linux-packaging-mono/mcs/class/referencesource/mscorlib/system/random.cs

// ==++==
// 
//   Copyright (c) Microsoft Corporation.  All rights reserved.
// 
// ==--==
/*============================================================
**
** Class:  Random
**
**
** Purpose: A random number generator.
**
** 
===========================================================*/
namespace System {
    
    using System;
    using System.Runtime;
    using System.Runtime.CompilerServices;
    using System.Globalization;
    using System.Diagnostics.Contracts;
[System.Runtime.InteropServices.ComVisible(true)]
    [Serializable]
    public class Random {
      //
      // Private Constants 
      //
      private const int MBIG =  Int32.MaxValue;
      private const int MSEED = 161803398;
      private const int MZ = 0;
    
      
      //
      // Member Variables
      //
      private int inext;
      private int inextp;
      private int[] SeedArray = new int[56];
    
      //
      // Public Constants
      //
    
      //
      // Native Declarations
      //
    
      //
      // Constructors
      //
    
      public Random() 
        : this(Environment.TickCount) {
      }
    
      public Random(int Seed) {
        int ii;
        int mj, mk;
    
        //Initialize our Seed array.
        //This algorithm comes from Numerical Recipes in C (2nd Ed.)
        int subtraction = (Seed == Int32.MinValue) ? Int32.MaxValue : Math.Abs(Seed);
        mj = MSEED - subtraction;
        SeedArray[55]=mj;
        mk=1;
        for (int i=1; i<55; i++) {  //Apparently the range [1..55] is special (Knuth) and so we're wasting the 0'th position.
          ii = (21*i)%55;
          SeedArray[ii]=mk;
          mk = mj - mk;
          if (mk<0) mk+=MBIG;
          mj=SeedArray[ii];
        }
        for (int k=1; k<5; k++) {
          for (int i=1; i<56; i++) {
        SeedArray[i] -= SeedArray[1+(i+30)%55];
        if (SeedArray[i]<0) SeedArray[i]+=MBIG;
          }
        }
        inext=0;
        inextp = 21;
        Seed = 1;
      }
    
      //
      // Package Private Methods
      //
    
      /*====================================Sample====================================
      **Action: Return a new random number [0..1) and reSeed the Seed array.
      **Returns: A double [0..1)
      **Arguments: None
      **Exceptions: None
      ==============================================================================*/
      protected virtual double Sample() {
          //Including this division at the end gives us significantly improved
          //random number distribution.
          return (InternalSample()*(1.0/MBIG));
      }
    
      private int InternalSample() {
          int retVal;
          int locINext = inext;
          int locINextp = inextp;

          if (++locINext >=56) locINext=1;
          if (++locINextp>= 56) locINextp = 1;
          
          retVal = SeedArray[locINext]-SeedArray[locINextp];

          if (retVal == MBIG) retVal--;          
          if (retVal<0) retVal+=MBIG;
          
          SeedArray[locINext]=retVal;

          inext = locINext;
          inextp = locINextp;
                    
          return retVal;
      }

      //
      // Public Instance Methods
      // 
    
    
      /*=====================================Next=====================================
      **Returns: An int [0..Int32.MaxValue)
      **Arguments: None
      **Exceptions: None.
      ==============================================================================*/
      public virtual int Next() {
        return InternalSample();
      }
    
      private double GetSampleForLargeRange() {
          // The distribution of double value returned by Sample 
          // is not distributed well enough for a large range.
          // If we use Sample for a range [Int32.MinValue..Int32.MaxValue)
          // We will end up getting even numbers only.

          int result = InternalSample();
          // Note we can't use addition here. The distribution will be bad if we do that.
          bool negative = (InternalSample()%2 == 0) ? true : false;  // decide the sign based on second sample
          if( negative) {
              result = -result;
          }
          double d = result;
          d += (Int32.MaxValue - 1); // get a number in range [0 .. 2 * Int32MaxValue - 1)
          d /= 2*(uint)Int32.MaxValue - 1  ;              
          return d;
      }


      /*=====================================Next=====================================
      **Returns: An int [minvalue..maxvalue)
      **Arguments: minValue -- the least legal value for the Random number.
      **           maxValue -- One greater than the greatest legal return value.
      **Exceptions: None.
      ==============================================================================*/
      public virtual int Next(int minValue, int maxValue) {
          if (minValue>maxValue) {
              throw new ArgumentOutOfRangeException("minValue",Environment.GetResourceString("Argument_MinMaxValue", "minValue", "maxValue"));
          }
          Contract.EndContractBlock();
          
          long range = (long)maxValue-minValue;
          if( range <= (long)Int32.MaxValue) {  
              return ((int)(Sample() * range) + minValue);
          }          
          else { 
              return (int)((long)(GetSampleForLargeRange() * range) + minValue);
          }
      }
    
    
      /*=====================================Next=====================================
      **Returns: An int [0..maxValue)
      **Arguments: maxValue -- One more than the greatest legal return value.
      **Exceptions: None.
      ==============================================================================*/
      public virtual int Next(int maxValue) {
          if (maxValue<0) {
              throw new ArgumentOutOfRangeException("maxValue", Environment.GetResourceString("ArgumentOutOfRange_MustBePositive", "maxValue"));
          }
          Contract.EndContractBlock();
          return (int)(Sample()*maxValue);
      }
    
    
      /*=====================================Next=====================================
      **Returns: A double [0..1)
      **Arguments: None
      **Exceptions: None
      ==============================================================================*/
      public virtual double NextDouble() {
        return Sample();
      }
    
    
      /*==================================NextBytes===================================
      **Action:  Fills the byte array with random bytes [0..0x7f].  The entire array is filled.
      **Returns:Void
      **Arugments:  buffer -- the array to be filled.
      **Exceptions: None
      ==============================================================================*/
      public virtual void NextBytes(byte [] buffer){
        if (buffer==null) throw new ArgumentNullException("buffer");
        Contract.EndContractBlock();
        for (int i=0; i<buffer.Length; i++) {
          buffer[i]=(byte)(InternalSample()%(Byte.MaxValue+1)); 
        }
      }
    }


}
Imported Upstream version 4.6.0.125 Former-commit-id: a2155e9bd80020e49e72e86c44da02a8ac0e57a4 2016-08-03 10:59:49 +00:00			`// ==++==`
			`//`
			`// Copyright (c) Microsoft Corporation. All rights reserved.`
			`//`
			`// ==--==`
			`/*============================================================`
			`**`
			`** Class: Random`
			`**`
			`**`
			`** Purpose: A random number generator.`
			`**`
			`**`
			`===========================================================*/`
			`namespace System {`

			`using System;`
			`using System.Runtime;`
			`using System.Runtime.CompilerServices;`
			`using System.Globalization;`
			`using System.Diagnostics.Contracts;`
			`[System.Runtime.InteropServices.ComVisible(true)]`
			`[Serializable]`
			`public class Random {`
			`//`
			`// Private Constants`
			`//`
			`private const int MBIG = Int32.MaxValue;`
			`private const int MSEED = 161803398;`
			`private const int MZ = 0;`


			`//`
			`// Member Variables`
			`//`
			`private int inext;`
			`private int inextp;`
			`private int[] SeedArray = new int[56];`

			`//`
			`// Public Constants`
			`//`

			`//`
			`// Native Declarations`
			`//`

			`//`
			`// Constructors`
			`//`

			`public Random()`
			`: this(Environment.TickCount) {`
			`}`

			`public Random(int Seed) {`
			`int ii;`
			`int mj, mk;`

			`//Initialize our Seed array.`
			`//This algorithm comes from Numerical Recipes in C (2nd Ed.)`
			`int subtraction = (Seed == Int32.MinValue) ? Int32.MaxValue : Math.Abs(Seed);`
			`mj = MSEED - subtraction;`
			`SeedArray[55]=mj;`
			`mk=1;`
			`for (int i=1; i<55; i++) { //Apparently the range [1..55] is special (Knuth) and so we're wasting the 0'th position.`
			`ii = (21*i)%55;`
			`SeedArray[ii]=mk;`
			`mk = mj - mk;`
			`if (mk<0) mk+=MBIG;`
			`mj=SeedArray[ii];`
			`}`
			`for (int k=1; k<5; k++) {`
			`for (int i=1; i<56; i++) {`
			`SeedArray[i] -= SeedArray[1+(i+30)%55];`
			`if (SeedArray[i]<0) SeedArray[i]+=MBIG;`
			`}`
			`}`
			`inext=0;`
			`inextp = 21;`
			`Seed = 1;`
			`}`

			`//`
			`// Package Private Methods`
			`//`

			`/*====================================Sample====================================`
			`**Action: Return a new random number [0..1) and reSeed the Seed array.`
			`**Returns: A double [0..1)`
			`**Arguments: None`
			`**Exceptions: None`
			`==============================================================================*/`
			`protected virtual double Sample() {`
			`//Including this division at the end gives us significantly improved`
			`//random number distribution.`
			`return (InternalSample()*(1.0/MBIG));`
			`}`

			`private int InternalSample() {`
			`int retVal;`
			`int locINext = inext;`
			`int locINextp = inextp;`

			`if (++locINext >=56) locINext=1;`
			`if (++locINextp>= 56) locINextp = 1;`

			`retVal = SeedArray[locINext]-SeedArray[locINextp];`

			`if (retVal == MBIG) retVal--;`
			`if (retVal<0) retVal+=MBIG;`

			`SeedArray[locINext]=retVal;`

			`inext = locINext;`
			`inextp = locINextp;`

			`return retVal;`
			`}`

			`//`
			`// Public Instance Methods`
			`//`


			`/*=====================================Next=====================================`
			`**Returns: An int [0..Int32.MaxValue)`
			`**Arguments: None`
			`**Exceptions: None.`
			`==============================================================================*/`
			`public virtual int Next() {`
			`return InternalSample();`
			`}`

			`private double GetSampleForLargeRange() {`
			`// The distribution of double value returned by Sample`
			`// is not distributed well enough for a large range.`
			`// If we use Sample for a range [Int32.MinValue..Int32.MaxValue)`
			`// We will end up getting even numbers only.`

			`int result = InternalSample();`
			`// Note we can't use addition here. The distribution will be bad if we do that.`
			`bool negative = (InternalSample()%2 == 0) ? true : false; // decide the sign based on second sample`
			`if( negative) {`
			`result = -result;`
			`}`
			`double d = result;`
			`d += (Int32.MaxValue - 1); // get a number in range [0 .. 2 * Int32MaxValue - 1)`
			`d /= 2*(uint)Int32.MaxValue - 1 ;`
			`return d;`
			`}`


			`/*=====================================Next=====================================`
			`**Returns: An int [minvalue..maxvalue)`
			`**Arguments: minValue -- the least legal value for the Random number.`
			`** maxValue -- One greater than the greatest legal return value.`
			`**Exceptions: None.`
			`==============================================================================*/`
			`public virtual int Next(int minValue, int maxValue) {`
			`if (minValue>maxValue) {`
			`throw new ArgumentOutOfRangeException("minValue",Environment.GetResourceString("Argument_MinMaxValue", "minValue", "maxValue"));`
			`}`
			`Contract.EndContractBlock();`

			`long range = (long)maxValue-minValue;`
			`if( range <= (long)Int32.MaxValue) {`
			`return ((int)(Sample() * range) + minValue);`
			`}`
			`else {`
			`return (int)((long)(GetSampleForLargeRange() * range) + minValue);`
			`}`
			`}`


			`/*=====================================Next=====================================`
			`**Returns: An int [0..maxValue)`
			`**Arguments: maxValue -- One more than the greatest legal return value.`
			`**Exceptions: None.`
			`==============================================================================*/`
			`public virtual int Next(int maxValue) {`
			`if (maxValue<0) {`
			`throw new ArgumentOutOfRangeException("maxValue", Environment.GetResourceString("ArgumentOutOfRange_MustBePositive", "maxValue"));`
			`}`
			`Contract.EndContractBlock();`
			`return (int)(Sample()*maxValue);`
			`}`


			`/*=====================================Next=====================================`
			`**Returns: A double [0..1)`
			`**Arguments: None`
			`**Exceptions: None`
			`==============================================================================*/`
			`public virtual double NextDouble() {`
			`return Sample();`
			`}`


			`/*==================================NextBytes===================================`
			`**Action: Fills the byte array with random bytes [0..0x7f]. The entire array is filled.`
			`**Returns:Void`
			`**Arugments: buffer -- the array to be filled.`
			`**Exceptions: None`
			`==============================================================================*/`
			`public virtual void NextBytes(byte [] buffer){`
			`if (buffer==null) throw new ArgumentNullException("buffer");`
			`Contract.EndContractBlock();`
			`for (int i=0; i<buffer.Length; i++) {`
			`buffer[i]=(byte)(InternalSample()%(Byte.MaxValue+1));`
			`}`
			`}`
			`}`



			`}`