Csharp/C Sharp/Collections Data Structure/Array

Материал из .Net Framework эксперт
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Содержание

Array.AsReadOnly Method

 

using System;
using System.Collections.Generic;
using System.Collections.ObjectModel;

public class Starter {
    public static void Main() {
        int[] zArray = { 1, 2, 3, 4 };
        zArray[1] = 10;
        ReadOnlyCollection<int> roArray = Array.AsReadOnly(zArray);
        foreach (int number in roArray) {
            Console.WriteLine(number);
        }
        roArray[1] = 2; // compile error
    }
}


Array.Clone Method

 
using System;
using System.Collections.Generic;
public class Starter {
    public static void Main() {
        CommissionedEmployee[] salespeople =
                {new CommissionedEmployee("Bob"),
                 new CommissionedEmployee("Ted"),
                 new CommissionedEmployee("Sally")};
        Employee[] employees =
            (Employee[])salespeople.Clone();
        foreach (Employee person in
                employees) {
            person.Pay();
        }
    }
}
public class Employee {
    public Employee(string name) {
        m_Name = name;
    }
    public virtual void Pay() {
        Console.WriteLine("Paying {0}", m_Name);
    }
    private string m_Name;
}
public class CommissionedEmployee : Employee {
    public CommissionedEmployee(string name) :
        base(name) {
    }
    public override void Pay() {
        base.Pay();
        Console.WriteLine("Paying commissions");
    }
}


Array Conversions

// Arrays\Array Conversions
using System;
public class ArrayConversions
{
    public static void PrintArray(object[] arr)
    {
        foreach (object obj in arr)
        Console.WriteLine("Word: {0}", obj);
    }
    public static void Main()
    {
        string s = "I will not buy this record, it is scratched.";
        char[] separators = {" "};
        string[] words = s.Split(separators);
        PrintArray(words);
    }
}


Array.CreateInstance Method

 
using System;
using System.Reflection;
public class Starter {
    public static void Main(string[] argv) {
        Assembly executing = Assembly.GetExecutingAssembly();
        Type t = executing.GetType(argv[0]);
        Array zArray = Array.CreateInstance(t, argv.Length - 2);
        for (int count = 2; count < argv.Length; ++count) {
            System.Object obj = Activator.CreateInstance(t, new object[] {argv[count]});
            zArray.SetValue(obj, count - 2);
        }
        foreach (object item in zArray) {
            MethodInfo m = t.GetMethod(argv[1]);
            m.Invoke(item, null);
        }
    }
}
public class MyClass {
    public MyClass(string info) {
        m_Info = "MyClass " + info;
    }
    public void ShowInfo() {
        Console.WriteLine(m_Info);
    }
    private string m_Info;
}
public class YClass {
    public YClass(string info) {
        m_Info = "YClass " + info;
    }
    public void ShowInfo() {
        Console.WriteLine(m_Info);
    }
    private string m_Info;
}
public class XClass {
    public XClass(string info) {
        m_Info = "XClass " + info;
    }
    public void ShowInfo() {
        Console.WriteLine(m_Info);
    }
    private string m_Info;
}


Array.FindAll Method: This is the syntax of the Predicate delegate:delegate bool Predicate<T>(T obj)

 
using System;
using System.Collections;
using System.Collections.Generic;
public class MainClass {
    public static void Main() {
        int[] zArray = { 1, 2, 3, 1, 2, 3, 1, 2, 3 };
        Predicate<int> match = new Predicate<int>(MethodA<int>);
        int[] answers = Array.FindAll(zArray, match);
        foreach (int answer in answers) {
            Console.WriteLine(answer);
        }
    }
    public static bool MethodA<T>(T number) where T : IComparable {
        int result = number.rupareTo(3);
        return result == 0;
    }
}


Array.Resize Method

 
using System;
public class Starter {
    public static void Main() {
        int[] zArray = { 1, 2, 3, 4 };
        Array.Resize<int>(ref zArray, 8);
        foreach (int number in zArray) {
            Console.WriteLine(number);
        }
    }
}


Array reverse and sort

/*
Learning C# 
by Jesse Liberty
Publisher: O"Reilly 
ISBN: 0596003765
*/
 using System;
 namespace ReverseAndSort
 {
    public class TesterReverseAndSort
    {
        public static void DisplayArray(object[] theArray)
        {
            foreach (object obj in theArray)
            {
                Console.WriteLine("Value: {0}", obj);
            }
            Console.WriteLine("\n");
        }
       public void Run()
       {
           String[] myArray =
             {
                 "Who", "is", "John", "Galt"
             };
           Console.WriteLine("Display myArray...");
           DisplayArray(myArray);
           Console.WriteLine("Reverse and display myArray...");
           Array.Reverse(myArray);
           DisplayArray(myArray);
           String[] myOtherArray =
             {
                 "We", "Hold", "These", "Truths",
                 "To", "Be", "Self", "Evident",
           };
           Console.WriteLine("Display myOtherArray...");
           DisplayArray(myOtherArray);
           Console.WriteLine("Sort and display myOtherArray...");
           Array.Sort(myOtherArray);
           DisplayArray(myOtherArray);
       }
       [STAThread]
       static void Main()
       {
          TesterReverseAndSort t = new TesterReverseAndSort();
          t.Run();
       }
    }
 }


Arrays of Reference Types

// 16 - Arrays\Arrays of Reference Types
class Employee
{
    public static Employee LoadFromDatabase(int employeeID)
    {
        Employee emp = new Employee();
        return(emp);
    }
}
public class ArraysofReferenceTypes
{
    public static void Main()
    {
        Employee[] emps = new Employee[3];
        emps[0] = Employee.LoadFromDatabase(15);
        emps[1] = Employee.LoadFromDatabase(35);
        emps[2] = Employee.LoadFromDatabase(255);
    }
}


Array.Sort by CultureInfo

 

using System;
using System.Collections.Generic;
using System.Text;
using System.Threading;
using System.Collections;
using System.Globalization;
class Program {
    static void DisplayNames(IEnumerable e) {
        foreach (string s in e)
            Console.Write(s + " - ");
    }
    static void Main(string[] args) {
        string[] names = {"Alabama", "Texas", "Washington", 
                 "Virginia", "Wisconsin", "Wyoming", 
                 "Kentucky", "Missouri", "Utah", "Hawaii", 
                 "Kansas", "Lousiana", "Alaska", "Arizona"};
        Thread.CurrentThread.CurrentCulture = new CultureInfo("fi-FI");
        Array.Sort(names);
        DisplayNames(names);
        Array.Sort(names, Comparer.DefaultInvariant);
        Console.WriteLine("\nsorted with invariant culture...");
        DisplayNames(names);
    }
}


Array.SyncRoot Property: synchronize access to an array.

 
using System;
using System.Threading;
public class Starter {
    public static void Main() {
        Array.Sort(zArray);
        Thread t1 = new Thread(new ThreadStart(DisplayForward));
        Thread t2 = new Thread(new ThreadStart(DisplayReverse));
        t1.Start();
        t2.Start();
    }
    private static int[] zArray = { 1, 5, 4, 2, 4, 2, 9, 10 };
    public static void DisplayForward() {
        lock (zArray.SyncRoot) {
            Console.Write("\nForward: ");
            foreach (int number in zArray) {
                Console.Write(number);
            }
        }
    }
    public static void DisplayReverse() {
        lock (zArray.SyncRoot) {
            Array.Reverse(zArray);
            Console.Write("\nReverse: ");
            foreach (int number in zArray) {
                Console.Write(number);
            }
            Array.Reverse(zArray);
        }
    }
}


A run-time error occurs when Array.Sort is called: XClass does not implement the IComparable interface.

 
using System;
public class Starter {
    public static void Main() {
        XClass[] objs ={new XClass(5), new XClass(10),
                new XClass(1)};
        Array.Sort(objs);
    }
}
public class XClass {
    public XClass(int data) {
        propNumber = data;
    }
    private int propNumber;
    public int Number {
        get {
            return propNumber;
        }
    }
}


Assigning array reference variables

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Assigning array reference variables. 
 
using System; 
 
public class AssignARef {  
  public static void Main() {  
    int i; 
 
    int[] nums1 = new int[10]; 
    int[] nums2 = new int[10]; 
 
    for(i=0; i < 10; i++) nums1[i] = i; 
 
    for(i=0; i < 10; i++) nums2[i] = -i; 
 
    Console.Write("Here is nums1: "); 
    for(i=0; i < 10; i++) 
      Console.Write(nums1[i] + " ");   
    Console.WriteLine(); 
 
    Console.Write("Here is nums2: "); 
    for(i=0; i < 10; i++) 
      Console.Write(nums2[i] + " ");   
    Console.WriteLine(); 
 
    nums2 = nums1; // now nums2 refers to nums1 
 
    Console.Write("Here is nums2 after assignment: "); 
    for(i=0; i < 10; i++) 
      Console.Write(nums2[i] + " ");   
    Console.WriteLine(); 
 
   // now operate on nums1 array through nums2 
   nums2[3] = 99; 
 
    Console.Write("Here is nums1 after change through nums2: "); 
    for(i=0; i < 10; i++) 
      Console.Write(nums1[i] + " ");   
    Console.WriteLine(); 
  }  
}


Class array

/*
Learning C# 
by Jesse Liberty
Publisher: O"Reilly 
ISBN: 0596003765
*/
 using System;
 namespace ArrayDemo
 {
     // a simple class to store in the array
     class Employee
     {
         private int empID;
         // constructor
         public Employee(int empID)
         {
             this.empID = empID;
         }
         public override string ToString()
         {
             return empID.ToString();
         }
     }
    public class TesterClassArray
    {
       public void Run()
       {
           int[] intArray;
           Employee[] empArray;
           intArray = new int[5];
           empArray = new Employee[3];
           // populate the array
           for (int i = 0;i<empArray.Length;i++)
           {
               empArray[i] = new Employee(i+5);
           }
           Console.WriteLine("The int array...");
           for (int i = 0;i<intArray.Length;i++)
           {
               Console.WriteLine(intArray[i].ToString());
           }
           Console.WriteLine("\nThe employee array...");
           for (int i = 0;i<empArray.Length;i++)
           {
               Console.WriteLine(empArray[i].ToString());
           }
       }
       [STAThread]
       static void Main()
       {
          TesterClassArray t = new TesterClassArray();
          t.Run();
       }
    }
 }


Class array init

/*
Learning C# 
by Jesse Liberty
Publisher: O"Reilly 
ISBN: 0596003765
*/
 using System;
 namespace ArrayDemo
 {
     // a simple class to store in the array
     class Employee
     {
         private int empID;
         // constructor
         public Employee(int empID)
         {
             this.empID = empID;
         }
     }
     public class TesterArrayDemoInit
     {
         public void Run()
         {
             int[] intArray;
             Employee[] empArray;
             intArray = new int[5];
             empArray = new Employee[3];
             // populate the array
             for (int i = 0;i<empArray.Length;i++)
             {
                 empArray[i] = new Employee(i+5);
             }
         }
         [STAThread]
         static void Main()
         {
             TesterArrayDemoInit t = new TesterArrayDemoInit();
             t.Run();
         }
     }
 }


Compute the average of a set of values

// Compute the average of a set of values. 
 
using System; 
 
public class Average1 {  
  public static void Main() {  
    int[] nums = new int[10]; 
    int avg = 0; 
 
    nums[0] = 99; 
    nums[1] = 10; 
    nums[2] = 100; 
    nums[3] = 18; 
    nums[4] = 78; 
    nums[5] = 23; 
    nums[6] = 63; 
    nums[7] = 9; 
    nums[8] = 87; 
    nums[9] = 49; 
 
    for(int i=0; i < 10; i++)  
      avg = avg + nums[i]; 
 
    avg = avg / 10; 
 
    Console.WriteLine("Average: " + avg); 
  }  
}


Compute the average of a set of values 2

// Compute the average of a set of values. 
 
using System; 
 
public class Average {  
  public static void Main() {  
    int[] nums = { 99, 10, 100, 18, 78, 23, 63, 9, 87, 49 }; 
    int avg = 0;; 
 
    for(int i=0; i < 10; i++)  {
      avg = avg + nums[i]; 
    }  
 
    avg = avg / 10; 
 
    Console.WriteLine("Average: " + avg); 
  }  
}


Copy an array

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Copy an array. 
 
using System;  
  
public class CopyDemo {     
  public static void Main() {     
    int[] source = { 1, 2, 3, 4, 5 }; 
    int[] target = { 11, 12, 13, 14, 15 }; 
    int[] source2 = { -1, -2, -3, -4, -5 }; 
 
    // Display source. 
    Console.Write("source: "); 
    foreach(int i in source)  
      Console.Write(i + " "); 
    Console.WriteLine(); 
 
    // Display original target. 
    Console.Write("Original contents of target: "); 
    foreach(int i in target)  
      Console.Write(i + " "); 
    Console.WriteLine(); 
 
    // Copy the entire array. 
    Array.Copy(source, target, source.Length); 
 
    // Display copy. 
    Console.Write("target after copy:  "); 
    foreach(int i in target)  
      Console.Write(i + " "); 
    Console.WriteLine(); 
 
    // Copy into middle of target. 
    Array.Copy(source2, 2, target, 3, 2); 
 
    // Display copy. 
    Console.Write("target after copy:  "); 
    foreach(int i in target)  
      Console.Write(i + " "); 
    Console.WriteLine(); 
  } 
}


Creates an and array and looks for the index of a given value from either end

/*
C# Programming Tips & Techniques
by Charles Wright, Kris Jamsa
Publisher: Osborne/McGraw-Hill (December 28, 2001)
ISBN: 0072193794
*/
//
// Index.cs -- Creates an and array and looks for the index of a given
//             value from either end.
//
//             Compile this program with the following command line:
//                 C:>csc Index.cs
//
namespace nsArray
{
    using System;
    
    public class Index
    {
        static public void Main ()
        {
            int [] Arr = new int [12]
                        {29, 82, 42, 46, 54, 65, 50, 42, 5, 94, 19, 34};
            Console.WriteLine ("The first occurrence of 42 is at index "
                               + Array.IndexOf(Arr, 42));
            Console.WriteLine ("The last occurrence of 42 is at index "
                               + Array.LastIndexOf(Arr, 42));
            int x = 0;
            while ((x = Array.IndexOf (Arr, 42, x)) >= 0)
            {
                Console.WriteLine ("42 found at index " + x);
                ++x;
            }
            x = Arr.Length - 1;
            while ((x = Array.LastIndexOf (Arr, 42, x)) >= 0)
            {
                Console.WriteLine ("42 found at index " + x);
                --x;
            }
        }
    }
}


Creates and implements an instance of Array

/*
C# Programming Tips & Techniques
by Charles Wright, Kris Jamsa
Publisher: Osborne/McGraw-Hill (December 28, 2001)
ISBN: 0072193794
*/
//
// CreatArr.cs -- Creates and implements an instance of Array
//
//                Compile this program with the following command line:
//                    C:>csc CreatArr.cs
//
namespace nsArray
{
    using System;
    
    public class CreatArr
    {
        static public void Main ()
        {
            DateTime now = DateTime.Now;
            Random rand = new Random ((int) now.Millisecond);
            // Create an instance of the Array class.
            Array Arr = Array.CreateInstance (typeof(Int32), 10);
            
            // Initialize the elements using the SetValue() member method
            // Use the GetLowerBound() and GetUpperBound() methods for safe access.
            for (int x = Arr.GetLowerBound(0); x < Arr.GetUpperBound(0) + 1; ++x)
            {
                Arr.SetValue (rand.Next () % 100, x);
            }
            int Total = 0;
            Console.Write ("Array values are ");
            
            // Use the foreach loop on the Array instance
            foreach (int val in Arr)
            {
                Total += val;
                Console.Write (val + ", ");
            }
            Console.WriteLine ("and the average is {0,0:F1}",
                              (double) Total / (double) Arr.Length);
        }
    }
}


Demonstrate an array overrun

// Demonstrate an array overrun. 
 
using System; 
 
public class ArrayErr {  
  public static void Main() {  
    int[] sample = new int[10]; 
    int i;  
  
    // generate an array overrun 
    for(i = 0; i < 100; i = i+1)  {
      sample[i] = i; 
    }  
  }  
}


Demonstrate a one-dimensional array

// Demonstrate a one-dimensional array. 
 
using System; 
 
public class ArrayDemo {  
  public static void Main() {  
    int[] sample = new int[10]; 
    int i;  
  
    for(i = 0; i < 10; i = i+1) { 
      sample[i] = i; 
    }  
 
    for(i = 0; i < 10; i = i+1)  {
      Console.WriteLine("sample[" + i + "]: " + sample[i]);  
    }
  }  
}


Enumerates an array using an enumerator object

 
using System;
using System.Collections;
public class Starter {
    public static void Main() {
        int[] numbers = { 1, 2, 3, 4, 5 };
        IEnumerator e = numbers.GetEnumerator();
        while (e.MoveNext()) {
            Console.WriteLine(e.Current);
        }
    }
}


illustrates an attempt to write to a nonexistent array element

/*
  illustrates an attempt to write to a nonexistent array element
*/
using System;
public class Example10_2 {
  public static void Main() {
    try {
      int[] intArray = new int[5];
      for (int counter = 0; counter <= intArray.Length; counter++)
      {
        intArray[counter] = counter;
        Console.WriteLine("intArray[" + counter + "] = " + intArray[counter]);
      }
    }
    catch (IndexOutOfRangeException e)
    {
      Console.WriteLine("IndexOutOfRangeException occurred");
      Console.WriteLine("Message = " + e.Message);
      Console.WriteLine("Stack trace = " + e.StackTrace);
    }
  }
}


illustrates how to initialize arrays

/*
  Example10_3.cs illustrates how to initialize arrays
*/
using System;
public class Example10_3 {
  public static void Main() {
    // int arrays
    int[] intArray = new int[5] {10, 20, 30, 40, 50};
    for (int counter = 0; counter < intArray.Length; counter++)
    {
      Console.WriteLine("intArray[" + counter + "] = " +
        intArray[counter]);
    }
    // char arrays
    char[] charArray = new char[] {"h", "e", "l", "l", "o"};
    for (int counter = 0; counter < charArray.Length; counter++)
    {
      Console.WriteLine("charArray[" + counter + "] = " +
        charArray[counter]);
    }
    // string arrays
    string[] stringArray = {"Hello", "World"};
    foreach (string myString in stringArray)
    {
      Console.WriteLine("myString = " + myString);
    }
  }
}


illustrates how to use array properties and methods

/*
Mastering Visual C# .NET
by Jason Price, Mike Gunderloy
Publisher: Sybex;
ISBN: 0782129110
*/
/*
  Example10_5.cs illustrates how to use array properties
  and methods
*/
using System;
public class Example10_5
{
  public static void Main()
  {
    // use the Sort() method to sort the elements in an int array
    int[] intArray = {5, 2, 3, 1, 6, 9, 7, 14, 25};
    Array.Sort(intArray);  // sort the elements
    Console.WriteLine("Sorted intArray:");
    for (int counter = 0; counter < intArray.Length; counter++)
    {
      Console.WriteLine("intArray[" + counter + "] = " +
        intArray[counter]);
    }
    // use the Sort() method to sort the elements in a string array
    string[] stringArray = {"this", "is", "a", "test", "abc123", "abc345"};
    Array.Sort(stringArray);  // sort the elements
    Console.WriteLine("Sorted stringArray:");
    for (int counter = 0; counter < stringArray.Length; counter++)
    {
      Console.WriteLine("stringArray[" + counter + "] = " +
        stringArray[counter]);
    }
    // use the Sort() method to sort the elements in a char array
    char[] charArray = {"w", "e", "l", "c", "o", "m", "e"};
    Array.Sort(charArray);  // sort the elements
    Console.WriteLine("Sorted charArray:");
    for (int counter = 0; counter < charArray.Length; counter++)
    {
      Console.WriteLine("charArray[" + counter + "] = " +
        charArray[counter]);
    }
    // use the BinarySearch() method to search intArray for the number 5
    int index = Array.BinarySearch(intArray, 5);
    Console.WriteLine("Array.BinarySearch(intArray, 5) = " + index);
    // use the BinarySearch() method to search intArray for the number 4
    // (this number doesn"t exist in intArray, and therefore BinarySearch()
    // returns a negative value)
    index = Array.BinarySearch(intArray, 4);
    Console.WriteLine("Array.BinarySearch(intArray, 4) = " + index);
    // use the BinarySearch() method to search stringArray for "abc345"
    index = Array.BinarySearch(stringArray, "abc345");
    Console.WriteLine("Array.BinarySearch(stringArray, \"abc345\") = " + index);
    // use the BinarySearch() method to search charArray for "o"
    index = Array.BinarySearch(charArray, "o");
    Console.WriteLine("Array.BinarySearch(charArray, "o") = " + index);
    // use the Reverse() method to reverse the elements in intArray
    Array.Reverse(intArray);
    Console.WriteLine("Reversed intArray:");
    for (int counter = 0; counter < intArray.Length; counter++)
    {
      Console.WriteLine("intArray[" + counter + "] = " +
        intArray[counter]);
    }
    // use the Reverse() method to reverse the elements in stringArray
    Array.Reverse(stringArray);
    Console.WriteLine("Reversed stringArray:");
    for (int counter = 0; counter < stringArray.Length; counter++)
    {
      Console.WriteLine("stringArray[" + counter + "] = " +
        stringArray[counter]);
    }
    // use the Reverse() method to reverse the elements in charArray
    Array.Reverse(charArray);
    Console.WriteLine("Reversed charArray:");
    for (int counter = 0; counter < charArray.Length; counter++)
    {
      Console.WriteLine("charArray[" + counter + "] = " +
        charArray[counter]);
    }
    // create another array of int values named intArray2
    int[] intArray2 = {1, 2, 1, 3};
    Console.WriteLine("intArray2:");
    for (int counter = 0; counter < intArray2.Length; counter++)
    {
      Console.WriteLine("intArray2[" + counter + "] = " +
        intArray2[counter]);
    }
    // use the IndexOf() and LastIndexOf() methods to find the value 1
    // in intArray2
    index = Array.IndexOf(intArray2, 1);
    Console.WriteLine("Array.IndexOf(intArray2, 1) = " + index);
    index = Array.LastIndexOf(intArray2, 1);
    Console.WriteLine("Array.LastIndexOf(intArray2, 1) = " + index);
    // create another array of strings named stringArray2
    string[] stringArray2 = {"Hello", "to", "everyone", "Hello", "all"};
    Console.WriteLine("stringArray2:");
    for (int counter = 0; counter < stringArray2.Length; counter++)
    {
      Console.WriteLine("stringArray2[" + counter + "] = " +
        stringArray2[counter]);
    }
    // use the IndexOf() and LastIndexOf() methods to find the string "Hello"
    // in intArray2
    index = Array.IndexOf(stringArray2, "Hello");
    Console.WriteLine("Array.IndexOf(stringArray2, \"Hello\") = " + index);
    index = Array.LastIndexOf(stringArray2, "Hello");
    Console.WriteLine("Array.LastIndexOf(stringArray2, \"Hello\") = " + index);
  }
}


illustrates how to use arrays 2

/*
Mastering Visual C# .NET
by Jason Price, Mike Gunderloy
Publisher: Sybex;
ISBN: 0782129110
*/

/*
  Example10_1.cs illustrates how to use arrays
*/
using System;
public class Example10_1
{
  public static void Main()
  {
    // int arrays
    int[] intArray = new int[10];
    int arrayLength = intArray.Length;
    Console.WriteLine("arrayLength = " + arrayLength);
    for (int counter = 0; counter < arrayLength; counter++)
    {
      intArray[counter] = counter;
      Console.WriteLine("intArray[" + counter + "] = " +
        intArray[counter]);
    }
    // char arrays
    char[] charArray = new char[5];
    Console.WriteLine("charArray[0] = " + charArray[0]);
    charArray[0] = "h";
    charArray[1] = "e";
    charArray[2] = "l";
    charArray[3] = "l";
    charArray[4] = "o";
    for (int counter = 0; counter < charArray.Length; counter++)
    {
      Console.WriteLine("charArray[" + counter + "] = " +
        charArray[counter]);
    }
    // string arrays
    string[] stringArray = new string[2];
    Console.WriteLine("stringArray[0] = " + stringArray[0]);
    stringArray[0] = "Hello";
    stringArray[1] = "World";
    foreach (string myString in stringArray)
    {
      Console.WriteLine("myString = " + myString);
    }
  }
}


illustrates the use of an array of objects

/*
Mastering Visual C# .NET
by Jason Price, Mike Gunderloy
Publisher: Sybex;
ISBN: 0782129110
*/
/*
  Example10_10.cs illustrates the use of
  an array of objects
*/
using System;

// declare the Star class
class Star
{
  // declare two fields
  public string name;
  public int brightness;
  // declare a constructor
  public Star(
    string name,
    int brightness
  )
  {
    this.name = name;
    this.brightness = brightness;
  }
}

public class Example10_10
{
  public static void Main()
  {
    // create the galaxy array of Star objects
    Star[,,] galaxy = new Star[10, 5, 3];
    // create two Star objects in the galaxy array
    galaxy[1, 3, 2] = new Star("Sun", 3);
    galaxy[4, 1, 2] = new Star("Alpha Centuri", 9);
    // display the Rank and Length properties of the galaxy array
    Console.WriteLine("galaxy.Rank (number of dimensions) = " + galaxy.Rank);
    Console.WriteLine("galaxy.Length (number of elements) = " + galaxy.Length);
    // display the galaxy array elements
    for (int x = 0; x < galaxy.GetLength(0); x++)
    {
      for (int y = 0; y < galaxy.GetLength(1); y++)
      {
        for (int z = 0; z < galaxy.GetLength(2); z++)
        {
          if (galaxy[x, y, z] != null)
          {
            Console.WriteLine("galaxy[" + x + ", " + y + ", " + z +"].name = " +
              galaxy[x, y, z].name);
            Console.WriteLine("galaxy[" + x + ", " + y + ", " + z +"].brightness = " +
              galaxy[x, y, z].brightness);
          }
        }
      }
    }
  }
}


Jagged Array Demo

/*
Learning C# 
by Jesse Liberty
Publisher: O"Reilly 
ISBN: 0596003765
*/
 using System;
 namespace JaggedArray
 {
     public class TesterJaggedArray
     {
         [STAThread]
         static void Main()
         {
             const int rows = 4;
             const int rowZero = 5;  // num elements
             const int rowOne = 2;
             const int rowTwo = 3;
             const int rowThree = 5;
             // declare the jagged array as 4 rows high
             int[][] jaggedArray = new int[rows][];
             // declare the rows of various lengths
             jaggedArray[0] = new int[rowZero];
             jaggedArray[1] = new int[rowOne];
             jaggedArray[2] = new int[rowTwo];
             jaggedArray[3] = new int[rowThree];
             // Fill some (but not all) elements of the rows
             jaggedArray[0][3] = 15;
             jaggedArray[1][1] = 12;
             jaggedArray[2][1] = 9;
             jaggedArray[2][2] = 99;
             jaggedArray[3][0] = 10;
             jaggedArray[3][1] = 11;
             jaggedArray[3][2] = 12;
             jaggedArray[3][3] = 13;
             jaggedArray[3][4] = 14;
             for (int i = 0;i < rowZero; i++)
             {
                 Console.WriteLine("jaggedArray[0][{0}] = {1}",
                     i,jaggedArray[0][i]);
             }
             for (int i = 0;i < rowOne; i++)
             {
                 Console.WriteLine("jaggedArray[1][{0}] = {1}",
                     i,jaggedArray[1][i]);
             }
             for (int i = 0;i < rowTwo; i++)
             {
                 Console.WriteLine("jaggedArray[2][{0}] = {1}",
                     i,jaggedArray[2][i]);
             }
             for (int i = 0;i < rowThree; i++)
             {
                 Console.WriteLine("jaggedArray[3][{0}] = {1}",
                     i,jaggedArray[3][i]);
             }
         }
     }
 }


Multi Dimensional Arrays

/*
Learning C# 
by Jesse Liberty
Publisher: O"Reilly 
ISBN: 0596003765
*/
 using System;
 namespace MultiDimensionalArrays
 {
    public class TesterMultiDimensionalArrays
    {
       [STAThread]
       static void Main()
       {
           const int rows = 4;
           const int columns = 3;
           // declare a 4x3 integer array
           int[,] rectangularArray = new int[rows, columns];
           // populate the array
           for (int i = 0;i < rows;i++)
           {
               for (int j = 0;j<columns;j++)
               {
                   rectangularArray[i,j] = i+j;
               }
           }
           // report the contents of the array
           for (int i = 0;i < rows;i++)
           {
               for (int j = 0;j<columns;j++)
               {
                   Console.WriteLine("rectangularArray[{0},{1}] = {2}",
                       i,j,rectangularArray[i,j]);
               }
           }
       }
    }
 }


Reverse an array

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Reverse an array. 
 
using System;  
  
public class ReverseDemo {     
  public static void Main() {     
    int[] nums = { 1, 2, 3, 4, 5 }; 
   
    // Display original order. 
    Console.Write("Original order: "); 
    foreach(int i in nums)  
      Console.Write(i + " "); 
    Console.WriteLine(); 
 
    // Reverse the entire array. 
    Array.Reverse(nums); 
 
    // Display reversed order. 
    Console.Write("Reversed order: "); 
    foreach(int i in nums)  
      Console.Write(i + " "); 
    Console.WriteLine(); 
 
    // Reverse a range. 
    Array.Reverse(nums, 1, 3); 
 
    // Display reversed order. 
    Console.Write("Range reversed: "); 
    foreach(int i in nums)  
      Console.Write(i + " "); 
    Console.WriteLine(); 
  } 
}


Reverse an array 2

// Reverse an array. 
 
using System; 
 
public class RevCopy {  
  public static void Main() {  
    int i,j; 
    int[] nums1 = new int[10]; 
    int[] nums2 = new int[10]; 
 
    for(i=0; i < nums1.Length; i++) nums1[i] = i; 
 
    Console.Write("Original contents: "); 
    for(i=0; i < nums2.Length; i++) 
      Console.Write(nums1[i] + " ");   
 
    Console.WriteLine(); 
 
    // reverse copy nums1 to nums2 
    if(nums2.Length >= nums1.Length){
      for(i=0, j=nums1.Length-1; i < nums1.Length; i++, j--) {
        nums2[j] = nums1[i]; 
      }  
    }
    Console.Write("Reversed contents: "); 
    for(i=0; i < nums2.Length; i++) 
      Console.Write(nums2[i] + " ");   
 
    Console.WriteLine(); 
  } 
}


Sort an array and search for a value

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Sort an array and search for a value. 
 
using System;  
  
public class SortDemo {     
  public static void Main() {     
    int[] nums = { 5, 4, 6, 3, 14, 9, 8, 17, 1, 24, -1, 0 }; 
   
    // Display original order. 
    Console.Write("Original order: "); 
    foreach(int i in nums)  
      Console.Write(i + " "); 
    Console.WriteLine(); 
 
    // Sort the array. 
    Array.Sort(nums); 
 
    // Display sorted order. 
    Console.Write("Sorted order:   "); 
    foreach(int i in nums)  
      Console.Write(i + " "); 
    Console.WriteLine(); 
 
 
    // Search for 14. 
    int idx = Array.BinarySearch(nums, 14); 
 
    Console.WriteLine("Index of 14 is " + idx); 
  }     
}


Sort and search an array of objects

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Sort and search an array of objects. 
 
using System;  
 
class MyClass : IComparable { 
  public int i; 
  
  public MyClass(int x) { i = x; } 
 
  // Implement IComparable. 
  public int CompareTo(object v) { 
    return i - ((MyClass)v).i; 
  } 
} 
  
public class SortDemo1 {     
  public static void Main() {     
    MyClass[] nums = new MyClass[5]; 
 
    nums[0] = new MyClass(5); 
    nums[1] = new MyClass(2); 
    nums[2] = new MyClass(3); 
    nums[3] = new MyClass(4); 
    nums[4] = new MyClass(1); 
   
    // Display original order. 
    Console.Write("Original order: "); 
    foreach(MyClass o in nums)  
      Console.Write(o.i + " "); 
    Console.WriteLine(); 
 
    // Sort the array. 
    Array.Sort(nums); 
 
    // Display sorted order. 
    Console.Write("Sorted order:   "); 
    foreach(MyClass o in nums)  
      Console.Write(o.i + " "); 
    Console.WriteLine(); 
 
    // Search for MyClass(2). 
    MyClass x = new MyClass(2); 
    int idx = Array.BinarySearch(nums, x); 
 
    Console.WriteLine("Index of MyClass(2) is " + idx); 
  }     
}


Stores a sequence of temperatures in an array

/*
C# Programming Tips & Techniques
by Charles Wright, Kris Jamsa
Publisher: Osborne/McGraw-Hill (December 28, 2001)
ISBN: 0072193794
*/
// GetTemps.cs -- Stores a sequence of temperatures in an array
//
//                Compile this program with the following command line:
//                    C:>csc GetTemps.cs
//
namespace nsTemperatures
{
    using System;
    
    public class GetTemps
    {
        static public void Main ()
        {
            int [] Temps = new int [24]
                           {48, 47, 45, 45, 44, 45, 48, 54,
                            59, 64, 70, 75, 86, 92, 98, 101,
                            99, 97, 96, 91, 82, 70, 63, 55}
            ;
            for (int x = 0; x < 24; ++x)
            {
                while (true)
                {
                    Console.Write ("Enter the temperature for " + 
                                    (x == 0 ? "Midnight"
                                    : (x == 12 ? "Noon"
                                    : ((x < 12 ? x.ToString() + " a."
                                    : ((x - 12).ToString() + " p."))
                                    + "m."))) + ": "
                                  );
                    try
                    {
                        Temps[x] = Convert.ToInt32 (Console.ReadLine ());
                        break;
                    }
                    catch
                    {
                         Console.WriteLine ("\r\nPlease enter a number value.");
                    }
                }
            }
            Console.WriteLine ("The daily temperature report:");
            for (int x = 0; x < 24; x += 4)
            {
                Console.WriteLine ("{0,4:D4} : {1,3:D}\t{2,4:D4}: {3,3:D}\t" +
                                   "{4,4:D4}: {5,3:D}\t{6,4:D4}: {7,3:D}",
                                   x * 100, Temps[x],
                                   (x + 1) * 100, Temps[x + 1],
                                   (x + 2) * 100, Temps[x + 2],
                                   (x + 3) * 100, Temps[x + 3]);
            }
        }
    }
}


Sums the values in an array using a foreach loop 1

// Sums the values in an array using a foreach loop
    using System;
    
    public class InitArr
    {
        static public void Main ()
        {
             DateTime now = DateTime.Now;
             Random rand = new Random ((int) now.Millisecond);
             int [] Arr = new int []
                        {rand.Next () % 100, rand.Next () % 100,
                         rand.Next () % 100, rand.Next () % 100,
                         rand.Next () % 100, rand.Next () % 100,
                         rand.Next () % 100, rand.Next () % 100,
                         rand.Next () % 100, rand.Next () % 100
                        };
             int Total = 0;
             Console.Write ("Array values are ");
             foreach (int val in Arr)
             {
                 Total += val;
                 Console.Write (val + ", ");
             } 
             Console.WriteLine ("and the average is {0,0:F1}",
                               (double) Total / (double) Arr.Length);
        }
    }


System.Array Type:Reverse

using System;
public class SystemArrayTypeReverse
{
    public static void Main()
    {
        int[] arr = {5, 6, 7};
        Array.Reverse(arr);
        foreach (int value in arr)
        {
            Console.WriteLine("Value: {0}", value);
        }
    }
}


Use object to create a generic array

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/

// Use object to create a generic array. 
 
using System; 
 
public class GenericDemo {   
  public static void Main() {   
    object[] ga = new object[10]; 
  
    // store ints 
    for(int i=0; i < 3; i++) 
      ga[i] = i; 
  
    // store doubles 
    for(int i=3; i < 6; i++) 
      ga[i] = (double) i / 2;  
 
 
    // store two strings, a bool, and a char 
    ga[6] = "Generic Array"; 
    ga[7] = true; 
    ga[8] = "X"; 
    ga[9] = "end"; 
 
    for(int i = 0; i < ga.Length; i++) 
      Console.WriteLine("ga[" + i + "]: " + ga[i] + " "); 
 
  }  
}


Uses the Array.Copy() method to copy an array of ints into an array of doubles 2

/*
C# Programming Tips & Techniques
by Charles Wright, Kris Jamsa
Publisher: Osborne/McGraw-Hill (December 28, 2001)
ISBN: 0072193794
*/
//
//  Int2Dbl.cs -- Uses the Array.Copy() method to copy an array of ints
//                into an array of doubles.
//
//                Compile this program with the following command line:
//                    C:>csc Int2Dbl.cs
//
namespace nsArray
{
    using System;
    
    public class Int2Dbl
    {
        static public void Main ()
        {
            DateTime now = DateTime.Now;
            Random rand = new Random ((int) now.Millisecond);
            int [] iArr = new int [10]
                    {
                        rand.Next() % 101, rand.Next() % 101,
                        rand.Next() % 101, rand.Next() % 101,
                        rand.Next() % 101, rand.Next() % 101,
                        rand.Next() % 101, rand.Next() % 101,
                        rand.Next() % 101, rand.Next() % 101
                    };
                    
            double [] dArr = new double [8];
            Array.Copy (iArr, dArr, dArr.Length);
            Console.Write ("The dArr contains:\r\n    ");
            foreach (double d in dArr)
            {
                Console.Write ("{0,4:F1}  ", d);
            }
            Console.Write ("\r\n\r\nThe iArr contains:\r\n    ");
            foreach (int x in iArr)
            {
                Console.Write (x + "  ");
            }
            Console.WriteLine ();
        }
    }
}


Uses the Array.Copy() method to copy part of an array ints into a secton of an array of doubles

/*
C# Programming Tips & Techniques
by Charles Wright, Kris Jamsa
Publisher: Osborne/McGraw-Hill (December 28, 2001)
ISBN: 0072193794
*/
//
//  CopyPart.cs -- Uses the Array.Copy() method to copy part of an array
//                 ints into a secton of an array of doubles.
//
//                 Compile this program with the following command line:
//                     C:>csc CopyPart.cs
//
namespace nsArray
{
    using System;
    
    public class CopyPart
    {
        static public void Main ()
        {
            DateTime now = DateTime.Now;
            Random rand = new Random ((int) now.Millisecond);
            int [] iArr = new int [12]
                    {
                        rand.Next() % 101, rand.Next() % 101,
                        rand.Next() % 101, rand.Next() % 101,
                        rand.Next() % 101, rand.Next() % 101,
                        rand.Next() % 101, rand.Next() % 101,
                        rand.Next() % 101, rand.Next() % 101,
                        rand.Next() % 101, rand.Next() % 101
                    };
                    
            double [] dArr = new double [14];
            Array.Copy (iArr, 2, dArr, 4, 8);
            Console.Write ("The dArr contains:\r\n    ");
            for (int x = 0; x < dArr.Length; ++x)
            {
                Console.Write ("{0,4:F1}  ", dArr[x]);
                if (x == 6)
                    Console.Write("\r\n    ");
            }
            Console.Write ("\r\n\r\nThe iArr contains:\r\n    ");
            foreach (int x in iArr)
            {
                Console.Write (x + "  ");
            }
            Console.WriteLine ();
        }
    }
}


Use the Length array property

// Use the Length array property.  
 
using System; 
 
public class LengthDemo {  
  public static void Main() {  
    int[] nums = new int[10];  
 
    Console.WriteLine("Length of nums is " + nums.Length);  
  
    for(int i=0; i < nums.Length; i++)  
      nums[i] = i * i;  
  
    Console.Write("Here is nums: "); 
    for(int i=0; i < nums.Length; i++)  
      Console.Write(nums[i] + " ");  
 
    Console.WriteLine(); 
  }  
}