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From l..@apache.org
Subject svn commit: r948064 [29/38] - in /websites/production/commons/content/proper/commons-math/testapidocs: ./ org/apache/commons/math3/ org/apache/commons/math3/analysis/ org/apache/commons/math3/analysis/class-use/ org/apache/commons/math3/analysis/differ...
Date Fri, 17 Apr 2015 19:44:43 GMT
Modified: websites/production/commons/content/proper/commons-math/testapidocs/overview-tree.html
==============================================================================
--- websites/production/commons/content/proper/commons-math/testapidocs/overview-tree.html (original)
+++ websites/production/commons/content/proper/commons-math/testapidocs/overview-tree.html Fri Apr 17 19:43:52 2015
@@ -3,13 +3,13 @@
 <html lang="en">
 <head>
 <meta http-equiv="Content-Type" content="text/html" charset="UTF-8">
-<title>Class Hierarchy (Apache Commons Math 3.4.1 Test API)</title>
+<title>Class Hierarchy (Apache Commons Math 3.5 Test API)</title>
 <link rel="stylesheet" type="text/css" href="stylesheet.css" title="Style">
 </head>
 <body>
 <script type="text/javascript"><!--
     if (location.href.indexOf('is-external=true') == -1) {
-        parent.document.title="Class Hierarchy (Apache Commons Math 3.4.1 Test API)";
+        parent.document.title="Class Hierarchy (Apache Commons Math 3.5 Test API)";
     }
 //-->
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@@ -91,6 +91,7 @@
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 <li><a href="org/apache/commons/math3/geometry/euclidean/twod/hull/package-tree.html">org.apache.commons.math3.geometry.euclidean.twod.hull</a>, </li>
+<li><a href="org/apache/commons/math3/geometry/partitioning/package-tree.html">org.apache.commons.math3.geometry.partitioning</a>, </li>
 <li><a href="org/apache/commons/math3/geometry/partitioning/utilities/package-tree.html">org.apache.commons.math3.geometry.partitioning.utilities</a>, </li>
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+<ul>
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+</ul>
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 <li type="circle">org.apache.commons.math3.random.<a href="org/apache/commons/math3/random/StableRandomGeneratorTest.html" title="class in org.apache.commons.math3.random"><span class="strong">StableRandomGeneratorTest</span></a></li>
 <li type="circle">org.apache.commons.math3.optimization.general.<a href="org/apache/commons/math3/optimization/general/StatisticalReferenceDataset.html" title="class in org.apache.commons.math3.optimization.general"><span class="strong">StatisticalReferenceDataset</span></a></li>
-<li type="circle">org.apache.commons.math3.fitting.leastsquares.<a href="org/apache/commons/math3/fitting/leastsquares/StatisticalReferenceDataset.html" title="class in org.apache.commons.math3.fitting.leastsquares"><span class="strong">StatisticalReferenceDataset</span></a></li>
 <li type="circle">org.apache.commons.math3.optim.nonlinear.vector.jacobian.<a href="org/apache/commons/math3/optim/nonlinear/vector/jacobian/StatisticalReferenceDataset.html" title="class in org.apache.commons.math3.optim.nonlinear.vector.jacobian"><span class="strong">StatisticalReferenceDataset</span></a></li>
+<li type="circle">org.apache.commons.math3.fitting.leastsquares.<a href="org/apache/commons/math3/fitting/leastsquares/StatisticalReferenceDataset.html" title="class in org.apache.commons.math3.fitting.leastsquares"><span class="strong">StatisticalReferenceDataset</span></a></li>
 <li type="circle">org.apache.commons.math3.optimization.general.<a href="org/apache/commons/math3/optimization/general/StatisticalReferenceDatasetFactory.html" title="class in org.apache.commons.math3.optimization.general"><span class="strong">StatisticalReferenceDatasetFactory</span></a></li>
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+<li type="circle">org.apache.commons.math3.fitting.leastsquares.<a href="org/apache/commons/math3/fitting/leastsquares/StatisticalReferenceDatasetFactory.html" title="class in org.apache.commons.math3.fitting.leastsquares"><span class="strong">StatisticalReferenceDatasetFactory</span></a></li>
 <li type="circle">org.apache.commons.math3.stat.descriptive.<a href="org/apache/commons/math3/stat/descriptive/StatisticalSummaryValuesTest.html" title="class in org.apache.commons.math3.stat.descriptive"><span class="strong">StatisticalSummaryValuesTest</span></a></li>
 <li type="circle">org.apache.commons.math3.stat.<a href="org/apache/commons/math3/stat/StatUtilsTest.html" title="class in org.apache.commons.math3.stat"><span class="strong">StatUtilsTest</span></a></li>
 <li type="circle">org.apache.commons.math3.analysis.function.<a href="org/apache/commons/math3/analysis/function/StepFunctionTest.html" title="class in org.apache.commons.math3.analysis.function"><span class="strong">StepFunctionTest</span></a></li>

Modified: websites/production/commons/content/proper/commons-math/testapidocs/package-list
==============================================================================
--- websites/production/commons/content/proper/commons-math/testapidocs/package-list (original)
+++ websites/production/commons/content/proper/commons-math/testapidocs/package-list Fri Apr 17 19:43:52 2015
@@ -23,6 +23,7 @@ org.apache.commons.math3.geometry.euclid
 org.apache.commons.math3.geometry.euclidean.threed
 org.apache.commons.math3.geometry.euclidean.twod
 org.apache.commons.math3.geometry.euclidean.twod.hull
+org.apache.commons.math3.geometry.partitioning
 org.apache.commons.math3.geometry.partitioning.utilities
 org.apache.commons.math3.geometry.spherical.oned
 org.apache.commons.math3.geometry.spherical.twod

Modified: websites/production/commons/content/proper/commons-math/testapidocs/serialized-form.html
==============================================================================
--- websites/production/commons/content/proper/commons-math/testapidocs/serialized-form.html (original)
+++ websites/production/commons/content/proper/commons-math/testapidocs/serialized-form.html Fri Apr 17 19:43:52 2015
@@ -3,13 +3,13 @@
 <html lang="en">
 <head>
 <meta http-equiv="Content-Type" content="text/html" charset="UTF-8">
-<title>Serialized Form (Apache Commons Math 3.4.1 Test API)</title>
+<title>Serialized Form (Apache Commons Math 3.5 Test API)</title>
 <link rel="stylesheet" type="text/css" href="stylesheet.css" title="Style">
 </head>
 <body>
 <script type="text/javascript"><!--
     if (location.href.indexOf('is-external=true') == -1) {
-        parent.document.title="Serialized Form (Apache Commons Math 3.4.1 Test API)";
+        parent.document.title="Serialized Form (Apache Commons Math 3.5 Test API)";
     }
 //-->
 </script>
@@ -3531,6 +3531,10 @@
 <!--   -->
 </a>
 <h3>Class <a href="../apidocs/org/apache/commons/math3/ml/neuralnet/oned/NeuronString.html?is-external=true" title="class or interface in org.apache.commons.math3.ml.neuralnet.oned">org.apache.commons.math3.ml.neuralnet.oned.NeuronString</a> extends <a href="http://docs.oracle.com/javase/6/docs/api/java/lang/Object.html?is-external=true" title="class or interface in java.lang">Object</a> implements Serializable</h3>
+<dl class="nameValue">
+<dt>serialVersionUID:</dt>
+<dd>1L</dd>
+</dl>
 <ul class="blockList">
 <li class="blockList"><a name="serialized_methods">
 <!--   -->
@@ -3585,6 +3589,10 @@
 <!--   -->
 </a>
 <h3>Class <a href="../apidocs/org/apache/commons/math3/ml/neuralnet/twod/NeuronSquareMesh2D.html?is-external=true" title="class or interface in org.apache.commons.math3.ml.neuralnet.twod">org.apache.commons.math3.ml.neuralnet.twod.NeuronSquareMesh2D</a> extends <a href="http://docs.oracle.com/javase/6/docs/api/java/lang/Object.html?is-external=true" title="class or interface in java.lang">Object</a> implements Serializable</h3>
+<dl class="nameValue">
+<dt>serialVersionUID:</dt>
+<dd>1L</dd>
+</dl>
 <ul class="blockList">
 <li class="blockList"><a name="serialized_methods">
 <!--   -->

Modified: websites/production/commons/content/proper/commons-math/testapidocs/src-html/org/apache/commons/math3/analysis/solvers/LaguerreSolverTest.html
==============================================================================
--- websites/production/commons/content/proper/commons-math/testapidocs/src-html/org/apache/commons/math3/analysis/solvers/LaguerreSolverTest.html (original)
+++ websites/production/commons/content/proper/commons-math/testapidocs/src-html/org/apache/commons/math3/analysis/solvers/LaguerreSolverTest.html Fri Apr 17 19:43:52 2015
@@ -27,144 +27,185 @@
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-<span class="sourceLineNo">024</span>import org.apache.commons.math3.TestUtils;<a name="line.24"></a>
-<span class="sourceLineNo">025</span>import org.junit.Assert;<a name="line.25"></a>
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-<span class="sourceLineNo">034</span> * invoked, and 15 to 20 iterations to find all roots for quintic function.<a name="line.34"></a>
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+<span class="sourceLineNo">052</span>        tolerance = FastMath.max(solver.getAbsoluteAccuracy(),<a name="line.52"></a>
+<span class="sourceLineNo">053</span>                    FastMath.abs(expected * solver.getRelativeAccuracy()));<a name="line.53"></a>
+<span class="sourceLineNo">054</span>        result = solver.solve(100, f, min, max);<a name="line.54"></a>
+<span class="sourceLineNo">055</span>        Assert.assertEquals(expected, result, tolerance);<a name="line.55"></a>
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+<span class="sourceLineNo">057</span><a name="line.57"></a>
+<span class="sourceLineNo">058</span>    /**<a name="line.58"></a>
+<span class="sourceLineNo">059</span>     * Test of solver for the quadratic function.<a name="line.59"></a>
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+<span class="sourceLineNo">061</span>    @Test<a name="line.61"></a>
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+<span class="sourceLineNo">064</span><a name="line.64"></a>
+<span class="sourceLineNo">065</span>        // p(x) = 2x^2 + 5x - 3 = (x+3)(2x-1)<a name="line.65"></a>
+<span class="sourceLineNo">066</span>        double coefficients[] = { -3.0, 5.0, 2.0 };<a name="line.66"></a>
+<span class="sourceLineNo">067</span>        PolynomialFunction f = new PolynomialFunction(coefficients);<a name="line.67"></a>
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+<span class="sourceLineNo">071</span>        tolerance = FastMath.max(solver.getAbsoluteAccuracy(),<a name="line.71"></a>
+<span class="sourceLineNo">072</span>                    FastMath.abs(expected * solver.getRelativeAccuracy()));<a name="line.72"></a>
+<span class="sourceLineNo">073</span>        result = solver.solve(100, f, min, max);<a name="line.73"></a>
+<span class="sourceLineNo">074</span>        Assert.assertEquals(expected, result, tolerance);<a name="line.74"></a>
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+<span class="sourceLineNo">077</span>        tolerance = FastMath.max(solver.getAbsoluteAccuracy(),<a name="line.77"></a>
+<span class="sourceLineNo">078</span>                    FastMath.abs(expected * solver.getRelativeAccuracy()));<a name="line.78"></a>
+<span class="sourceLineNo">079</span>        result = solver.solve(100, f, min, max);<a name="line.79"></a>
+<span class="sourceLineNo">080</span>        Assert.assertEquals(expected, result, tolerance);<a name="line.80"></a>
+<span class="sourceLineNo">081</span>    }<a name="line.81"></a>
+<span class="sourceLineNo">082</span><a name="line.82"></a>
+<span class="sourceLineNo">083</span>    /**<a name="line.83"></a>
+<span class="sourceLineNo">084</span>     * Test of solver for the quintic function.<a name="line.84"></a>
+<span class="sourceLineNo">085</span>     */<a name="line.85"></a>
+<span class="sourceLineNo">086</span>    @Test<a name="line.86"></a>
+<span class="sourceLineNo">087</span>    public void testQuinticFunction() {<a name="line.87"></a>
+<span class="sourceLineNo">088</span>        double min, max, expected, result, tolerance;<a name="line.88"></a>
+<span class="sourceLineNo">089</span><a name="line.89"></a>
+<span class="sourceLineNo">090</span>        // p(x) = x^5 - x^4 - 12x^3 + x^2 - x - 12 = (x+1)(x+3)(x-4)(x^2-x+1)<a name="line.90"></a>
+<span class="sourceLineNo">091</span>        double coefficients[] = { -12.0, -1.0, 1.0, -12.0, -1.0, 1.0 };<a name="line.91"></a>
+<span class="sourceLineNo">092</span>        PolynomialFunction f = new PolynomialFunction(coefficients);<a name="line.92"></a>
+<span class="sourceLineNo">093</span>        LaguerreSolver solver = new LaguerreSolver();<a name="line.93"></a>
+<span class="sourceLineNo">094</span><a name="line.94"></a>
+<span class="sourceLineNo">095</span>        min = -2.0; max = 2.0; expected = -1.0;<a name="line.95"></a>
+<span class="sourceLineNo">096</span>        tolerance = FastMath.max(solver.getAbsoluteAccuracy(),<a name="line.96"></a>
+<span class="sourceLineNo">097</span>                    FastMath.abs(expected * solver.getRelativeAccuracy()));<a name="line.97"></a>
+<span class="sourceLineNo">098</span>        result = solver.solve(100, f, min, max);<a name="line.98"></a>
+<span class="sourceLineNo">099</span>        Assert.assertEquals(expected, result, tolerance);<a name="line.99"></a>
+<span class="sourceLineNo">100</span><a name="line.100"></a>
+<span class="sourceLineNo">101</span>        min = -5.0; max = -2.5; expected = -3.0;<a name="line.101"></a>
+<span class="sourceLineNo">102</span>        tolerance = FastMath.max(solver.getAbsoluteAccuracy(),<a name="line.102"></a>
+<span class="sourceLineNo">103</span>                    FastMath.abs(expected * solver.getRelativeAccuracy()));<a name="line.103"></a>
+<span class="sourceLineNo">104</span>        result = solver.solve(100, f, min, max);<a name="line.104"></a>
+<span class="sourceLineNo">105</span>        Assert.assertEquals(expected, result, tolerance);<a name="line.105"></a>
+<span class="sourceLineNo">106</span><a name="line.106"></a>
+<span class="sourceLineNo">107</span>        min = 3.0; max = 6.0; expected = 4.0;<a name="line.107"></a>
+<span class="sourceLineNo">108</span>        tolerance = FastMath.max(solver.getAbsoluteAccuracy(),<a name="line.108"></a>
+<span class="sourceLineNo">109</span>                    FastMath.abs(expected * solver.getRelativeAccuracy()));<a name="line.109"></a>
+<span class="sourceLineNo">110</span>        result = solver.solve(100, f, min, max);<a name="line.110"></a>
+<span class="sourceLineNo">111</span>        Assert.assertEquals(expected, result, tolerance);<a name="line.111"></a>
+<span class="sourceLineNo">112</span>    }<a name="line.112"></a>
+<span class="sourceLineNo">113</span><a name="line.113"></a>
+<span class="sourceLineNo">114</span>    /**<a name="line.114"></a>
+<span class="sourceLineNo">115</span>     * Test of solver for the quintic function using<a name="line.115"></a>
+<span class="sourceLineNo">116</span>     * {@link LaguerreSolver#solveAllComplex(double[],double) solveAllComplex}.<a name="line.116"></a>
+<span class="sourceLineNo">117</span>     */<a name="line.117"></a>
+<span class="sourceLineNo">118</span>    @Test<a name="line.118"></a>
+<span class="sourceLineNo">119</span>    public void testQuinticFunction2() {<a name="line.119"></a>
+<span class="sourceLineNo">120</span>        // p(x) = x^5 + 4x^3 + x^2 + 4 = (x+1)(x^2-x+1)(x^2+4)<a name="line.120"></a>
+<span class="sourceLineNo">121</span>        final double[] coefficients = { 4.0, 0.0, 1.0, 4.0, 0.0, 1.0 };<a name="line.121"></a>
+<span class="sourceLineNo">122</span>        final LaguerreSolver solver = new LaguerreSolver();<a name="line.122"></a>
+<span class="sourceLineNo">123</span>        final Complex[] result = solver.solveAllComplex(coefficients, 0);<a name="line.123"></a>
+<span class="sourceLineNo">124</span><a name="line.124"></a>
+<span class="sourceLineNo">125</span>        for (Complex expected : new Complex[] { new Complex(0, -2),<a name="line.125"></a>
+<span class="sourceLineNo">126</span>                                                new Complex(0, 2),<a name="line.126"></a>
+<span class="sourceLineNo">127</span>                                                new Complex(0.5, 0.5 * FastMath.sqrt(3)),<a name="line.127"></a>
+<span class="sourceLineNo">128</span>                                                new Complex(-1, 0),<a name="line.128"></a>
+<span class="sourceLineNo">129</span>                                                new Complex(0.5, -0.5 * FastMath.sqrt(3.0)) }) {<a name="line.129"></a>
+<span class="sourceLineNo">130</span>            final double tolerance = FastMath.max(solver.getAbsoluteAccuracy(),<a name="line.130"></a>
+<span class="sourceLineNo">131</span>                                                  FastMath.abs(expected.abs() * solver.getRelativeAccuracy()));<a name="line.131"></a>
+<span class="sourceLineNo">132</span>            TestUtils.assertContains(result, expected, tolerance);<a name="line.132"></a>
+<span class="sourceLineNo">133</span>        }<a name="line.133"></a>
+<span class="sourceLineNo">134</span>    }<a name="line.134"></a>
+<span class="sourceLineNo">135</span><a name="line.135"></a>
+<span class="sourceLineNo">136</span>    /**<a name="line.136"></a>
+<span class="sourceLineNo">137</span>     * Test of parameters for the solver.<a name="line.137"></a>
+<span class="sourceLineNo">138</span>     */<a name="line.138"></a>
+<span class="sourceLineNo">139</span>    @Test<a name="line.139"></a>
+<span class="sourceLineNo">140</span>    public void testParameters() {<a name="line.140"></a>
+<span class="sourceLineNo">141</span>        double coefficients[] = { -3.0, 5.0, 2.0 };<a name="line.141"></a>
+<span class="sourceLineNo">142</span>        PolynomialFunction f = new PolynomialFunction(coefficients);<a name="line.142"></a>
+<span class="sourceLineNo">143</span>        LaguerreSolver solver = new LaguerreSolver();<a name="line.143"></a>
+<span class="sourceLineNo">144</span><a name="line.144"></a>
+<span class="sourceLineNo">145</span>        try {<a name="line.145"></a>
+<span class="sourceLineNo">146</span>            // bad interval<a name="line.146"></a>
+<span class="sourceLineNo">147</span>            solver.solve(100, f, 1, -1);<a name="line.147"></a>
+<span class="sourceLineNo">148</span>            Assert.fail("Expecting NumberIsTooLargeException - bad interval");<a name="line.148"></a>
+<span class="sourceLineNo">149</span>        } catch (NumberIsTooLargeException ex) {<a name="line.149"></a>
+<span class="sourceLineNo">150</span>            // expected<a name="line.150"></a>
+<span class="sourceLineNo">151</span>        }<a name="line.151"></a>
+<span class="sourceLineNo">152</span>        try {<a name="line.152"></a>
+<span class="sourceLineNo">153</span>            // no bracketing<a name="line.153"></a>
+<span class="sourceLineNo">154</span>            solver.solve(100, f, 2, 3);<a name="line.154"></a>
+<span class="sourceLineNo">155</span>            Assert.fail("Expecting NoBracketingException - no bracketing");<a name="line.155"></a>
+<span class="sourceLineNo">156</span>        } catch (NoBracketingException ex) {<a name="line.156"></a>
+<span class="sourceLineNo">157</span>            // expected<a name="line.157"></a>
+<span class="sourceLineNo">158</span>        }<a name="line.158"></a>
+<span class="sourceLineNo">159</span>    }<a name="line.159"></a>
+<span class="sourceLineNo">160</span><a name="line.160"></a>
+<span class="sourceLineNo">161</span>    @Test(expected=org.apache.commons.math3.exception.NoDataException.class)<a name="line.161"></a>
+<span class="sourceLineNo">162</span>    public void testEmptyCoefficients() {<a name="line.162"></a>
+<span class="sourceLineNo">163</span>        double coefficients[] = {};<a name="line.163"></a>
+<span class="sourceLineNo">164</span>        LaguerreSolver solver = new LaguerreSolver();<a name="line.164"></a>
+<span class="sourceLineNo">165</span>        solver.solveComplex(coefficients, 0);<a name="line.165"></a>
+<span class="sourceLineNo">166</span>    }<a name="line.166"></a>
+<span class="sourceLineNo">167</span><a name="line.167"></a>
+<span class="sourceLineNo">168</span>    @Test(expected=org.apache.commons.math3.exception.NullArgumentException.class)<a name="line.168"></a>
+<span class="sourceLineNo">169</span>    public void testNullCoefficients() {<a name="line.169"></a>
+<span class="sourceLineNo">170</span>        LaguerreSolver solver = new LaguerreSolver();<a name="line.170"></a>
+<span class="sourceLineNo">171</span>        solver.solveComplex(null, 0);<a name="line.171"></a>
+<span class="sourceLineNo">172</span>    }<a name="line.172"></a>
+<span class="sourceLineNo">173</span><a name="line.173"></a>
+<span class="sourceLineNo">174</span>    @Test<a name="line.174"></a>
+<span class="sourceLineNo">175</span>    public void testTooManyEvaluations() {<a name="line.175"></a>
+<span class="sourceLineNo">176</span>        double coefficients[] = {1, 0, 0, 1}; // x^3 + 1 (cube roots of unity)<a name="line.176"></a>
+<span class="sourceLineNo">177</span>        final double tol = 1e-12;<a name="line.177"></a>
+<span class="sourceLineNo">178</span>        LaguerreSolver solver = new LaguerreSolver(tol);<a name="line.178"></a>
+<span class="sourceLineNo">179</span><a name="line.179"></a>
+<span class="sourceLineNo">180</span>        // No evaluations limit -&gt; solveAllComplex should get all roots<a name="line.180"></a>
+<span class="sourceLineNo">181</span>        Complex [] expected = {new Complex(0.5, FastMath.sqrt(3) / 2),<a name="line.181"></a>
+<span class="sourceLineNo">182</span>            new Complex(-1, 0), new Complex(0.5, -FastMath.sqrt(3) / 2)};<a name="line.182"></a>
+<span class="sourceLineNo">183</span>        Complex [] roots = solver.solveAllComplex(coefficients, 0);<a name="line.183"></a>
+<span class="sourceLineNo">184</span><a name="line.184"></a>
+<span class="sourceLineNo">185</span>        for (Complex expectedRoot : expected) {<a name="line.185"></a>
+<span class="sourceLineNo">186</span>            final double tolerance = FastMath.max(solver.getAbsoluteAccuracy(),<a name="line.186"></a>
+<span class="sourceLineNo">187</span>                         FastMath.abs(expectedRoot.abs() * solver.getRelativeAccuracy()));<a name="line.187"></a>
+<span class="sourceLineNo">188</span>            TestUtils.assertContains(roots, expectedRoot, tolerance);<a name="line.188"></a>
+<span class="sourceLineNo">189</span>        }<a name="line.189"></a>
+<span class="sourceLineNo">190</span><a name="line.190"></a>
+<span class="sourceLineNo">191</span>        // Iterations limit too low -&gt; throw TME<a name="line.191"></a>
+<span class="sourceLineNo">192</span>        try {<a name="line.192"></a>
+<span class="sourceLineNo">193</span>            solver.solveAllComplex(coefficients, 1000, 2);<a name="line.193"></a>
+<span class="sourceLineNo">194</span>            Assert.fail("Expecting TooManyEvaluationsException");<a name="line.194"></a>
+<span class="sourceLineNo">195</span>        } catch (TooManyEvaluationsException ex) {<a name="line.195"></a>
+<span class="sourceLineNo">196</span>            // expected<a name="line.196"></a>
+<span class="sourceLineNo">197</span>        }<a name="line.197"></a>
+<span class="sourceLineNo">198</span><a name="line.198"></a>
+<span class="sourceLineNo">199</span>    }<a name="line.199"></a>
+<span class="sourceLineNo">200</span>}<a name="line.200"></a>
 
 
 

Modified: websites/production/commons/content/proper/commons-math/testapidocs/src-html/org/apache/commons/math3/analysis/solvers/UnivariateSolverUtilsTest.html
==============================================================================
--- websites/production/commons/content/proper/commons-math/testapidocs/src-html/org/apache/commons/math3/analysis/solvers/UnivariateSolverUtilsTest.html (original)
+++ websites/production/commons/content/proper/commons-math/testapidocs/src-html/org/apache/commons/math3/analysis/solvers/UnivariateSolverUtilsTest.html Fri Apr 17 19:43:52 2015
@@ -183,35 +183,43 @@
 <span class="sourceLineNo">175</span>        UnivariateSolverUtils.bracket(sin, 1.5, 0, 2.0, 0);<a name="line.175"></a>
 <span class="sourceLineNo">176</span>    }<a name="line.176"></a>
 <span class="sourceLineNo">177</span><a name="line.177"></a>
-<span class="sourceLineNo">178</span>    @Test<a name="line.178"></a>
-<span class="sourceLineNo">179</span>    public void testMisc() {<a name="line.179"></a>
-<span class="sourceLineNo">180</span>        UnivariateFunction f = new QuinticFunction();<a name="line.180"></a>
-<span class="sourceLineNo">181</span>        double result;<a name="line.181"></a>
-<span class="sourceLineNo">182</span>        // Static solve method<a name="line.182"></a>
-<span class="sourceLineNo">183</span>        result = UnivariateSolverUtils.solve(f, -0.2, 0.2);<a name="line.183"></a>
-<span class="sourceLineNo">184</span>        Assert.assertEquals(result, 0, 1E-8);<a name="line.184"></a>
-<span class="sourceLineNo">185</span>        result = UnivariateSolverUtils.solve(f, -0.1, 0.3);<a name="line.185"></a>
-<span class="sourceLineNo">186</span>        Assert.assertEquals(result, 0, 1E-8);<a name="line.186"></a>
-<span class="sourceLineNo">187</span>        result = UnivariateSolverUtils.solve(f, -0.3, 0.45);<a name="line.187"></a>
-<span class="sourceLineNo">188</span>        Assert.assertEquals(result, 0, 1E-6);<a name="line.188"></a>
-<span class="sourceLineNo">189</span>        result = UnivariateSolverUtils.solve(f, 0.3, 0.7);<a name="line.189"></a>
-<span class="sourceLineNo">190</span>        Assert.assertEquals(result, 0.5, 1E-6);<a name="line.190"></a>
-<span class="sourceLineNo">191</span>        result = UnivariateSolverUtils.solve(f, 0.2, 0.6);<a name="line.191"></a>
-<span class="sourceLineNo">192</span>        Assert.assertEquals(result, 0.5, 1E-6);<a name="line.192"></a>
-<span class="sourceLineNo">193</span>        result = UnivariateSolverUtils.solve(f, 0.05, 0.95);<a name="line.193"></a>
-<span class="sourceLineNo">194</span>        Assert.assertEquals(result, 0.5, 1E-6);<a name="line.194"></a>
-<span class="sourceLineNo">195</span>        result = UnivariateSolverUtils.solve(f, 0.85, 1.25);<a name="line.195"></a>
-<span class="sourceLineNo">196</span>        Assert.assertEquals(result, 1.0, 1E-6);<a name="line.196"></a>
-<span class="sourceLineNo">197</span>        result = UnivariateSolverUtils.solve(f, 0.8, 1.2);<a name="line.197"></a>
-<span class="sourceLineNo">198</span>        Assert.assertEquals(result, 1.0, 1E-6);<a name="line.198"></a>
-<span class="sourceLineNo">199</span>        result = UnivariateSolverUtils.solve(f, 0.85, 1.75);<a name="line.199"></a>
-<span class="sourceLineNo">200</span>        Assert.assertEquals(result, 1.0, 1E-6);<a name="line.200"></a>
-<span class="sourceLineNo">201</span>        result = UnivariateSolverUtils.solve(f, 0.55, 1.45);<a name="line.201"></a>
-<span class="sourceLineNo">202</span>        Assert.assertEquals(result, 1.0, 1E-6);<a name="line.202"></a>
-<span class="sourceLineNo">203</span>        result = UnivariateSolverUtils.solve(f, 0.85, 5);<a name="line.203"></a>
+<span class="sourceLineNo">178</span>    /** check the search continues when a = lowerBound and b &lt; upperBound. */<a name="line.178"></a>
+<span class="sourceLineNo">179</span>    @Test<a name="line.179"></a>
+<span class="sourceLineNo">180</span>    public void testBracketLoopConditionForB() {<a name="line.180"></a>
+<span class="sourceLineNo">181</span>        double[] result = UnivariateSolverUtils.bracket(sin, -0.9, -1, 1, 0.1, 1, 100);<a name="line.181"></a>
+<span class="sourceLineNo">182</span>        Assert.assertTrue(result[0] &lt;= 0);<a name="line.182"></a>
+<span class="sourceLineNo">183</span>        Assert.assertTrue(result[1] &gt;= 0);<a name="line.183"></a>
+<span class="sourceLineNo">184</span>    }<a name="line.184"></a>
+<span class="sourceLineNo">185</span><a name="line.185"></a>
+<span class="sourceLineNo">186</span>    @Test<a name="line.186"></a>
+<span class="sourceLineNo">187</span>    public void testMisc() {<a name="line.187"></a>
+<span class="sourceLineNo">188</span>        UnivariateFunction f = new QuinticFunction();<a name="line.188"></a>
+<span class="sourceLineNo">189</span>        double result;<a name="line.189"></a>
+<span class="sourceLineNo">190</span>        // Static solve method<a name="line.190"></a>
+<span class="sourceLineNo">191</span>        result = UnivariateSolverUtils.solve(f, -0.2, 0.2);<a name="line.191"></a>
+<span class="sourceLineNo">192</span>        Assert.assertEquals(result, 0, 1E-8);<a name="line.192"></a>
+<span class="sourceLineNo">193</span>        result = UnivariateSolverUtils.solve(f, -0.1, 0.3);<a name="line.193"></a>
+<span class="sourceLineNo">194</span>        Assert.assertEquals(result, 0, 1E-8);<a name="line.194"></a>
+<span class="sourceLineNo">195</span>        result = UnivariateSolverUtils.solve(f, -0.3, 0.45);<a name="line.195"></a>
+<span class="sourceLineNo">196</span>        Assert.assertEquals(result, 0, 1E-6);<a name="line.196"></a>
+<span class="sourceLineNo">197</span>        result = UnivariateSolverUtils.solve(f, 0.3, 0.7);<a name="line.197"></a>
+<span class="sourceLineNo">198</span>        Assert.assertEquals(result, 0.5, 1E-6);<a name="line.198"></a>
+<span class="sourceLineNo">199</span>        result = UnivariateSolverUtils.solve(f, 0.2, 0.6);<a name="line.199"></a>
+<span class="sourceLineNo">200</span>        Assert.assertEquals(result, 0.5, 1E-6);<a name="line.200"></a>
+<span class="sourceLineNo">201</span>        result = UnivariateSolverUtils.solve(f, 0.05, 0.95);<a name="line.201"></a>
+<span class="sourceLineNo">202</span>        Assert.assertEquals(result, 0.5, 1E-6);<a name="line.202"></a>
+<span class="sourceLineNo">203</span>        result = UnivariateSolverUtils.solve(f, 0.85, 1.25);<a name="line.203"></a>
 <span class="sourceLineNo">204</span>        Assert.assertEquals(result, 1.0, 1E-6);<a name="line.204"></a>
-<span class="sourceLineNo">205</span>    }<a name="line.205"></a>
-<span class="sourceLineNo">206</span>}<a name="line.206"></a>
+<span class="sourceLineNo">205</span>        result = UnivariateSolverUtils.solve(f, 0.8, 1.2);<a name="line.205"></a>
+<span class="sourceLineNo">206</span>        Assert.assertEquals(result, 1.0, 1E-6);<a name="line.206"></a>
+<span class="sourceLineNo">207</span>        result = UnivariateSolverUtils.solve(f, 0.85, 1.75);<a name="line.207"></a>
+<span class="sourceLineNo">208</span>        Assert.assertEquals(result, 1.0, 1E-6);<a name="line.208"></a>
+<span class="sourceLineNo">209</span>        result = UnivariateSolverUtils.solve(f, 0.55, 1.45);<a name="line.209"></a>
+<span class="sourceLineNo">210</span>        Assert.assertEquals(result, 1.0, 1E-6);<a name="line.210"></a>
+<span class="sourceLineNo">211</span>        result = UnivariateSolverUtils.solve(f, 0.85, 5);<a name="line.211"></a>
+<span class="sourceLineNo">212</span>        Assert.assertEquals(result, 1.0, 1E-6);<a name="line.212"></a>
+<span class="sourceLineNo">213</span>    }<a name="line.213"></a>
+<span class="sourceLineNo">214</span>}<a name="line.214"></a>
 
 
 



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