I recently moved the Box-Muller (Polar) algorithm for transforming MS's standard random number to a random number with a normal distribution to dotNet. (Did not make a class of it; just migrated the code module)

Imports System.Math
Module GAUSSE
Public Sub Init()
Static Initialized As Boolean = False
If Not Initialized Then
Randomize()
Initialized = True
End If
End Sub
Public Function Normal(Optional ByVal Sigma As Double = 1.0#, Optional ByVal Mean As Double = 0.0#) As Double
Dim Norm As Double = 0.0#
Norm = (GetGausse() * Sigma) + Mean
Return Norm
End Function
Private Function GetGausse() As Double
' This Function returns a standard Gaussian random number, based upon the polar form of the Box-Muller transform.
' since this calc is capable of returning two calculations per call, it's been written to save the second calc for the next
' pass through the function, thus saving some time on alternate calls.
' Only call the Init sub once in the life of the app, but it's only needed if you haven't seeded the random number generator already.
' NEVER call INIT or randomize within a loop, or as a function of time - this can seriously degrade the 'randomness' of the data.
' (The reason for this is that the randomize function reseeds the random number generator with a seed derived from the system clock.
' If you call randomize within a loop, especially a tight loop, the odds are good that you will repeatedly reseed the random number
' generator with the SAME seed as the prior call - which results in the same 'random' number being generated...) If randomize is called
' once from an event that depends upon operator input, such as a form load event, you would be OK, however.
'
Static blReturn2 As Boolean = True ' Flag to calc new value pair, or return previously calculated second normal rnd.
Static dblReturn2 As Double = 0.0# ' Alternate return value
Dim Work1 As Double = 0.0#, Work2 As Double = 0.0#, Work3 As Double = 0.0#
Const Two As Double = 2.0#, One As Double = 1.0#
blReturn2 = Not blReturn2 ' toggle the return value source flag
If blReturn2 Then ' On odd numbered calls
Return dblReturn2
Else
Work3 = Two
Do Until Work3 < One
Work1 = Two * Rnd() - One
Work2 = Two * Rnd() - One
Work3 = Work1 * Work1 + Work2 * Work2
Loop
Work3 = Sqrt((-(Two) * Log(Work3)) / Work3)
' a second valid value will be returned with Work2 * Work3. Calculate & save in static variable for the next pass, for efficiency.
dblReturn2 = Work2 * Work3
Return Work1 * Work3
End If
End Function
End Module

Note: I did add a subroutine version of both the GetGausse and Normal functions. This allows you to return both available results in one call, and you don't need the static variables in the subs. These two changes resulted in a 40% performance improvement. (0.15 seconds down to .09 seconds per million numbers retrieved.)

__________________ Lou
"I have my standards. They may be low, but I have them!" ~ Bette Middler
"It's a book about a Spanish guy called Manual. You should read it." ~ Dilbert
"To understand recursion, you must first understand recursion." ~ unknown

And, here is the code for the SUB version. Declare two double variables in your calling code, then use them as parameters to Normal2, as per below. As always, never call randomize more than once in the life of your app.

Code:

Dim Return1, Return2 as Double, Mean as Double = 100.0, Sig as Double = 2.5
Randomize
Normal2(Return1, Return2, Sig, Mean)
' Return1 and Return2 now contain a pair of normally distributed random numbers,
' weighted to have a mean of 100 with a sigma of 2.5

Code:

' *******************************************************************************************************************
' *** GetGausse2 written as a sub, to return 2 values per call, instead of declaring static variables and ***
' *** storing second value for the alternate calls as in GetGausse. This results in more than 40% improvement ***
' *** in performance (Normal: 0.160 seconds per million calls, Normal2: 0.094 seconds per million calls on my ***
' *** current PC, VB.Net v12) - loquin ***
' *******************************************************************************************************************
Public Sub Normal2(ByRef Norm1 As Double, ByRef Norm2 As Double, Optional ByRef Sigma As Double = 1.0#, Optional ByRef Mean As Double = 0.0#)
Dim t1, t2 As Double
Call GAUSSE.GetGausse2(t1, t2)
Norm1 = t1 * Sigma + Mean
Norm2 = t2 * Sigma + Mean
End Sub
Private Sub GetGausse2(ByRef Value1 As Double, ByRef Value2 As Double)
Dim Work1 As Double = 0.0#, Work2 As Double = 0.0#, Work3 As Double = 0.0#
Const Two As Double = 2.0#, One As Double = 1.0#
Work3 = Two
Do Until Work3 < One
Work1 = Two * Rnd() - One
Work2 = Two * Rnd() - One
Work3 = Work1 * Work1 + Work2 * Work2
Loop
Work3 = Sqrt((-(Two) * Log(Work3)) / Work3)
Value1 = Work1 * Work3
Value2 = Work2 * Work3
End Sub

__________________ Lou
"I have my standards. They may be low, but I have them!" ~ Bette Middler
"It's a book about a Spanish guy called Manual. You should read it." ~ Dilbert
"To understand recursion, you must first understand recursion." ~ unknown

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