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Moved ALGLIB code into a separate plugin. #783

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4<title>AP Library adapted for C#</title>
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18<h1>AP Library adapted for C#</h1>
19
20<p align=justify>
21The document describes an AP library adapted for C#. The AP library for C# contains a basic set of mathematical functions and collection classes needed to run the programs from the <a href="http://www.alglib.net/">ALGLIB</a> website.
22</p>
23
24<h1>Compatibility</h1>
25
26<p align=justify>
27This library must be compatible with any C# compiler.
28</p>
29
30<h1>Structure and Use</h1>
31
32<p align=justify>
33The library includes the only file <code>ap.cs</code>
34</p>
35
36<h1>AP Library Description</h1>
37
38<font size=-1>
39<a href="#constants">Constants</a><br>
40<a href="#functions">Functions</a><br>
41<a href="#complex">Complex numbers</a><br>
42</font>
43
44<a name="constants"><h1>Constants</h1></a>
45
46<p align=justify>
47<span class=const>AP.Math.MachineEpsilon</span><br>
48The constant represents the accuracy of machine operations, that is the minimum number for <code>1+machineepsilon&ne;1</code> in the given bit grid. The constant may be taken &quot;oversized&quot;, that is real accuracy can be even higher.
49</p>
50
51<p align=justify>
52<span class=const>AP.Math.MaxRealNumber</span><br>
53The constant represents the highest value of the positive real number, which could be represented on this machine. The constant may be taken &quot;oversized&quot;, that is real boundary can be even higher.
54</p>
55
56<p align=justify>
57<span class=const>AP.Math.MinRealNumber</span><br>
58The constant represents the lowest value of positive real number, which could be represented on this machine. The constant may be taken &quot;oversized&quot;, that is real boundary can be even lower.
59</p>
60
61<a name="functions"><h1>Functions</h1></a>
62
63<p align=justify>
64<span class=func><b>public static double</b> AP.Math.RandomReal()</span><br>
65Returns a random real number from half-interval [0,1).
66</p>
67
68<p align=justify>
69<span class=func><b>public static int</b> AP.Math.RandomInteger(<b>int</b> N)</span><br>
70Returns a random integer between 0 and maxv-1.
71</p>
72
73<p align=justify>
74<span class=func><b>public static double</b> AP.Math.Sqr(<b>double</b> x)</span><br>
75Returns x<sup>2</sup>.
76</p>
77
78<a name="complex"><h1>Class of complex numbers</h1></a>
79
80<p align=justify>
81AP library includes the <code>AP.Complex</code> structure that supports operations with compex numbers. Access to real and imaginary parts of complex number is implemented through the public fields <code>x</code> and <code>y</code>. Arithmetical operations are supported, the same as with embedded data types, by overloading of operations: addition, subtraction, multiplication and division. Addition, subtraction and multiplication are performed by a usual way (i.e., according to their definition which can be found in any textdook in algebra), division is performed using so called &quot;safe&quot; algorithm that could never cause overflow when calculating intermediate results. The library also includes several functions performing elementary operations with complex numbers.
82</p>
83
84<p align=justify>
85<span class=func><b>double</b> AP.Math.AbsComplex(AP.Complex z)</span><br>
86Returns the modulus of complex number z. It should be noted that the modulus calculation is performed using so called &quot;safe&quot; algorithm, that could never cause overflow when calculating intermediate results.
87</p>
88
89<p align=justify>
90<span class=func>AP.Complex AP.Math.Conj(AP.Complex z)</span><br>
91Returns complex conjugate to z.
92</p>
93
94<p align=justify>
95<span class=func>AP.Complex AP.Math.CSqr(AP.Complex z)</span><br>
96Returns the square of z.
97</p>
98
99</body>
100</html>
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