C# Extension Method and Lambda Expressions

Recently I have been trying to learn more about the new language features in C# 3.0, and I have enjoyed what I have found thus far.  Especially both the var keyword and extension methods, but I had yet to really implement anything using lambdas.  That is until today…

One of the things I have done with extension methods was to implement some really sweet method argument validation stuff.  I had read several related blog entries regarding this subject and had whipped up a variation [actually just a much smaller set of what they had already come up with as my needs were much less] of their ideas for use in a project I am working on [and likely in future projects].   And, as it turns out, this same bit of features afforded me the opportunity to check out lambda expressions as well, and to hopefully this time add something of value to build on their work instead of just reusing it.

Okay so the scene is set, with me at my desk at work, coding a unit test for what I hope will be a new feature on my current project [dynamically executed reports from xml definition files, like rdl but much much simpler]…

I was about to use the argument extension methods to validate an integer that I needed to be in a certain range and it occured to me how nice it would be if I could just pass in an expression that evaluated to a boolean result similar to what I would do if I was writing in javascript.  Yeah, that would be extra nice!  So, off I went back to GOG to do some research on passing an expression as an argument to a function in C#.  My research led me straight to lambda expressions and exactly what I needed to make my new extension method work.

My goal was to be able to implement something like the following psuedo-code:

public void MyFunction(int myInt)
    RequireThat(myInt).MeetsCriteria("myInt > 0");

Thus being able to use some very smooth and descriptive code to validate my integer argument before using it in the function, or atleast something as close to that effect as I could get.

Well lambda expressions were exactly the ticket, specifically the Func<T, TResult> delegate type.  Which basically allows me to pass a method that accepts one parameter of type T and returns a result of type TResult as a parameter to another method, without defining a custom delegate type of my own.  A kinda anonymous delegate type construct if you will.  Lambda expressions use this type as an arg for the Expression<T>(Func<T, TResult) type constructor.   I have done some of this preliminary reading on Expression Trees and such and it is heady stuff, but interesting none the less.  I look forward to someday being able to apply it to a real world problem.  

But today I was able to apply lambdas to my real world problem like so:

I needed an extension method for my Generic argument wrapper that would allow me to pass in a simple expression predicate with which to validate the argument.  And here is what I came up with:

Code for MeetsCriteria extension method.

Code for MeetsCriteria extension method.

Now this code allows me to pass in a lambda expression that I wish to use to validate an integer argument for my method [or any integer for that matter].  This method was added to my existing argument validation extension methods setup as described in a previous post, already linked to a couple of times above, so it follows similar usage syntax, as such:


I also added a unit test for this new method into my existing test project for the rest of my validation extension methods, and so I will use that test method to show you a contextual usage of MeetsCriteria…

My unit test for MeetsCriteria method.  Testing that 21 is between 20 and 22.

My unit test for MeetsCriteria method. Testing that 21 is between 20 and 22.

So, now I have actually used lambdas in a project at work, I am so very happy with myself.  And my quest to conquer C# 3.0 features continues… J


Argument Validation using C# 3.0 extension methods

 After some research into reusable arg validation ideas on GOG (good ole google) I have found something that, after some simplification of course, will serve the projects meager argument validation needs. Actually this is a super cool trick that we can reuse any number of places from here on, if we so desire.  Here are the original posts that I read and have taken ideas from, particularly Roger Alsings articles, much thanks to him.  This technique is, IMHO, a nice way to showcase how to combine some of C#’s new features, specifically Generics from C# 2.0 and Extension methods from C# 3.0, into a nice solution to a frequent problem.  


Using these posts and the code from a much larger api at the puzzle framework address in the quote above, i have assembled a smaller set of argument validation methods.  Roger Alsing’s puzzle framework has a full compliment of these validation methods if you are interested.  I, on the other hand swiped just a couple of his and added a couple of my own, but am using the same technique to acheive a fluent interface and also the very ingenius idea he had of using a wrapper class for the extension methods rather than extending each .NET type on its own.  Very nice work by him.  This article is simply an effort to explain how I used these articles to put together a much smaller set of validation methods for my own use in a project.  Hopefully it explains things clearly and pays sufficient homage to the ideas originator.


The basic premise is that now with generics and extension methods features of C# we are able to add functionality to types/classes. In this case all types, for the purpose of validating method arguments. The articles above explore this in a progressive fashion: First presenting the idea of an ArgumentHelper class that would have lots of overloads for validating various C# types, i.e. int, string, double, etc. Under this scheme you would need a separate method for each type of validation for each type. Such as:

public void RequireNotNull(int arg, string argName);
public void RequireNotNull(string arg, string argName);
public void RequireNotNull(DateTime arg, string argName);

This is not a bad idea, and certainly is better than writing a multiline if statement for each argument in each method in your project. Second Idea: was to use extension methods to facilitate usage syntax like:

public void MyMethod(int argument1, string argument2)
    // validate args
    argument1.RequireInRange(argument1, 0, 10, "argument1");
    argument2.RequireNotNull(argument2, "argument2");

Now this is starting to look pretty smooth, however we go one step further, combining the new features of Generics(C# 2.0) and Extension methods (C# 3.0) to get something that is SUPER smooth. The idea, which was of course new to me, is to a) create a generic type for argmuments. I used one similar to theirs, basically just a container for name and value of an argument the value being the arg itself of the type “T” as defined by the generic. Then b) use extension methods to add validation methods to this generic class, thus making them available to any type. Here is my generic argument container class that is the one extended:

public class ArgumentEx
    public T Value { get; set; }
    public string Name { get; set; }
    public ArgumentEx(T value, string name)
        this.Value = value;
        this.Name = name;
    public static implicit operator T(ArgumentEx arg)
        return arg.Value;

This class simply wraps an argument with a generic container in essence. We set the default operator to return the arg itself (the “Value” member) and create a simple ctor. Now instead of having to write an extension method for each type we want to be able to validate (int, string, etc.) we just write one extension method for this class. First we write an extension method for the generic T type of our generic class and that will give us coverage of all types and this will always return us an instance of our new ArgumentEx type:

public static class ValidatorExtensions
    public static ArgumentEx RequireThat(
        this T arg, string name)</pre>
<pre style="padding-left:30px;">    {
        return new ArgumentEx(arg, name);

Now we can call this RequireThat method from any argument we pass in to any method and we will get back our ArgumentEx class which we have extended with validation methods such as this:

public static ArgumentEx NotNull(
    this ArgumentEx arg) where T : class
    if (arg.Value == null)
        throw new ArgumentNullException(arg.Name);
    return arg;     // for fluency

This method extends the ArgumentEx type rather than the generic T type so we have all of our extension methods hanging off of the wrapper class. This setup is a touch abstract but it allows us to do super pretty things like this:

public ReportInfo(string pathToXmlFile)
    : base(null, null)         
    // validate args

not bad in the way of readability and extensibility too. Because the extension methods return the arg instance every time you can chain calls as well.


Below is the class diagram for the validation/argument extensions.  There are a few string extensions too added for convenience…


Class diagram for the validation extension classes.

Class diagram for the validation extension classes.




And here is a screenshot of the unit tests all green and pretty!


A screenshot of the pretty green unit test results!

A screenshot of the pretty green unit test results!




So now I have an easy to use and further extensible system for validating method arguments with out having to write if/throw constructs over and over inside of each method.  This promotes better code because the easier it is to validate my arguments the more likely it is that I will do a thorough job of it.