Walkthrough: Creating and Using Dynamic Objects in C#
Dynamic objects expose members such as properties and methods at run time, instead of at compile time. Dynamic objects enable you to create objects to work with structures that don't match a static type or format. For example, you can use a dynamic object to reference the HTML Document Object Model (DOM), which can contain any combination of valid HTML markup elements and attributes. Because each HTML document is unique, the members for a particular HTML document are determined at run time. A common method to reference an attribute of an HTML element is to pass the name of the attribute to the GetProperty
method of the element. To reference the id
attribute of the HTML element <div id="Div1">
, you first obtain a reference to the <div>
element, and then use divElement.GetProperty("id")
. If you use a dynamic object, you can reference the id
attribute as divElement.id
.
Dynamic objects also provide convenient access to dynamic languages such as IronPython and IronRuby. You can use a dynamic object to refer to a dynamic script interpreted at run time.
You reference a dynamic object by using late binding. You specify the type of a late-bound object as dynamic
.For more information, see dynamic.
You can create custom dynamic objects by using the classes in the System.Dynamic namespace. For example, you can create an ExpandoObject and specify the members of that object at run time. You can also create your own type that inherits the DynamicObject class. You can then override the members of the DynamicObject class to provide run-time dynamic functionality.
This article contains two independent walkthroughs:
- Create a custom object that dynamically exposes the contents of a text file as properties of an object.
- Create a project that uses an
IronPython
library.
Prerequisites
- Visual Studio 2022 version 17.3 or a later version with the .NET desktop development workload installed. The .NET 7 SDK is included when you select this workload.
Note
Your computer might show different names or locations for some of the Visual Studio user interface elements in the following instructions. The Visual Studio edition that you have and the settings that you use determine these elements. For more information, see Personalizing the IDE.
- For the second walkthrough, install IronPython for .NET. Go to their Download page to obtain the latest version.
Create a Custom Dynamic Object
The first walkthrough defines a custom dynamic object that searches the contents of a text file. A dynamic property specifies the text to search for. For example, if calling code specifies dynamicFile.Sample
, the dynamic class returns a generic list of strings that contains all of the lines from the file that begin with "Sample". The search is case-insensitive. The dynamic class also supports two optional arguments. The first argument is a search option enum value that specifies that the dynamic class should search for matches at the start of the line, the end of the line, or anywhere in the line. The second argument specifies that the dynamic class should trim leading and trailing spaces from each line before searching. For example, if calling code specifies dynamicFile.Sample(StringSearchOption.Contains)
, the dynamic class searches for "Sample" anywhere in a line. If calling code specifies dynamicFile.Sample(StringSearchOption.StartsWith, false)
, the dynamic class searches for "Sample" at the start of each line, and doesn't remove leading and trailing spaces. The default behavior of the dynamic class is to search for a match at the start of each line and to remove leading and trailing spaces.
Create a custom dynamic class
Start Visual Studio. Select Create a new project. In the Create a new project dialog, select C#, select Console Application, and then select Next. In the Configure your new project dialog, enter DynamicSample
for the Project name, and then select Next. In the Additional information dialog, select .NET 7.0 (Current) for the Target Framework, and then select Create. In Solution Explorer, right-click the DynamicSample project and select Add > Class. In the Name box, type ReadOnlyFile
, and then select Add. At the top of the ReadOnlyFile.cs or ReadOnlyFile.vb file, add the following code to import the System.IO and System.Dynamic namespaces.
using System.IO;
using System.Dynamic;
The custom dynamic object uses an enum to determine the search criteria. Before the class statement, add the following enum definition.
public enum StringSearchOption
{
StartsWith,
Contains,
EndsWith
}
Update the class statement to inherit the DynamicObject
class, as shown in the following code example.
class ReadOnlyFile : DynamicObject
Add the following code to the ReadOnlyFile
class to define a private field for the file path and a constructor for the ReadOnlyFile
class.
// Store the path to the file and the initial line count value.
private string p_filePath;
// Public constructor. Verify that file exists and store the path in
// the private variable.
public ReadOnlyFile(string filePath)
{
if (!File.Exists(filePath))
{
throw new Exception("File path does not exist.");
}
p_filePath = filePath;
}
- Add the following
GetPropertyValue
method to theReadOnlyFile
class. TheGetPropertyValue
method takes, as input, search criteria and returns the lines from a text file that match that search criteria. The dynamic methods provided by theReadOnlyFile
class call theGetPropertyValue
method to retrieve their respective results.
public List<string> GetPropertyValue(string propertyName,
StringSearchOption StringSearchOption = StringSearchOption.StartsWith,
bool trimSpaces = true)
{
StreamReader sr = null;
List<string> results = new List<string>();
string line = "";
string testLine = "";
try
{
sr = new StreamReader(p_filePath);
while (!sr.EndOfStream)
{
line = sr.ReadLine();
// Perform a case-insensitive search by using the specified search options.
testLine = line.ToUpper();
if (trimSpaces) { testLine = testLine.Trim(); }
switch (StringSearchOption)
{
case StringSearchOption.StartsWith:
if (testLine.StartsWith(propertyName.ToUpper())) { results.Add(line); }
break;
case StringSearchOption.Contains:
if (testLine.Contains(propertyName.ToUpper())) { results.Add(line); }
break;
case StringSearchOption.EndsWith:
if (testLine.EndsWith(propertyName.ToUpper())) { results.Add(line); }
break;
}
}
}
catch
{
// Trap any exception that occurs in reading the file and return null.
results = null;
}
finally
{
if (sr != null) {sr.Close();}
}
return results;
}
After the GetPropertyValue
method, add the following code to override the TryGetMember method of the DynamicObject class. The TryGetMember method is called when a member of a dynamic class is requested and no arguments are specified. The binder
argument contains information about the referenced member, and the result
argument references the result returned for the specified member. The TryGetMember method returns a Boolean value that returns true
if the requested member exists; otherwise it returns false
.
// Implement the TryGetMember method of the DynamicObject class for dynamic member calls.
public override bool TryGetMember(GetMemberBinder binder,
out object result)
{
result = GetPropertyValue(binder.Name);
return result == null ? false : true;
}
After the TryGetMember
method, add the following code to override the TryInvokeMember method of the DynamicObject class. The TryInvokeMember method is called when a member of a dynamic class is requested with arguments. The binder
argument contains information about the referenced member, and the result
argument references the result returned for the specified member. The args
argument contains an array of the arguments that are passed to the member. The TryInvokeMember method returns a Boolean value that returns true
if the requested member exists; otherwise it returns false
.
The custom version of the TryInvokeMember
method expects the first argument to be a value from the StringSearchOption
enum that you defined in a previous step. The TryInvokeMember
method expects the second argument to be a Boolean value. If one or both arguments are valid values, they're passed to the GetPropertyValue
method to retrieve the results.
// Implement the TryInvokeMember method of the DynamicObject class for
// dynamic member calls that have arguments.
public override bool TryInvokeMember(InvokeMemberBinder binder,
object[] args,
out object result)
{
StringSearchOption StringSearchOption = StringSearchOption.StartsWith;
bool trimSpaces = true;
try
{
if (args.Length > 0) { StringSearchOption = (StringSearchOption)args[0]; }
}
catch
{
throw new ArgumentException("StringSearchOption argument must be a StringSearchOption enum value.");
}
try
{
if (args.Length > 1) { trimSpaces = (bool)args[1]; }
}
catch
{
throw new ArgumentException("trimSpaces argument must be a Boolean value.");
}
result = GetPropertyValue(binder.Name, StringSearchOption, trimSpaces);
return result == null ? false : true;
}
Save and close the file.
Create a sample text file
In Solution Explorer, right-click the DynamicSample project and select Add > New Item. In the Installed Templates pane, select General, and then select the Text File template. Leave the default name of TextFile1.txt in the Name box, and then select Add. Copy the following text to the TextFile1.txt file.
List of customers and suppliers
Supplier: Lucerne Publishing (https://www.lucernepublishing.com/)
Customer: Preston, Chris
Customer: Hines, Patrick
Customer: Cameron, Maria
Supplier: Graphic Design Institute (https://www.graphicdesigninstitute.com/)
Supplier: Fabrikam, Inc. (https://www.fabrikam.com/)
Customer: Seubert, Roxanne
Supplier: Proseware, Inc. (http://www.proseware.com/)
Customer: Adolphi, Stephan
Customer: Koch, Paul
Save and close the file.
Create a sample application that uses the custom dynamic object
In Solution Explorer, double-click the Program.cs file. Add the following code to the Main
procedure to create an instance of the ReadOnlyFile
class for the TextFile1.txt file. The code uses late binding to call dynamic members and retrieve lines of text that contain the string "Customer".
dynamic rFile = new ReadOnlyFile(@"..\..\..\TextFile1.txt");
foreach (string line in rFile.Customer)
{
Console.WriteLine(line);
}
Console.WriteLine("----------------------------");
foreach (string line in rFile.Customer(StringSearchOption.Contains, true))
{
Console.WriteLine(line);
}
Save the file and press Ctrl+F5 to build and run the application.
Call a dynamic language library
The following walkthrough creates a project that accesses a library written in the dynamic language IronPython.
To create a custom dynamic class
In Visual Studio, select File > New > Project. In the Create a new project dialog, select C#, select Console Application, and then select Next. In the Configure your new project dialog, enter DynamicIronPythonSample
for the Project name, and then select Next. In the Additional information dialog, select .NET 7.0 (Current) for the Target Framework, and then select Create. Install the IronPython NuGet package. Edit the Program.cs file. At the top of the file, add the following code to import the Microsoft.Scripting.Hosting
and IronPython.Hosting
namespaces from the IronPython libraries and the System.Linq
namespace.
using System.Linq;
using Microsoft.Scripting.Hosting;
using IronPython.Hosting;
In the Main method, add the following code to create a new Microsoft.Scripting.Hosting.ScriptRuntime
object to host the IronPython libraries. The ScriptRuntime
object loads the IronPython library module random.py.
// Set the current directory to the IronPython libraries.
System.IO.Directory.SetCurrentDirectory(
Environment.GetFolderPath(Environment.SpecialFolder.ProgramFiles) +
@"\IronPython 2.7\Lib");
// Create an instance of the random.py IronPython library.
Console.WriteLine("Loading random.py");
ScriptRuntime py = Python.CreateRuntime();
dynamic random = py.UseFile("random.py");
Console.WriteLine("random.py loaded.");
After the code to load the random.py module, add the following code to create an array of integers. The array is passed to the shuffle
method of the random.py module, which randomly sorts the values in the array.
// Initialize an enumerable set of integers.
int[] items = Enumerable.Range(1, 7).ToArray();
// Randomly shuffle the array of integers by using IronPython.
for (int i = 0; i < 5; i++)
{
random.shuffle(items);
foreach (int item in items)
{
Console.WriteLine(item);
}
Console.WriteLine("-------------------");
}
Save the file and press Ctrl+F5 to build and run the application.