Dot.NET Notes
Revision as of 04:51, 17 October 2021 by PeterHarding (talk | contribs)
Notes
private static void TestFeatureProgression()
{
// Example 1:
// Olden days methodolgy for finding odd numbers in an array
// back before even Generics were available
ArrayList al = new ArrayList(){20, 1, 3, 4, 8, 9, 44, 47 };
int[] intList = new int[] {20, 1, 3, 4, 8, 9, 44, 47 };
ArrayList oddIntegers = new ArrayList();
foreach (int i in intList)
{
if ((i % 2) > 0)
{
oddIntegers.Add(i);
} // if
} // foreach
DisplayNumbers(oddIntegers, "using an array search");
// or since we now have generics, we can jump ahead and
// convert the arraylist to a generic list and pass it to
// the method that displays a List<>
DisplayNumbers(new List<int>(oddIntegers.ToArray(typeof(int)) as int[]),
"using array search printed from generic list");
// Now, we bring in Generics and their power. Not only is a
// List<int> more powerful than an ArrayList, but it is
// strongly typed so that unlike an arraylist, you cannot add
// a string to the List<int>. First we will create a
// list of integers with automatic initialization just as we
// previously did with the creation of an array.
// which will be used by all three examples
List<int> list = new List<int>() { 20, 1, 3, 4, 8, 9, 44, 47 };
// Example 2):
// first, a Predicate delegate is a reference that returns a bool
// note that IsOddNumber is a separate method shown below
Predicate<int> callBack = new Predicate<int>(IsOddNumber);
// now you can pass the Predicate delegate to the FindAll method of the generic List
List<int> oddNumbers = list.FindAll(callBack);
// at this point all even numbers are in the list evenNumbers
DisplayNumbers(oddNumbers, "using Predicate delegate");
// Example 3):
// now shorten code by using an anonymous method
// note that we no longer need to declare and use the IsOddNumber method
list = list.FindAll(delegate(int i) { return (i % 2) > 0; });
DisplayNumbers(oddNumbers, "using anonymous method");
// Example 4:
// a lambda expression can even shorten it more
// the => (lambda) symbol means that the parameter (list) on the left side
// of the lambda symbol is to be processed by the expression on the right side
// of the lambda symbol. The expression was originally a formally coded delegate
// and in Example 2, it required a method to be the target of the Predicate.
// In the second example we shortened the code by the use of an anonymous method
// allowing us to do away with the Predicate and its target method (IsOddNumber).
// In Example 4 shown below, the FindAll method of the list object will call
// the implied anonymous method for each object in the List<int>.
// To sum up the following line of code in english:
// My list of paramaters "[int] i" will be processed by the expression "(i % 2) > 0"
oddNumbers = list.FindAll(i => (i % 2) > 0);
DisplayNumbers(oddNumbers, "using a lambda expression");
// you could
}
/// target for the Predicate<> delegate
static bool IsOddNumber(int i)
{
// is it an even number?
return (i % 2) > 0;
}
private static void DisplayNumbers(ArrayList oddNumbers, string s)
{
Console.WriteLine("Here are your odd numbers " + s);
foreach (int oddNumber in oddNumbers)
{
Console.Write("{0}\t", oddNumber);
} // foreach
Console.WriteLine(Environment.NewLine + Environment.NewLine);
} // method: DisplayNumbers
private static void DisplayNumbers(List<int> oddNumbers, string s)
{
Console.WriteLine("Here are your odd numbers " + s);
foreach (int oddNumber in oddNumbers)
{
Console.Write("{0}\t", oddNumber);
} // foreach
Console.WriteLine(Environment.NewLine + Environment.NewLine);
}