#region License Information
/* HeuristicLab
* Copyright (C) Heuristic and Evolutionary Algorithms Laboratory (HEAL)
*
* This file is part of HeuristicLab.
*
* HeuristicLab is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* HeuristicLab is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with HeuristicLab. If not, see .
*/
#endregion
using System;
using HeuristicLab.Common;
using HeuristicLab.Core;
using HEAL.Attic;
namespace HeuristicLab.Random {
///
/// Normally distributed random variable.
/// Uses the Ziggurat transform to efficiently generate normal distributed random numbers.
/// See "The Ziggurat Method for Generating Random Variables" (G. Marsaglia and W.W. Tsang 2000).
///
[Item("NormalDistributedRandom", "A pseudo random number generator which uses the Ziggurat method to create normally distributed random numbers.")]
[StorableType("240F7050-C05B-4E85-82C3-2871FE2138B1")]
[Obsolete("Use NormalDistributedRandomPolar instead.")]
public sealed class NormalDistributedRandom : Item, IRandom {
[Storable]
private double mu;
///
/// Gets or sets the value for µ.
///
public double Mu {
get { return mu; }
set { mu = value; }
}
[Storable]
private double sigma;
///
/// Gets or sets the value for sigma.
///
public double Sigma {
get { return sigma; }
set { sigma = value; }
}
[Storable]
private IRandom uniform;
private static double[] w = new double[] {
1.7290404664e-09,
1.2680928529e-10,
1.6897518107e-10,
1.9862687883e-10,
2.2232431174e-10,
2.4244936614e-10,
2.6016130916e-10,
2.7611987696e-10,
2.9073962682e-10,
3.0429969655e-10,
3.1699795566e-10,
3.2898020419e-10,
3.4035738117e-10,
3.5121602848e-10,
3.6162509098e-10,
3.7164057942e-10,
3.8130856805e-10,
3.9066758162e-10,
3.9975012189e-10,
4.0858399997e-10,
4.1719308563e-10,
4.2559822333e-10,
4.3381759296e-10,
4.4186720949e-10,
4.4976131153e-10,
4.5751258337e-10,
4.6513240481e-10,
4.7263104541e-10,
4.8001774777e-10,
4.8730097735e-10,
4.9448850570e-10,
5.0158732723e-10,
5.0860404777e-10,
5.1554460700e-10,
5.2241466708e-10,
5.2921933502e-10,
5.3596349581e-10,
5.4265170135e-10,
5.4928817050e-10,
5.5587695558e-10,
5.6242188684e-10,
5.6892646150e-10,
5.7539412124e-10,
5.8182819673e-10,
5.8823168558e-10,
5.9460769641e-10,
6.0095900478e-10,
6.0728838625e-10,
6.1359850534e-10,
6.1989202660e-10,
6.2617133700e-10,
6.3243904558e-10,
6.3869737277e-10,
6.4494881657e-10,
6.5119559745e-10,
6.5744004685e-10,
6.6368432972e-10,
6.6993072201e-10,
6.7618144417e-10,
6.8243871665e-10,
6.8870464887e-10,
6.9498151678e-10,
7.0127148533e-10,
7.0757677495e-10,
7.1389966161e-10,
7.2024242126e-10,
7.2660727435e-10,
7.3299660786e-10,
7.3941280876e-10,
7.4585826404e-10,
7.5233547170e-10,
7.5884698525e-10,
7.6539541372e-10,
7.7198347714e-10,
7.7861395109e-10,
7.8528972214e-10,
7.9201378789e-10,
7.9878920145e-10,
8.0561923799e-10,
8.1250728368e-10,
8.1945689123e-10,
8.2647166888e-10,
8.3355555791e-10,
8.4071272166e-10,
8.4794732347e-10,
8.5526402627e-10,
8.6266754851e-10,
8.7016316375e-10,
8.7775620106e-10,
8.8545243360e-10,
8.9325818964e-10,
9.0117996399e-10,
9.0922497309e-10,
9.1740082198e-10,
9.2571583732e-10,
9.3417884539e-10,
9.4279972718e-10,
9.5158891877e-10,
9.6055785548e-10,
9.6971930486e-10,
9.7908692265e-10,
9.8867602993e-10,
9.9850361313e-10,
1.0085882129e-09,
1.0189509236e-09,
1.0296150599e-09,
1.0406069340e-09,
1.0519566329e-09,
1.0636980186e-09,
1.0758701707e-09,
1.0885182755e-09,
1.1016947354e-09,
1.1154610569e-09,
1.1298901814e-09,
1.1450695947e-09,
1.1611052120e-09,
1.1781275955e-09,
1.1962995039e-09,
1.2158286600e-09,
1.2369856250e-09,
1.2601323318e-09,
1.2857697129e-09,
1.3146201905e-09,
1.3477839955e-09,
1.3870635751e-09,
1.4357403044e-09,
1.5008658760e-09,
1.6030947680e-09
};
private static long[] k = new long[] {
1991057938,
0,
1611602771,
1826899878,
1918584482,
1969227037,
2001281515,
2023368125,
2039498179,
2051788381,
2061460127,
2069267110,
2075699398,
2081089314,
2085670119,
2089610331,
2093034710,
2096037586,
2098691595,
2101053571,
2103168620,
2105072996,
2106796166,
2108362327,
2109791536,
2111100552,
2112303493,
2113412330,
2114437283,
2115387130,
2116269447,
2117090813,
2117856962,
2118572919,
2119243101,
2119871411,
2120461303,
2121015852,
2121537798,
2122029592,
2122493434,
2122931299,
2123344971,
2123736059,
2124106020,
2124456175,
2124787725,
2125101763,
2125399283,
2125681194,
2125948325,
2126201433,
2126441213,
2126668298,
2126883268,
2127086657,
2127278949,
2127460589,
2127631985,
2127793506,
2127945490,
2128088244,
2128222044,
2128347141,
2128463758,
2128572095,
2128672327,
2128764606,
2128849065,
2128925811,
2128994934,
2129056501,
2129110560,
2129157136,
2129196237,
2129227847,
2129251929,
2129268426,
2129277255,
2129278312,
2129271467,
2129256561,
2129233410,
2129201800,
2129161480,
2129112170,
2129053545,
2128985244,
2128906855,
2128817916,
2128717911,
2128606255,
2128482298,
2128345305,
2128194452,
2128028813,
2127847342,
2127648860,
2127432031,
2127195339,
2126937058,
2126655214,
2126347546,
2126011445,
2125643893,
2125241376,
2124799783,
2124314271,
2123779094,
2123187386,
2122530867,
2121799464,
2120980787,
2120059418,
2119015917,
2117825402,
2116455471,
2114863093,
2112989789,
2110753906,
2108037662,
2104664315,
2100355223,
2094642347,
2086670106,
2074676188,
2054300022,
2010539237
};
private static double[] f = new double[] {
1.0000000000e+00,
9.6359968185e-01,
9.3628269434e-01,
9.1304361820e-01,
8.9228165150e-01,
8.7324303389e-01,
8.5550057888e-01,
8.3878362179e-01,
8.2290720940e-01,
8.0773830414e-01,
7.9317700863e-01,
7.7914607525e-01,
7.6558417082e-01,
7.5244158506e-01,
7.3967725039e-01,
7.2725689411e-01,
7.1515148878e-01,
7.0333611965e-01,
6.9178915024e-01,
6.8049186468e-01,
6.6942769289e-01,
6.5858197212e-01,
6.4794182777e-01,
6.3749545813e-01,
6.2723249197e-01,
6.1714339256e-01,
6.0721951723e-01,
5.9745317698e-01,
5.8783704042e-01,
5.7836467028e-01,
5.6902998686e-01,
5.5982738733e-01,
5.5075180531e-01,
5.4179835320e-01,
5.3296267986e-01,
5.2424055338e-01,
5.1562821865e-01,
5.0712203979e-01,
4.9871864915e-01,
4.9041482806e-01,
4.8220765591e-01,
4.7409430146e-01,
4.6607214212e-01,
4.5813870430e-01,
4.5029163361e-01,
4.4252872467e-01,
4.3484783173e-01,
4.2724698782e-01,
4.1972434521e-01,
4.1227802634e-01,
4.0490642190e-01,
3.9760786295e-01,
3.9038079977e-01,
3.8322380185e-01,
3.7613546848e-01,
3.6911445856e-01,
3.6215949059e-01,
3.5526937246e-01,
3.4844297171e-01,
3.4167915583e-01,
3.3497685194e-01,
3.2833510637e-01,
3.2175290585e-01,
3.1522938609e-01,
3.0876362324e-01,
3.0235484242e-01,
2.9600214958e-01,
2.8970485926e-01,
2.8346219659e-01,
2.7727350593e-01,
2.7113807201e-01,
2.6505529881e-01,
2.5902456045e-01,
2.5304529071e-01,
2.4711695313e-01,
2.4123899639e-01,
2.3541094363e-01,
2.2963231802e-01,
2.2390270233e-01,
2.1822164953e-01,
2.1258877218e-01,
2.0700371265e-01,
2.0146611333e-01,
1.9597564638e-01,
1.9053204358e-01,
1.8513499200e-01,
1.7978426814e-01,
1.7447963357e-01,
1.6922089458e-01,
1.6400785744e-01,
1.5884037316e-01,
1.5371830761e-01,
1.4864157140e-01,
1.4361007512e-01,
1.3862377405e-01,
1.3368265331e-01,
1.2878671288e-01,
1.2393598258e-01,
1.1913054436e-01,
1.1437050998e-01,
1.0965602100e-01,
1.0498725623e-01,
1.0036443919e-01,
9.5787845552e-02,
9.1257803142e-02,
8.6774669588e-02,
8.2338899374e-02,
7.7950984240e-02,
7.3611505330e-02,
6.9321118295e-02,
6.5080583096e-02,
6.0890771449e-02,
5.6752663106e-02,
5.2667401731e-02,
4.8636294901e-02,
4.4660862535e-02,
4.0742866695e-02,
3.6884389818e-02,
3.3087886870e-02,
2.9356317595e-02,
2.5693291798e-02,
2.2103304043e-02,
1.8592102453e-02,
1.5167297795e-02,
1.1839478277e-02,
8.6244847625e-03,
5.5489949882e-03,
2.6696291752e-03
};
[StorableConstructor]
private NormalDistributedRandom(StorableConstructorFlag _) : base(_) { }
///
/// Initializes a new instance from an existing one (copy constructor).
///
/// The original instance which is used to initialize the new instance.
/// A which is used to track all already cloned objects in order to avoid cycles.
private NormalDistributedRandom(NormalDistributedRandom original, Cloner cloner)
: base(original, cloner) {
uniform = cloner.Clone(original.uniform);
mu = original.mu;
sigma = original.sigma;
}
///
/// Initializes a new instance of with µ = 0 and sigma = 1
/// and a new random number generator.
///
public NormalDistributedRandom() {
this.mu = 0.0;
this.sigma = 1.0;
this.uniform = new MersenneTwister();
}
///
/// Initializes a new instance of with the given parameters.
/// The random number generator is not copied!
///
/// The random number generator.
/// The value for µ.
/// The value for sigma.
public NormalDistributedRandom(IRandom uniformRandom, double mu, double sigma) {
this.mu = mu;
this.sigma = sigma;
this.uniform = uniformRandom;
}
#region IRandom Members
///
public void Reset() {
uniform.Reset();
}
///
public void Reset(int seed) {
uniform.Reset(seed);
}
///
/// This method is not implemented.
///
public int Next() {
throw new NotImplementedException();
}
///
/// This method is not implemented.
///
public int Next(int maxVal) {
throw new NotImplementedException();
}
///
/// This method is not implemented.
///
public int Next(int minVal, int maxVal) {
throw new NotImplementedException();
}
///
/// Generates a new double random number.
///
/// A double random number.
public double NextDouble() {
return NormalDistributedRandom.NextDouble(uniform, mu, sigma);
}
#endregion
///
/// Clones the current instance (deep clone).
///
/// Deep clone through method of helper class.
/// The cloned object as .
public override IDeepCloneable Clone(Cloner cloner) {
return new NormalDistributedRandom(this, cloner);
}
public static double NextDouble(IRandom uniformRandom, double mu, double sigma) {
double signFactor = uniformRandom.Next() % 2 == 0 ? 1.0 : -1.0;
return sigma * signFactor * NextPositiveDouble(uniformRandom) + mu;
}
private static double NextPositiveDouble(IRandom uniformRandom) {
int j = uniformRandom.Next();
int i = (j & 127);
if (Math.Abs(j) < k[i]) {
return j * w[i];
} else {
double r = 3.442620;
double x, y;
x = j * w[i];
if (i == 0) {
do {
x = -Math.Log(ScaledUniform(uniformRandom)) * 0.2904764;
y = -Math.Log(ScaledUniform(uniformRandom));
} while (y + y < x * x);
return (j > 0) ? r + x : -r - x;
}
if (f[i] + ScaledUniform(uniformRandom) * (f[i - 1] - f[i]) < Math.Exp(-0.5 * x * x)) {
return x;
} else {
// recurse
return (NextPositiveDouble(uniformRandom));
}
}
}
private static double ScaledUniform(IRandom uniformRandom) {
return 0.5 + uniformRandom.Next() * 0.2328306e-9;
}
}
}