dynamic (C# Reference)
The dynamic type enables the operations in which it occurs to bypass compile-time type checking. Instead, these operations are resolved at run time. The dynamic type simplifies access to COM APIs such as the Office Automation APIs, and also to dynamic APIs such as IronPython libraries, and to the HTML Document Object Model (DOM).
Type dynamic behaves like type object in most circumstances. However, operations that contain expressions of type dynamic are not resolved or type checked by the compiler. The compiler packages together information about the operation, and that information is later used to evaluate the operation at run time. As part of the process, variables of type dynamic are compiled into variables of type object. Therefore, type dynamic exists only at compile time, not at run time.
The following example contrasts a variable of type dynamic to a variable of type object. To verify the type of each variable at compile time, place the mouse pointer over dyn or obj in the WriteLine statements. IntelliSense shows dynamic for dyn and object for obj.
class Program
{
static void Main(string[] args)
{
dynamic dyn = 1;
object obj = 1;
// Rest the mouse pointer over dyn and obj to see their
// types at compile time.
System.Console.WriteLine(dyn.GetType());
System.Console.WriteLine(obj.GetType());
}
}
The WriteLine statements display the run-time types of dyn and obj. At that point, both have the same type, integer. The following output is produced:
System.Int32
System.Int32
To see the difference between dyn and obj at compile time, add the following two lines between the declarations and the WriteLine statements in the previous example.
dyn = dyn + 3;
obj = obj + 3;
A compiler error is reported for the attempted addition of an integer and an object in expression obj + 3. However, no error is reported for dyn + 3. The expression that contains dyn is not checked at compile time because the type of dyn is dynamic.
Context
The dynamic keyword can appear directly or as a component of a constructed type in the following situations:
In declarations, as the type of a property, field, indexer, parameter, return value, local variable, or type constraint. The following class definition uses dynamic in several different declarations.
class ExampleClass { // A dynamic field. static dynamic field; // A dynamic property. dynamic prop { get; set; } // A dynamic return type and a dynamic paramater type. public dynamic exampleMethod(dynamic d) { // A dynamic local variable. dynamic local = "Local variable"; int two = 2; if (d is int) { return local; } else { return two; } } }
In explicit type conversions, as the target type of a conversion.
static void convertToDynamic() { dynamic d; int i = 20; d = (dynamic)i; Console.WriteLine(d); string s = "Example string."; d = (dynamic)s; Console.WriteLine(d); DateTime dt = DateTime.Today; d = (dynamic)dt; Console.WriteLine(d); } // Results: // 20 // Example string. // 2/17/2009 9:12:00 AM
In any context where types serve as values, such as on the right side of an is operator or an as operator, or as the argument to typeof as part of a constructed type. For example, dynamic can be used in the following expressions.
int i = 8; dynamic d; // With the is operator. // The dynamic type behaves like object. The following // expression returns true unless someVar has the value null. if (someVar is dynamic) { } // With the as operator. d = i as dynamic; // With typeof, as part of a constructed type. Console.WriteLine(typeof(List<dynamic>)); // The following statement causes a compiler error. //Console.WriteLine(typeof(dynamic));
Example
The following example uses dynamic in several declarations. The Main method also contrasts compile-time type checking with run-time type checking.
using System;
namespace DynamicExamples
{
class Program
{
static void Main(string[] args)
{
ExampleClass ec = new ExampleClass();
Console.WriteLine(ec.exampleMethod(10));
Console.WriteLine(ec.exampleMethod("value"));
// The following line causes a compiler error because exampleMethod
// takes only one argument.
//Console.WriteLine(ec.exampleMethod(10, 4));
dynamic dynamic_ec = new ExampleClass();
Console.WriteLine(dynamic_ec.exampleMethod(10));
// Because dynamic_ec is dynamic, the following call to exampleMethod
// with two arguments does not produce an error at compile time.
// However, itdoes cause a run-time error.
//Console.WriteLine(dynamic_ec.exampleMethod(10, 4));
}
}
class ExampleClass
{
static dynamic field;
dynamic prop { get; set; }
public dynamic exampleMethod(dynamic d)
{
dynamic local = "Local variable";
int two = 2;
if (d is int)
{
return local;
}
else
{
return two;
}
}
}
}
// Results:
// Local variable
// 2
// Local variable
For more information and examples, see Using Type dynamic (C# Programming Guide).
See Also
Tasks
How to: Safely Cast by Using as and is Operators (C# Programming Guide)
Walkthrough: Creating and Using Dynamic Objects (C# and Visual Basic)