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Текущая версия на 11:39, 26 мая 2010

C# Ref and Out Parameters

using System;
class Point
{
    public Point(int x, int y)
    {
        this.x = x;
        this.y = y;
    }
    
    public void GetPoint(ref int x, ref int y)
    {
        x = this.x;
        y = this.y;
    }
    
    int x;
    int y;
}
public class RefOutParameters2
{
    public static void Main()
    {
        Point myPoint = new Point(10, 15);
        int x = 0;
        int y = 0;
        
        myPoint.GetPoint(ref x, ref y);
        Console.WriteLine("myPoint({0}, {1})", x, y);
    }
}


Demonstrate params

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Demonstrate params. 
 
using System; 
 
class Min { 
  public int minVal(params int[] nums) { 
    int m; 
 
    if(nums.Length == 0) { 
      Console.WriteLine("Error: no arguments."); 
      return 0; 
    } 
 
    m = nums[0]; 
    for(int i=1; i < nums.Length; i++)  
      if(nums[i] < m) m = nums[i]; 
 
    return m; 
  } 
} 
 
public class ParamsDemo { 
  public static void Main() { 
    Min ob = new Min(); 
    int min; 
    int a = 10, b = 20; 
 
    // call with two values 
    min = ob.minVal(a, b); 
    Console.WriteLine("Minimum is " + min); 
 
    // call with 3 values 
    min = ob.minVal(a, b, -1); 
    Console.WriteLine("Minimum is " + min); 
 
    // call with 5 values 
    min = ob.minVal(18, 23, 3, 14, 25); 
    Console.WriteLine("Minimum is " + min); 
 
    // can call with an int array, too 
    int[] args = { 45, 67, 34, 9, 112, 8 }; 
    min = ob.minVal(args); 
    Console.WriteLine("Minimum is " + min); 
  } 
}


Illustrates the use of out parameters

/*
Mastering Visual C# .NET
by Jason Price, Mike Gunderloy
Publisher: Sybex;
ISBN: 0782129110
*/
/*
  Example5_8.cs illustrates the use of out parameters
*/

// declare the MyMath class
class MyMath
{
  // the SinAndCos() method returns the sin and cos values for
  // a given angle (in radians)
  public void SinAndCos(double angle, out double sin, out double cos) {
    sin = System.Math.Sin(angle);
    cos = System.Math.Cos(angle);
  }
}

public class Example5_8
{
  public static void Main()
  {
    // declare and set the angle in radians
    double angle = System.Math.PI / 2;
    // declare the variables that will be used as out paramters
    double sin;
    double cos;
    // create a MyMath object
    MyMath myMath = new MyMath();
    // get the sin and cos values from the SinAndCos() method
    myMath.SinAndCos(angle, out sin, out cos);
    // display sin and cos
    System.Console.WriteLine("sin = " + sin + ", cos = " + cos);
  }
}


Objects are passed by reference

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Objects are passed by reference. 
 
using System; 
 
class Test { 
  public int a, b; 
 
  public Test(int i, int j) { 
    a = i; 
    b = j; 
  }
  /* Pass an object. Now, ob.a and ob.b in object 
     used in the call will be changed. */ 
  public void change(Test ob) { 
    ob.a = ob.a + ob.b; 
    ob.b = -ob.b; 
  } 
} 
 
public class CallByRef { 
  public static void Main() { 
    Test ob = new Test(15, 20); 
 
    Console.WriteLine("ob.a and ob.b before call: " + 
                       ob.a + " " + ob.b); 
 
    ob.change(ob); 
 
    Console.WriteLine("ob.a and ob.b after call: " + 
                       ob.a + " " + ob.b); 
  } 
}


Objects can be passed to methods

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Objects can be passed to methods.  
 
using System; 
 
class MyClass {  
  int alpha, beta; 
  
  public MyClass(int i, int j) {  
    alpha = i;  
    beta = j;  
  }  
  
  /* Return true if ob contains the same values 
     as the invoking object. */ 
  public bool sameAs(MyClass ob) {  
    if((ob.alpha == alpha) & (ob.beta == beta)) 
       return true;  
    else return false;  
  }  
 
  // Make a copy of ob. 
  public void copy(MyClass ob) { 
    alpha = ob.alpha; 
    beta  = ob.beta; 
  } 
 
  public void show() { 
    Console.WriteLine("alpha: {0}, beta: {1}", 
                      alpha, beta); 
  } 
}  
  
public class PassOb {  
  public static void Main() { 
    MyClass ob1 = new MyClass(4, 5);  
    MyClass ob2 = new MyClass(6, 7);  
  
    Console.Write("ob1: "); 
    ob1.show(); 
 
    Console.Write("ob2: "); 
    ob2.show(); 
 
    if(ob1.sameAs(ob2))  
      Console.WriteLine("ob1 and ob2 have the same values."); 
    else 
      Console.WriteLine("ob1 and ob2 have different values."); 
 
    Console.WriteLine(); 
 
    // now, make ob1 a copy of ob2 
    ob1.copy(ob2); 
 
    Console.Write("ob1 after copy: "); 
    ob1.show(); 
 
    if(ob1.sameAs(ob2))  
      Console.WriteLine("ob1 and ob2 have the same values."); 
    else 
      Console.WriteLine("ob1 and ob2 have different values."); 
 
  }  
}


Parameter demo

/*
Learning C# 
by Jesse Liberty
Publisher: O"Reilly 
ISBN: 0596003765
*/
 using System;
 namespace ParamsDemo
 {
    public class TesterParamsDemo
    {
       public void Run()
       {
           int a = 5;
           int b = 6;
           int c = 7;
           Console.WriteLine("Calling with three integers");
           DisplayVals(a,b,c);
           Console.WriteLine("\nCalling with four integers");
           DisplayVals(5,6,7,8);
           Console.WriteLine("\ncalling with an array of four integers");
           int [] explicitArray = new int[4] {5,6,7,8};
           DisplayVals(explicitArray);
       }
        // takes a variable number of integers
        public void DisplayVals(params int[] intVals)
        {
            foreach (int i in intVals)
            {
                Console.WriteLine("DisplayVals {0}",i);
            }
        }
       [STAThread]
       static void Main()
       {
          TesterParamsDemo t = new TesterParamsDemo();
          t.Run();
       }
    }
 }


Parameter out and reference

using System;  

class ReferenceAndOutputParamtersTest
{
   static void Main( string[] args )
   {
      int y = 5;
      int z; 
      Console.WriteLine( "Original value of y: {0}", y );
      Console.WriteLine( "Original value of z: uninitialized\n" );
      SquareRef( ref y ); // must use keyword ref
      SquareOut( out z ); // must use keyword out
      Console.WriteLine( "Value of y after SquareRef: {0}", y );
      Console.WriteLine( "Value of z after SquareOut: {0}\n", z );
      Square( y );
      Square( z );
      Console.WriteLine( "Value of y after Square: {0}", y );
      Console.WriteLine( "Value of z after Square: {0}", z );
   } 
   static void SquareRef( ref int x )
   {
      x = x * x;
   }
   static void SquareOut( out int x )
   {
      x = 6;
      x = x * x;
   } 
   static void Square( int x )
   {
      x = x * x;
   } 
}


Passing parameters by reference

/*
Mastering Visual C# .NET
by Jason Price, Mike Gunderloy
Publisher: Sybex;
ISBN: 0782129110
*/
/*
  Example5_7.cs illustrates passing parameters by reference
*/

// declare the Swapper class
class Swapper
{
  // the Swap() method swaps parameters passed by reference
  public void Swap(ref int x, ref int y)
  {
    // display the initial values
    System.Console.WriteLine("In Swap(): initial x = " + x +
      ", y = " + y);
    // swap x and y
    int temp = x;
    x = y;
    y = temp;
    // display the final values
    System.Console.WriteLine("In Swap(): final   x = " + x +
      ", y = " + y);
  }
}

public class Example5_7
{
  public static void Main()
  {
    // declare x and y (the variables whose values
    // are to be swapped)
    int x = 2;
    int y = 5;
    // display the initial values
    System.Console.WriteLine("In Main(): initial x = " + x +
      ", y = " + y);
    // create a Swapper object
    Swapper mySwapper = new Swapper();
    // swap the values, passing a reference to the Swap() method
    mySwapper.Swap(ref x, ref y);
    // display the final values
    System.Console.WriteLine("In Main(): final   x = " + x +
      ", y = " + y);
  }
}


Passing parameters by value

/*
Mastering Visual C# .NET
by Jason Price, Mike Gunderloy
Publisher: Sybex;
ISBN: 0782129110
*/
/*
  Example5_6.cs illustrates passing parameters by value
*/

// declare the Swapper class
class Swapper
{
  // the Swap() method swaps parameters passed by value
  public void Swap(int x, int y)
  {
    // display the initial values
    System.Console.WriteLine("In Swap(): initial x = " + x +
      ", y = " + y);
    // swap x and y
    int temp = x;
    x = y;
    y = temp;
    // display the final values
    System.Console.WriteLine("In Swap(): final   x = " + x +
      ", y = " + y);
  }
}

public class Example5_6
{
  public static void Main()
  {
    // declare x and y (the variables whose values
    // are to be swapped)
    int x = 2;
    int y = 5;
    // display the initial values
    System.Console.WriteLine("In Main(): initial x = " + x +
      ", y = " + y);
    // create a Swapper object
    Swapper mySwapper = new Swapper();
    // swap the values in x and y
    mySwapper.Swap(x, y);
    // display the final values
    System.Console.WriteLine("In Main(): final   x = " + x +
      ", y = " + y);
  }
}


Passing Parameters By Value and By Ref

/*
 * C# Programmers Pocket Consultant
 * Author: Gregory S. MacBeth
 * Email: gmacbeth@comporium.net
 * Create Date: June 27, 2003
 * Last Modified Date:
 */
using System;
namespace Client.Chapter_5___Building_Your_Own_Classes
{
  public class PassingParametersByValueandByRef
  {
    static void Main(string[] args)
    {
      int MyInt = 5;
      MyIntArray = new int[10];
      ObjectCount++;
      Method2();
      Method2(1, 2);
      MyMethodRef(ref MyInt);
      Method2(new int[] { 1, 2, 3, 4 });
    }
    static private int MyInt = 5;
    static public int MyInt2 = 10;
    static public int[] MyIntArray;
    private static int ObjectCount = 0;
    static public int MyMethodRef(ref int myInt)
    {
      MyInt = MyInt + myInt;
      return MyInt;
    }
    static public int MyMethod(int myInt)
    {
      MyInt = MyInt + myInt;
      return MyInt;
    }
    static private long MyLongMethod(ref int myInt)
    {
      return myInt;
    }
    static public void Method2(params int[] args)
    {
      for (int I = 0; I < args.Length; I++)
        Console.WriteLine(args[I]);
    }
  }
}


Pass value by reference

/*
Learning C# 
by Jesse Liberty
Publisher: O"Reilly 
ISBN: 0596003765
*/
 using System;
 namespace PassByRef
 {
     public class Time3
     {
         // private member variables
         private int Year;
         private int Month;
         private int Date;
         private int Hour;
         private int Minute;
         private int Second;
         // Property (read only)
         public int GetHour()
         {
             return Hour;
         }
         // public accessor methods
         public void DisplayCurrentTime()
         {
             System.Console.WriteLine("{0}/{1}/{2} {3}:{4}:{5}",
                 Month, Date, Year, Hour, Minute, Second);
         }
         public void GetTime(int h, int m, int s)
         {
             h = Hour;
             m = Minute;
             s = Second;
         }
         // constructor
         public Time3(System.DateTime dt)
         {
             Year = dt.Year;
             Month = dt.Month;
             Date = dt.Day;
             Hour = dt.Hour;
             Minute = dt.Minute;
             Second = dt.Second;
         }

     }
    public class PassByRefTester
    {
       public void Run()
       {
           System.DateTime currentTime = System.DateTime.Now;
           Time3 t = new Time3(currentTime);
           t.DisplayCurrentTime();
           int theHour = 0;
           int theMinute = 0;
           int theSecond = 0;
           t.GetTime(theHour, theMinute, theSecond);
           System.Console.WriteLine("Current time: {0}:{1}:{2}",
               theHour, theMinute, theSecond);
       }
       static void Main()
       {
          PassByRefTester t = new PassByRefTester();
          t.Run();
       }
    }
 }


Pass value by reference with read only value

/*
Learning C# 
by Jesse Liberty
Publisher: O"Reilly 
ISBN: 0596003765
*/
 using System;
 namespace PassByRef
 {
     public class Time
     {
         // private member variables
         private int Year;
         private int Month;
         private int Date;
         private int Hour;
         private int Minute;
         private int Second;
         // Property (read only)
         public int GetHour()
         {
             return Hour;
         }
         // public accessor methods
         public void DisplayCurrentTime()
         {
             System.Console.WriteLine("{0}/{1}/{2} {3}:{4}:{5}",
                 Month, Date, Year, Hour, Minute, Second);
         }
         // takes references to ints
         public void GetTime(ref int h, ref int m, ref int s)
         {
             h = Hour;
             m = Minute;
             s = Second;
         }
         // constructor
         public Time(System.DateTime dt)
         {
             Year = dt.Year;
             Month = dt.Month;
             Date = dt.Day;
             Hour = dt.Hour;
             Minute = dt.Minute;
             Second = dt.Second;
         }

     }
    public class TesterPassByRef
    {
       public void Run()
       {
           System.DateTime currentTime = System.DateTime.Now;
           Time t = new Time(currentTime);
           t.DisplayCurrentTime();
           int theHour = 0;
           int theMinute = 0;
           int theSecond = 0;
           // pass the ints by reference
           t.GetTime(ref theHour, ref theMinute, ref theSecond);
           System.Console.WriteLine("Current time: {0}:{1}:{2}",
               theHour, theMinute, theSecond);
       }
       static void Main()
       {
          TesterPassByRef t = new TesterPassByRef();
          t.Run();
       }
    }
 }


Ref and Out Parameters 2

using System;
class Point
{
    public Point(int x, int y)
    {
        this.x = x;
        this.y = y;
    }
    
    public void GetPoint(out int x, out int y)
    {
        x = this.x;
        y = this.y;
    }
    
    int x;
    int y;
}
public class RefOutParameters3
{
    public static void Main()
    {
        Point myPoint = new Point(10, 15);
        int x;
        int y;
        
        myPoint.GetPoint(out x, out y);
        Console.WriteLine("myPoint({0}, {1})", x, y);
    }
}


Ref and Out Parameters: compiling error

// error
using System;
class Point
{
    public Point(int x, int y)
    {
        this.x = x;
        this.y = y;
    }
    // get both values in one function call
    public void GetPoint(ref int x, ref int y)
    {
        x = this.x;
        y = this.y;
    }
    
    int x;
    int y;
}
public class RefOutParameters {
    public static void Main()
    {
        Point myPoint = new Point(10, 15);
        int x;
        int y;
        
        // illegal 
        myPoint.GetPoint(ref x, ref y);
        Console.WriteLine("myPoint({0}, {1})", x, y);
    }
}


Simple types are passed by value

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Simple types are passed by value. 
 
using System; 
 
class Test { 
  /* This method causes no change to the arguments 
     used in the call. */ 
  public void noChange(int i, int j) { 
    i = i + j; 
    j = -j; 
  } 
} 
 
public class CallByValue { 
  public static void Main() { 
    Test ob = new Test(); 
 
    int a = 15, b = 20; 
 
    Console.WriteLine("a and b before call: " + 
                       a + " " + b); 
 
    ob.noChange(a, b);  
 
    Console.WriteLine("a and b after call: " + 
                       a + " " + b); 
  } 
}


Swap two references

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Swap two references. 
 
using System; 
 
class RefSwap { 
  int a, b; 
   
  public RefSwap(int i, int j) { 
    a = i; 
    b = j; 
  } 
 
  public void show() { 
    Console.WriteLine("a: {0}, b: {1}", a, b); 
  } 
 
  // This method now changes its arguments. 
  public void swap(ref RefSwap ob1, ref RefSwap ob2) { 
    RefSwap t; 
  
    t = ob1; 
    ob1 = ob2; 
    ob2 = t; 
  } 
} 
 
public class RefSwapDemo { 
  public static void Main() { 
    RefSwap x = new RefSwap(1, 2); 
    RefSwap y = new RefSwap(3, 4); 
 
    Console.Write("x before call: "); 
    x.show(); 
 
    Console.Write("y before call: "); 
    y.show(); 
 
    Console.WriteLine(); 
 
    // exchange the objects to which x and y refer 
    x.swap(ref x, ref y);  
 
    Console.Write("x after call: "); 
    x.show(); 
 
    Console.Write("y after call: "); 
    y.show(); 
 
  } 
}


Swap two values

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Swap two values. 
 
using System; 
 
class Swap { 
  // This method now changes its arguments. 
  public void swap(ref int a, ref int b) { 
    int t; 
  
    t = a; 
    a = b; 
    b = t; 
  } 
} 
 
public class SwapDemo { 
  public static void Main() { 
    Swap ob = new Swap(); 
 
    int x = 10, y = 20; 
 
    Console.WriteLine("x and y before call: " + x + " " + y); 
 
    ob.swap(ref x, ref y);  
 
    Console.WriteLine("x and y after call: " + x + " " + y); 
  } 
}


Use out

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Use out. 
 
using System; 
 
class Decompose { 
 
  /* Decompose a floating-point value into its 
      integer and fractional parts. */ 
  public int parts(double n, out double frac) { 
    int whole; 
 
    whole = (int) n; 
    frac = n - whole; // pass fractional part back through frac 
    return whole; // return integer portion 
  } 
} 
  
public class UseOut { 
  public static void Main() {   
   Decompose ob = new Decompose(); 
    int i; 
    double f; 
 
    i = ob.parts(10.125, out f); 
 
    Console.WriteLine("Integer portion is " + i); 
    Console.WriteLine("Fractional part is " + f); 
  } 
}


Use ref to pass a value type by reference

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Use ref to pass a value type by reference. 
 
using System; 
 
class RefTest { 
  /* This method changes its arguments. 
     Notice the use of ref. */ 
  public void sqr(ref int i) { 
    i = i * i; 
  } 
} 
 
public class RefDemo { 
  public static void Main() { 
    RefTest ob = new RefTest(); 
 
    int a = 10; 
 
    Console.WriteLine("a before call: " + a); 
 
    ob.sqr(ref a); // notice the use of ref 
 
    Console.WriteLine("a after call: " + a); 
  } 
}


Use regular parameter with a params parameter

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Use regular parameter with a params parameter. 
 
using System; 
 
class MyClass { 
  public void showArgs(string msg, params int[] nums) { 
    Console.Write(msg + ": "); 
 
    foreach(int i in nums) 
      Console.Write(i + " "); 
 
    Console.WriteLine(); 
  } 
} 
 
public class ParamsDemo2 { 
  public static void Main() { 
    MyClass ob = new MyClass(); 
 
    ob.showArgs("Here are some integers",  
                1, 2, 3, 4, 5); 
 
    ob.showArgs("Here are two more",  
                17, 20); 
 
  } 
}


Use two out parameters

/*
C#: The Complete Reference 
by Herbert Schildt 
Publisher: Osborne/McGraw-Hill (March 8, 2002)
ISBN: 0072134852
*/
// Use two out parameters. 
 
using System; 
 
class Num { 
  /* Determine if x and v have a common denominator. 
     If so, return least and greatest common denominators in  
     the out parameters. */ 
  public bool isComDenom(int x, int y, 
                         out int least, out int greatest) { 
    int i; 
    int max = x < y ? x : y; 
    bool first = true; 
 
    least = 1; 
    greatest = 1;  
 
    // find least and treatest common denominators 
    for(i=2; i <= max/2 + 1; i++) { 
      if( ((y%i)==0) & ((x%i)==0) ) { 
        if(first) { 
          least = i; 
          first = false; 
        } 
        greatest = i; 
      } 
    } 
 
    if(least != 1) return true; 
    else return false; 
  } 
} 
  
public class DemoOut { 
  public static void Main() {   
    Num ob = new Num(); 
    int lcd, gcd; 
 
    if(ob.isComDenom(231, 105, out lcd, out gcd)) { 
      Console.WriteLine("Lcd of 231 and 105 is " + lcd); 
      Console.WriteLine("Gcd of 231 and 105 is " + gcd); 
    } 
    else 
      Console.WriteLine("No common denominator for 35 and 49."); 
 
    if(ob.isComDenom(35, 51, out lcd, out gcd)) { 
      Console.WriteLine("Lcd of 35 and 51 " + lcd); 
      Console.WriteLine("Gcd of 35 and 51 is " + gcd); 
    } 
    else 
      Console.WriteLine("No common denominator for 35 and 51."); 
 
  } 
}