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1 <HTML>
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2 <BODY BGCOLOR="white">
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3 <PRE>
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4 <FONT color="green">001</FONT> /*<a name="line.1"></a>
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5 <FONT color="green">002</FONT> * Licensed to the Apache Software Foundation (ASF) under one or more<a name="line.2"></a>
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6 <FONT color="green">003</FONT> * contributor license agreements. See the NOTICE file distributed with<a name="line.3"></a>
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7 <FONT color="green">004</FONT> * this work for additional information regarding copyright ownership.<a name="line.4"></a>
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8 <FONT color="green">005</FONT> * The ASF licenses this file to You under the Apache License, Version 2.0<a name="line.5"></a>
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9 <FONT color="green">006</FONT> * (the "License"); you may not use this file except in compliance with<a name="line.6"></a>
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10 <FONT color="green">007</FONT> * the License. You may obtain a copy of the License at<a name="line.7"></a>
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11 <FONT color="green">008</FONT> *<a name="line.8"></a>
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12 <FONT color="green">009</FONT> * http://www.apache.org/licenses/LICENSE-2.0<a name="line.9"></a>
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13 <FONT color="green">010</FONT> *<a name="line.10"></a>
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14 <FONT color="green">011</FONT> * Unless required by applicable law or agreed to in writing, software<a name="line.11"></a>
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15 <FONT color="green">012</FONT> * distributed under the License is distributed on an "AS IS" BASIS,<a name="line.12"></a>
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16 <FONT color="green">013</FONT> * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.<a name="line.13"></a>
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17 <FONT color="green">014</FONT> * See the License for the specific language governing permissions and<a name="line.14"></a>
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18 <FONT color="green">015</FONT> * limitations under the License.<a name="line.15"></a>
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19 <FONT color="green">016</FONT> */<a name="line.16"></a>
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20 <FONT color="green">017</FONT> <a name="line.17"></a>
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21 <FONT color="green">018</FONT> package org.apache.commons.math.distribution;<a name="line.18"></a>
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22 <FONT color="green">019</FONT> <a name="line.19"></a>
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23 <FONT color="green">020</FONT> import java.io.Serializable;<a name="line.20"></a>
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24 <FONT color="green">021</FONT> <a name="line.21"></a>
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25 <FONT color="green">022</FONT> import org.apache.commons.math.MathException;<a name="line.22"></a>
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26 <FONT color="green">023</FONT> import org.apache.commons.math.MathRuntimeException;<a name="line.23"></a>
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27 <FONT color="green">024</FONT> import org.apache.commons.math.MaxIterationsExceededException;<a name="line.24"></a>
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28 <FONT color="green">025</FONT> import org.apache.commons.math.special.Erf;<a name="line.25"></a>
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29 <FONT color="green">026</FONT> <a name="line.26"></a>
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30 <FONT color="green">027</FONT> /**<a name="line.27"></a>
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31 <FONT color="green">028</FONT> * Default implementation of<a name="line.28"></a>
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32 <FONT color="green">029</FONT> * {@link org.apache.commons.math.distribution.NormalDistribution}.<a name="line.29"></a>
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33 <FONT color="green">030</FONT> *<a name="line.30"></a>
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34 <FONT color="green">031</FONT> * @version $Revision: 925812 $ $Date: 2010-03-21 11:49:31 -0400 (Sun, 21 Mar 2010) $<a name="line.31"></a>
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35 <FONT color="green">032</FONT> */<a name="line.32"></a>
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36 <FONT color="green">033</FONT> public class NormalDistributionImpl extends AbstractContinuousDistribution<a name="line.33"></a>
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37 <FONT color="green">034</FONT> implements NormalDistribution, Serializable {<a name="line.34"></a>
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38 <FONT color="green">035</FONT> <a name="line.35"></a>
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39 <FONT color="green">036</FONT> /**<a name="line.36"></a>
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40 <FONT color="green">037</FONT> * Default inverse cumulative probability accuracy<a name="line.37"></a>
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41 <FONT color="green">038</FONT> * @since 2.1<a name="line.38"></a>
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42 <FONT color="green">039</FONT> */<a name="line.39"></a>
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43 <FONT color="green">040</FONT> public static final double DEFAULT_INVERSE_ABSOLUTE_ACCURACY = 1e-9;<a name="line.40"></a>
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44 <FONT color="green">041</FONT> <a name="line.41"></a>
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45 <FONT color="green">042</FONT> /** Serializable version identifier */<a name="line.42"></a>
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46 <FONT color="green">043</FONT> private static final long serialVersionUID = 8589540077390120676L;<a name="line.43"></a>
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47 <FONT color="green">044</FONT> <a name="line.44"></a>
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48 <FONT color="green">045</FONT> /** &sqrt;(2 &pi;) */<a name="line.45"></a>
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49 <FONT color="green">046</FONT> private static final double SQRT2PI = Math.sqrt(2 * Math.PI);<a name="line.46"></a>
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50 <FONT color="green">047</FONT> <a name="line.47"></a>
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51 <FONT color="green">048</FONT> /** The mean of this distribution. */<a name="line.48"></a>
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52 <FONT color="green">049</FONT> private double mean = 0;<a name="line.49"></a>
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53 <FONT color="green">050</FONT> <a name="line.50"></a>
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54 <FONT color="green">051</FONT> /** The standard deviation of this distribution. */<a name="line.51"></a>
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55 <FONT color="green">052</FONT> private double standardDeviation = 1;<a name="line.52"></a>
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56 <FONT color="green">053</FONT> <a name="line.53"></a>
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57 <FONT color="green">054</FONT> /** Inverse cumulative probability accuracy */<a name="line.54"></a>
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58 <FONT color="green">055</FONT> private final double solverAbsoluteAccuracy;<a name="line.55"></a>
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59 <FONT color="green">056</FONT> <a name="line.56"></a>
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60 <FONT color="green">057</FONT> /**<a name="line.57"></a>
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61 <FONT color="green">058</FONT> * Create a normal distribution using the given mean and standard deviation.<a name="line.58"></a>
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62 <FONT color="green">059</FONT> * @param mean mean for this distribution<a name="line.59"></a>
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63 <FONT color="green">060</FONT> * @param sd standard deviation for this distribution<a name="line.60"></a>
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64 <FONT color="green">061</FONT> */<a name="line.61"></a>
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65 <FONT color="green">062</FONT> public NormalDistributionImpl(double mean, double sd){<a name="line.62"></a>
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66 <FONT color="green">063</FONT> this(mean, sd, DEFAULT_INVERSE_ABSOLUTE_ACCURACY);<a name="line.63"></a>
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67 <FONT color="green">064</FONT> }<a name="line.64"></a>
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68 <FONT color="green">065</FONT> <a name="line.65"></a>
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69 <FONT color="green">066</FONT> /**<a name="line.66"></a>
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70 <FONT color="green">067</FONT> * Create a normal distribution using the given mean, standard deviation and<a name="line.67"></a>
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71 <FONT color="green">068</FONT> * inverse cumulative distribution accuracy.<a name="line.68"></a>
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72 <FONT color="green">069</FONT> *<a name="line.69"></a>
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73 <FONT color="green">070</FONT> * @param mean mean for this distribution<a name="line.70"></a>
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74 <FONT color="green">071</FONT> * @param sd standard deviation for this distribution<a name="line.71"></a>
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75 <FONT color="green">072</FONT> * @param inverseCumAccuracy inverse cumulative probability accuracy<a name="line.72"></a>
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76 <FONT color="green">073</FONT> * @since 2.1<a name="line.73"></a>
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77 <FONT color="green">074</FONT> */<a name="line.74"></a>
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78 <FONT color="green">075</FONT> public NormalDistributionImpl(double mean, double sd, double inverseCumAccuracy) {<a name="line.75"></a>
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79 <FONT color="green">076</FONT> super();<a name="line.76"></a>
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80 <FONT color="green">077</FONT> setMeanInternal(mean);<a name="line.77"></a>
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81 <FONT color="green">078</FONT> setStandardDeviationInternal(sd);<a name="line.78"></a>
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82 <FONT color="green">079</FONT> solverAbsoluteAccuracy = inverseCumAccuracy;<a name="line.79"></a>
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83 <FONT color="green">080</FONT> }<a name="line.80"></a>
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84 <FONT color="green">081</FONT> <a name="line.81"></a>
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85 <FONT color="green">082</FONT> /**<a name="line.82"></a>
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86 <FONT color="green">083</FONT> * Creates normal distribution with the mean equal to zero and standard<a name="line.83"></a>
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87 <FONT color="green">084</FONT> * deviation equal to one.<a name="line.84"></a>
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88 <FONT color="green">085</FONT> */<a name="line.85"></a>
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89 <FONT color="green">086</FONT> public NormalDistributionImpl(){<a name="line.86"></a>
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90 <FONT color="green">087</FONT> this(0.0, 1.0);<a name="line.87"></a>
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91 <FONT color="green">088</FONT> }<a name="line.88"></a>
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92 <FONT color="green">089</FONT> <a name="line.89"></a>
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93 <FONT color="green">090</FONT> /**<a name="line.90"></a>
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94 <FONT color="green">091</FONT> * Access the mean.<a name="line.91"></a>
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95 <FONT color="green">092</FONT> * @return mean for this distribution<a name="line.92"></a>
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96 <FONT color="green">093</FONT> */<a name="line.93"></a>
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97 <FONT color="green">094</FONT> public double getMean() {<a name="line.94"></a>
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98 <FONT color="green">095</FONT> return mean;<a name="line.95"></a>
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99 <FONT color="green">096</FONT> }<a name="line.96"></a>
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100 <FONT color="green">097</FONT> <a name="line.97"></a>
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101 <FONT color="green">098</FONT> /**<a name="line.98"></a>
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102 <FONT color="green">099</FONT> * Modify the mean.<a name="line.99"></a>
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103 <FONT color="green">100</FONT> * @param mean for this distribution<a name="line.100"></a>
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104 <FONT color="green">101</FONT> * @deprecated as of 2.1 (class will become immutable in 3.0)<a name="line.101"></a>
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105 <FONT color="green">102</FONT> */<a name="line.102"></a>
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106 <FONT color="green">103</FONT> @Deprecated<a name="line.103"></a>
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107 <FONT color="green">104</FONT> public void setMean(double mean) {<a name="line.104"></a>
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108 <FONT color="green">105</FONT> setMeanInternal(mean);<a name="line.105"></a>
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109 <FONT color="green">106</FONT> }<a name="line.106"></a>
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110 <FONT color="green">107</FONT> /**<a name="line.107"></a>
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111 <FONT color="green">108</FONT> * Modify the mean.<a name="line.108"></a>
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112 <FONT color="green">109</FONT> * @param newMean for this distribution<a name="line.109"></a>
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113 <FONT color="green">110</FONT> */<a name="line.110"></a>
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114 <FONT color="green">111</FONT> private void setMeanInternal(double newMean) {<a name="line.111"></a>
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115 <FONT color="green">112</FONT> this.mean = newMean;<a name="line.112"></a>
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116 <FONT color="green">113</FONT> }<a name="line.113"></a>
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117 <FONT color="green">114</FONT> <a name="line.114"></a>
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118 <FONT color="green">115</FONT> /**<a name="line.115"></a>
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119 <FONT color="green">116</FONT> * Access the standard deviation.<a name="line.116"></a>
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120 <FONT color="green">117</FONT> * @return standard deviation for this distribution<a name="line.117"></a>
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121 <FONT color="green">118</FONT> */<a name="line.118"></a>
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122 <FONT color="green">119</FONT> public double getStandardDeviation() {<a name="line.119"></a>
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123 <FONT color="green">120</FONT> return standardDeviation;<a name="line.120"></a>
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124 <FONT color="green">121</FONT> }<a name="line.121"></a>
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125 <FONT color="green">122</FONT> <a name="line.122"></a>
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126 <FONT color="green">123</FONT> /**<a name="line.123"></a>
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127 <FONT color="green">124</FONT> * Modify the standard deviation.<a name="line.124"></a>
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128 <FONT color="green">125</FONT> * @param sd standard deviation for this distribution<a name="line.125"></a>
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129 <FONT color="green">126</FONT> * @throws IllegalArgumentException if <code>sd</code> is not positive.<a name="line.126"></a>
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130 <FONT color="green">127</FONT> * @deprecated as of 2.1 (class will become immutable in 3.0)<a name="line.127"></a>
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131 <FONT color="green">128</FONT> */<a name="line.128"></a>
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132 <FONT color="green">129</FONT> @Deprecated<a name="line.129"></a>
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133 <FONT color="green">130</FONT> public void setStandardDeviation(double sd) {<a name="line.130"></a>
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134 <FONT color="green">131</FONT> setStandardDeviationInternal(sd);<a name="line.131"></a>
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135 <FONT color="green">132</FONT> }<a name="line.132"></a>
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136 <FONT color="green">133</FONT> /**<a name="line.133"></a>
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137 <FONT color="green">134</FONT> * Modify the standard deviation.<a name="line.134"></a>
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138 <FONT color="green">135</FONT> * @param sd standard deviation for this distribution<a name="line.135"></a>
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139 <FONT color="green">136</FONT> * @throws IllegalArgumentException if <code>sd</code> is not positive.<a name="line.136"></a>
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140 <FONT color="green">137</FONT> */<a name="line.137"></a>
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141 <FONT color="green">138</FONT> private void setStandardDeviationInternal(double sd) {<a name="line.138"></a>
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142 <FONT color="green">139</FONT> if (sd <= 0.0) {<a name="line.139"></a>
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143 <FONT color="green">140</FONT> throw MathRuntimeException.createIllegalArgumentException(<a name="line.140"></a>
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144 <FONT color="green">141</FONT> "standard deviation must be positive ({0})",<a name="line.141"></a>
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145 <FONT color="green">142</FONT> sd);<a name="line.142"></a>
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146 <FONT color="green">143</FONT> }<a name="line.143"></a>
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147 <FONT color="green">144</FONT> standardDeviation = sd;<a name="line.144"></a>
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148 <FONT color="green">145</FONT> }<a name="line.145"></a>
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149 <FONT color="green">146</FONT> <a name="line.146"></a>
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150 <FONT color="green">147</FONT> /**<a name="line.147"></a>
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151 <FONT color="green">148</FONT> * Return the probability density for a particular point.<a name="line.148"></a>
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152 <FONT color="green">149</FONT> *<a name="line.149"></a>
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153 <FONT color="green">150</FONT> * @param x The point at which the density should be computed.<a name="line.150"></a>
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154 <FONT color="green">151</FONT> * @return The pdf at point x.<a name="line.151"></a>
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155 <FONT color="green">152</FONT> * @deprecated<a name="line.152"></a>
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156 <FONT color="green">153</FONT> */<a name="line.153"></a>
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157 <FONT color="green">154</FONT> public double density(Double x) {<a name="line.154"></a>
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158 <FONT color="green">155</FONT> return density(x.doubleValue());<a name="line.155"></a>
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159 <FONT color="green">156</FONT> }<a name="line.156"></a>
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160 <FONT color="green">157</FONT> <a name="line.157"></a>
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161 <FONT color="green">158</FONT> /**<a name="line.158"></a>
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162 <FONT color="green">159</FONT> * Returns the probability density for a particular point.<a name="line.159"></a>
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163 <FONT color="green">160</FONT> *<a name="line.160"></a>
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164 <FONT color="green">161</FONT> * @param x The point at which the density should be computed.<a name="line.161"></a>
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165 <FONT color="green">162</FONT> * @return The pdf at point x.<a name="line.162"></a>
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166 <FONT color="green">163</FONT> * @since 2.1<a name="line.163"></a>
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167 <FONT color="green">164</FONT> */<a name="line.164"></a>
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168 <FONT color="green">165</FONT> public double density(double x) {<a name="line.165"></a>
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169 <FONT color="green">166</FONT> double x0 = x - mean;<a name="line.166"></a>
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170 <FONT color="green">167</FONT> return Math.exp(-x0 * x0 / (2 * standardDeviation * standardDeviation)) / (standardDeviation * SQRT2PI);<a name="line.167"></a>
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171 <FONT color="green">168</FONT> }<a name="line.168"></a>
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172 <FONT color="green">169</FONT> <a name="line.169"></a>
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173 <FONT color="green">170</FONT> /**<a name="line.170"></a>
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174 <FONT color="green">171</FONT> * For this distribution, X, this method returns P(X &lt; <code>x</code>).<a name="line.171"></a>
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175 <FONT color="green">172</FONT> * @param x the value at which the CDF is evaluated.<a name="line.172"></a>
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176 <FONT color="green">173</FONT> * @return CDF evaluted at <code>x</code>.<a name="line.173"></a>
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177 <FONT color="green">174</FONT> * @throws MathException if the algorithm fails to converge; unless<a name="line.174"></a>
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178 <FONT color="green">175</FONT> * x is more than 20 standard deviations from the mean, in which case the<a name="line.175"></a>
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179 <FONT color="green">176</FONT> * convergence exception is caught and 0 or 1 is returned.<a name="line.176"></a>
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180 <FONT color="green">177</FONT> */<a name="line.177"></a>
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181 <FONT color="green">178</FONT> public double cumulativeProbability(double x) throws MathException {<a name="line.178"></a>
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182 <FONT color="green">179</FONT> try {<a name="line.179"></a>
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183 <FONT color="green">180</FONT> return 0.5 * (1.0 + Erf.erf((x - mean) /<a name="line.180"></a>
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184 <FONT color="green">181</FONT> (standardDeviation * Math.sqrt(2.0))));<a name="line.181"></a>
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185 <FONT color="green">182</FONT> } catch (MaxIterationsExceededException ex) {<a name="line.182"></a>
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186 <FONT color="green">183</FONT> if (x < (mean - 20 * standardDeviation)) { // JDK 1.5 blows at 38<a name="line.183"></a>
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187 <FONT color="green">184</FONT> return 0.0d;<a name="line.184"></a>
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188 <FONT color="green">185</FONT> } else if (x > (mean + 20 * standardDeviation)) {<a name="line.185"></a>
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189 <FONT color="green">186</FONT> return 1.0d;<a name="line.186"></a>
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190 <FONT color="green">187</FONT> } else {<a name="line.187"></a>
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191 <FONT color="green">188</FONT> throw ex;<a name="line.188"></a>
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192 <FONT color="green">189</FONT> }<a name="line.189"></a>
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193 <FONT color="green">190</FONT> }<a name="line.190"></a>
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194 <FONT color="green">191</FONT> }<a name="line.191"></a>
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195 <FONT color="green">192</FONT> <a name="line.192"></a>
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196 <FONT color="green">193</FONT> /**<a name="line.193"></a>
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197 <FONT color="green">194</FONT> * Return the absolute accuracy setting of the solver used to estimate<a name="line.194"></a>
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198 <FONT color="green">195</FONT> * inverse cumulative probabilities.<a name="line.195"></a>
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199 <FONT color="green">196</FONT> *<a name="line.196"></a>
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200 <FONT color="green">197</FONT> * @return the solver absolute accuracy<a name="line.197"></a>
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201 <FONT color="green">198</FONT> * @since 2.1<a name="line.198"></a>
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202 <FONT color="green">199</FONT> */<a name="line.199"></a>
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203 <FONT color="green">200</FONT> @Override<a name="line.200"></a>
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204 <FONT color="green">201</FONT> protected double getSolverAbsoluteAccuracy() {<a name="line.201"></a>
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205 <FONT color="green">202</FONT> return solverAbsoluteAccuracy;<a name="line.202"></a>
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206 <FONT color="green">203</FONT> }<a name="line.203"></a>
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207 <FONT color="green">204</FONT> <a name="line.204"></a>
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208 <FONT color="green">205</FONT> /**<a name="line.205"></a>
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209 <FONT color="green">206</FONT> * For this distribution, X, this method returns the critical point x, such<a name="line.206"></a>
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210 <FONT color="green">207</FONT> * that P(X &lt; x) = <code>p</code>.<a name="line.207"></a>
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211 <FONT color="green">208</FONT> * <p><a name="line.208"></a>
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212 <FONT color="green">209</FONT> * Returns <code>Double.NEGATIVE_INFINITY</code> for p=0 and<a name="line.209"></a>
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213 <FONT color="green">210</FONT> * <code>Double.POSITIVE_INFINITY</code> for p=1.</p><a name="line.210"></a>
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214 <FONT color="green">211</FONT> *<a name="line.211"></a>
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215 <FONT color="green">212</FONT> * @param p the desired probability<a name="line.212"></a>
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216 <FONT color="green">213</FONT> * @return x, such that P(X &lt; x) = <code>p</code><a name="line.213"></a>
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217 <FONT color="green">214</FONT> * @throws MathException if the inverse cumulative probability can not be<a name="line.214"></a>
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218 <FONT color="green">215</FONT> * computed due to convergence or other numerical errors.<a name="line.215"></a>
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219 <FONT color="green">216</FONT> * @throws IllegalArgumentException if <code>p</code> is not a valid<a name="line.216"></a>
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220 <FONT color="green">217</FONT> * probability.<a name="line.217"></a>
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221 <FONT color="green">218</FONT> */<a name="line.218"></a>
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222 <FONT color="green">219</FONT> @Override<a name="line.219"></a>
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223 <FONT color="green">220</FONT> public double inverseCumulativeProbability(final double p)<a name="line.220"></a>
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224 <FONT color="green">221</FONT> throws MathException {<a name="line.221"></a>
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225 <FONT color="green">222</FONT> if (p == 0) {<a name="line.222"></a>
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226 <FONT color="green">223</FONT> return Double.NEGATIVE_INFINITY;<a name="line.223"></a>
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227 <FONT color="green">224</FONT> }<a name="line.224"></a>
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228 <FONT color="green">225</FONT> if (p == 1) {<a name="line.225"></a>
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229 <FONT color="green">226</FONT> return Double.POSITIVE_INFINITY;<a name="line.226"></a>
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230 <FONT color="green">227</FONT> }<a name="line.227"></a>
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231 <FONT color="green">228</FONT> return super.inverseCumulativeProbability(p);<a name="line.228"></a>
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232 <FONT color="green">229</FONT> }<a name="line.229"></a>
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233 <FONT color="green">230</FONT> <a name="line.230"></a>
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234 <FONT color="green">231</FONT> /**<a name="line.231"></a>
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235 <FONT color="green">232</FONT> * Access the domain value lower bound, based on <code>p</code>, used to<a name="line.232"></a>
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236 <FONT color="green">233</FONT> * bracket a CDF root. This method is used by<a name="line.233"></a>
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237 <FONT color="green">234</FONT> * {@link #inverseCumulativeProbability(double)} to find critical values.<a name="line.234"></a>
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238 <FONT color="green">235</FONT> *<a name="line.235"></a>
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239 <FONT color="green">236</FONT> * @param p the desired probability for the critical value<a name="line.236"></a>
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240 <FONT color="green">237</FONT> * @return domain value lower bound, i.e.<a name="line.237"></a>
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241 <FONT color="green">238</FONT> * P(X &lt; <i>lower bound</i>) &lt; <code>p</code><a name="line.238"></a>
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242 <FONT color="green">239</FONT> */<a name="line.239"></a>
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243 <FONT color="green">240</FONT> @Override<a name="line.240"></a>
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244 <FONT color="green">241</FONT> protected double getDomainLowerBound(double p) {<a name="line.241"></a>
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245 <FONT color="green">242</FONT> double ret;<a name="line.242"></a>
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246 <FONT color="green">243</FONT> <a name="line.243"></a>
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247 <FONT color="green">244</FONT> if (p < .5) {<a name="line.244"></a>
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248 <FONT color="green">245</FONT> ret = -Double.MAX_VALUE;<a name="line.245"></a>
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249 <FONT color="green">246</FONT> } else {<a name="line.246"></a>
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250 <FONT color="green">247</FONT> ret = mean;<a name="line.247"></a>
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251 <FONT color="green">248</FONT> }<a name="line.248"></a>
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252 <FONT color="green">249</FONT> <a name="line.249"></a>
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253 <FONT color="green">250</FONT> return ret;<a name="line.250"></a>
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254 <FONT color="green">251</FONT> }<a name="line.251"></a>
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255 <FONT color="green">252</FONT> <a name="line.252"></a>
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256 <FONT color="green">253</FONT> /**<a name="line.253"></a>
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257 <FONT color="green">254</FONT> * Access the domain value upper bound, based on <code>p</code>, used to<a name="line.254"></a>
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258 <FONT color="green">255</FONT> * bracket a CDF root. This method is used by<a name="line.255"></a>
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259 <FONT color="green">256</FONT> * {@link #inverseCumulativeProbability(double)} to find critical values.<a name="line.256"></a>
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260 <FONT color="green">257</FONT> *<a name="line.257"></a>
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261 <FONT color="green">258</FONT> * @param p the desired probability for the critical value<a name="line.258"></a>
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262 <FONT color="green">259</FONT> * @return domain value upper bound, i.e.<a name="line.259"></a>
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263 <FONT color="green">260</FONT> * P(X &lt; <i>upper bound</i>) &gt; <code>p</code><a name="line.260"></a>
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264 <FONT color="green">261</FONT> */<a name="line.261"></a>
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265 <FONT color="green">262</FONT> @Override<a name="line.262"></a>
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266 <FONT color="green">263</FONT> protected double getDomainUpperBound(double p) {<a name="line.263"></a>
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267 <FONT color="green">264</FONT> double ret;<a name="line.264"></a>
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268 <FONT color="green">265</FONT> <a name="line.265"></a>
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269 <FONT color="green">266</FONT> if (p < .5) {<a name="line.266"></a>
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270 <FONT color="green">267</FONT> ret = mean;<a name="line.267"></a>
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271 <FONT color="green">268</FONT> } else {<a name="line.268"></a>
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272 <FONT color="green">269</FONT> ret = Double.MAX_VALUE;<a name="line.269"></a>
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273 <FONT color="green">270</FONT> }<a name="line.270"></a>
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274 <FONT color="green">271</FONT> <a name="line.271"></a>
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275 <FONT color="green">272</FONT> return ret;<a name="line.272"></a>
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276 <FONT color="green">273</FONT> }<a name="line.273"></a>
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277 <FONT color="green">274</FONT> <a name="line.274"></a>
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278 <FONT color="green">275</FONT> /**<a name="line.275"></a>
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279 <FONT color="green">276</FONT> * Access the initial domain value, based on <code>p</code>, used to<a name="line.276"></a>
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280 <FONT color="green">277</FONT> * bracket a CDF root. This method is used by<a name="line.277"></a>
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281 <FONT color="green">278</FONT> * {@link #inverseCumulativeProbability(double)} to find critical values.<a name="line.278"></a>
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282 <FONT color="green">279</FONT> *<a name="line.279"></a>
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283 <FONT color="green">280</FONT> * @param p the desired probability for the critical value<a name="line.280"></a>
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284 <FONT color="green">281</FONT> * @return initial domain value<a name="line.281"></a>
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285 <FONT color="green">282</FONT> */<a name="line.282"></a>
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286 <FONT color="green">283</FONT> @Override<a name="line.283"></a>
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287 <FONT color="green">284</FONT> protected double getInitialDomain(double p) {<a name="line.284"></a>
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288 <FONT color="green">285</FONT> double ret;<a name="line.285"></a>
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289 <FONT color="green">286</FONT> <a name="line.286"></a>
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290 <FONT color="green">287</FONT> if (p < .5) {<a name="line.287"></a>
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291 <FONT color="green">288</FONT> ret = mean - standardDeviation;<a name="line.288"></a>
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292 <FONT color="green">289</FONT> } else if (p > .5) {<a name="line.289"></a>
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293 <FONT color="green">290</FONT> ret = mean + standardDeviation;<a name="line.290"></a>
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294 <FONT color="green">291</FONT> } else {<a name="line.291"></a>
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295 <FONT color="green">292</FONT> ret = mean;<a name="line.292"></a>
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296 <FONT color="green">293</FONT> }<a name="line.293"></a>
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297 <FONT color="green">294</FONT> <a name="line.294"></a>
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298 <FONT color="green">295</FONT> return ret;<a name="line.295"></a>
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299 <FONT color="green">296</FONT> }<a name="line.296"></a>
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300 <FONT color="green">297</FONT> }<a name="line.297"></a>
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361 </PRE>
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362 </BODY>
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363 </HTML>
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