
                         let type = property.PropertyType
                         let value = property.GetValue(context,
                                     (BindingFlags.GetProperty | BindingFlags.GetField | BindingFlags.Public),
                                     null, null, null)
                         where (type.IsPrimitive || type.IsEnum || type.IsValueType || type.IsSerializable)
                         select new { Name = name, Value = value});

I used LINQ to iterate through the types, then get their name and value to store in a symbol table. The key is in the 'where' clause that I chose for reflection. I chose primitive, enumerated, value types and serializable types. This allowed for strings and DateTime objects to come through as I expected.


share|improve this answer

Also a good possibility:

private static bool IsPrimitiveType(Type type)
    return (type == typeof(object) || Type.GetTypeCode(type) != TypeCode.Object);
share|improve this answer
Every instance of Type has a property called IsPrimitive. You should use that instead. – Renan Jun 17 '13 at 13:49
Neither String nor Decimal are primitives. – k3flo Jun 19 '13 at 18:20
This works for me, but I renamed to IsClrType to not confuse its meaning with the existing .IsPrimitive on the Type class – KnarfaLingus Apr 28 '15 at 21:28

This is what I have in my library. Comments are welcome.

I check IsValueType first, since it handles most types, then String, since it's the second most common. I can't think of a primitive that isn't a value type, so I don't know if that leg of the if ever gets hit.

  Public Shared Function IsPersistable(Type As System.Type) As Boolean
    With TypeInformation.UnderlyingType(Type)
      Return .IsValueType OrElse Type = GetType(String) OrElse .IsPrimitive
    End With
  End Function

  Public Shared Function IsNullable(ByVal Type As System.Type) As Boolean
    Return (Type.IsGenericType) AndAlso (Type.GetGenericTypeDefinition() Is GetType(Nullable(Of )))
  End Function

  Public Shared Function UnderlyingType(ByVal Type As System.Type) As System.Type
    If IsNullable(Type) Then
      Return Nullable.GetUnderlyingType(Type)
      Return Type
    End If
  End Function

Then I can use it like this:

  Public Shared Function PersistableProperties(Item As System.Type) As IEnumerable(Of System.Reflection.PropertyInfo)
    Return From PropertyInfo In Item.GetProperties()
                     Where PropertyInfo.CanWrite AndAlso (IsPersistable(PropertyInfo.PropertyType))
                     Select PropertyInfo
  End Function
share|improve this answer
public static bool IsPrimitiveType(object myObject)
   var myType = myObject.GetType();
   return myType.IsPrimitive || myType.Namespace == null ||  myType.Namespace.Equals("System");

Don't forget to check NULL namespace, because anonymous objects don't have assigned namespace

share|improve this answer

Here is another viable option.

public static bool CanDirectlyCompare(Type type)
    return typeof(IComparable).IsAssignableFrom(type) || type.IsPrimitive || type.IsValueType;
share|improve this answer

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